/*---------------------------------------------------------------------------*\
  =========                 |
  \\      /  F ield         | OpenFOAM: The Open Source CFD Toolbox
   \\    /   O peration     | Website:  https://openfoam.org
    \\  /    A nd           | Version:  6
     \\/     M anipulation  |
\*---------------------------------------------------------------------------*/
Build  : 6-e05f780ebc87
Exec   : PDRFoam
Date   : Jul 24 2018
Time   : 11:03:23
Host   : "holger-omen"
PID    : 25718
I/O    : uncollated
Case   : /media/holger/DATA/OpenFOAM/holger-6/run/combustion/PDRFoam/flamePropagationWithObstacles
nProcs : 1
sigFpe : Enabling floating point exception trapping (FOAM_SIGFPE).
fileModificationChecking : Monitoring run-time modified files using timeStampMaster (fileModificationSkew 10)
allowSystemOperations : Allowing user-supplied system call operations

// * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * //
Create time

Create mesh for time = 0


PIMPLE: No convergence criteria found


PIMPLE: Operating solver in PISO mode

Reading combustion properties

Found ignition cells:
1(517)

Ignition on

Reading g
Reading thermophysical properties

Selecting thermodynamics package 
{
    type            heheuPsiThermo;
    mixture         inhomogeneousMixture;
    transport       sutherland;
    thermo          janaf;
    equationOfState perfectGas;
    specie          specie;
    energy          absoluteEnthalpy;
}

min(b) = 1

Reading field U

Reading/calculating face flux field phi

Creating turbulence model

Selecting RAS turbulence model PDRkEpsilon
Creating field dpdt

Creating field kinetic energy K

Creating the unstrained laminar flame speed

Selecting laminar flame speed correlation SCOPE
Reading strained laminar flame speed field Su

Reading field betav

Reading field Lobs

Reading field CT

Reading field Nv

Reading field nsv

Selecting flame-wrinkling model basic
Selecting flame-wrinkling model transport
Selecting flame-wrinkling model instability
Selecting flame-wrinkling model basicSubGrid
Selecting flame-wrinkling model SCOPEBlend
Selecting flame-wrinkling model Gulder
Selecting flame-wrinkling model SCOPEXiEq
Selecting flame-wrinkling model instabilityG
Selecting flame-wrinkling model basicSubGridG
Selecting flame-wrinkling model KTS
Calculating turbulent flame speed field St

No MRF models present

No finite volume options present
Courant Number mean: 0 max: 0

Starting time loop

Courant Number mean: 0 max: 0
deltaT = 5.9988002e-06


Time = 5.9988e-06
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 0
Open fraction = 1e-06
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00062081222, Final residual = 4.0333193e-11, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00043947014, Final residual = 1.4499017e-11, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.9999982, Final residual = 4.9516694e-09, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 8.5336726e-11, global = -8.4095439e-11, cumulative = -8.4095439e-11
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00065106696, Final residual = 3.6167142e-11, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.99354124, Final residual = 4.8790536e-08, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.057691402, Final residual = 2.8571358e-10, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 8.5336658e-11, global = -8.4095395e-11, cumulative = -1.6819083e-10
DILUPBiCGStab:  Solving for epsilon, Initial residual = 1.5433629e-05, Final residual = 1.5109749e-12, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 1, Final residual = 5.6229379e-08, No Iterations 1

ExecutionTime = 0.24 s

Courant Number mean: 8.4347523e-10 max: 3.5252093e-09
deltaT = 7.1951053e-06


Time = 1.31939e-05
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 0.00010254911
Open fraction = 1e-06
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00074865376, Final residual = 2.4255977e-11, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.25826007, Final residual = 1.4264345e-09, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.35453802, Final residual = 3.6406119e-09, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 2.2512763e-10, global = -2.2183788e-10, cumulative = -3.9002871e-10
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00082808282, Final residual = 2.5565367e-11, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.12154889, Final residual = 7.6997662e-10, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.021192087, Final residual = 2.1772979e-10, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 2.2512751e-10, global = -2.2183778e-10, cumulative = -6.118665e-10
DILUPBiCGStab:  Solving for epsilon, Initial residual = 9.3327658e-06, Final residual = 1.2604521e-12, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.27151007, Final residual = 5.6009522e-09, No Iterations 1

ExecutionTime = 0.3 s

Courant Number mean: 2.224924e-09 max: 9.2995733e-09
deltaT = 8.6316388e-06


Time = 2.18255e-05
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 0.00038190912
Open fraction = 1e-06
St courant Number mean: 0 max: 0
Igniting cell 517 state : 1 1 0.46283382 2.220446e-16
DILUPBiCGStab:  Solving for b, Initial residual = 1, Final residual = 5.6877002e-13, No Iterations 1
min(b) = 0.98978468
Combustion progress = 1.2170334e-05%
DILUPBiCGStab:  Solving for Xi, Initial residual = 1, Final residual = 3.9482881e-19, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00081025184, Final residual = 3.5774126e-11, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.18987223, Final residual = 1.6156891e-09, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.18987223, Final residual = 1.615689e-09, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.99849234, Final residual = 1.5444815e-07, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 2.7348085e-09, global = -4.4021627e-10, cumulative = -1.0520828e-09
StCorr = 3.653844
St courant Number mean: 1.1155468e-08 max: 0.00022885927
Igniting cell 517 state : 0.98978468 1.0000626 0.44328246 2.2152444e-07
DILUPBiCGStab:  Solving for b, Initial residual = 0.0043708519, Final residual = 5.8209012e-09, No Iterations 1
min(b) = 0.98876051
Combustion progress = 1.3397697e-05%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.98822789, Final residual = 1.0403842e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00095477886, Final residual = 4.0359293e-11, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.99738799, Final residual = 5.9051558e-13, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.9976029, Final residual = 5.9068032e-13, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.013970608, Final residual = 2.28766e-09, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 3.6530713e-09, global = -4.4021607e-10, cumulative = -1.4922988e-09
DILUPBiCGStab:  Solving for epsilon, Initial residual = 1.1121428e-05, Final residual = 2.1186436e-12, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.15902164, Final residual = 4.7407893e-09, No Iterations 1

ExecutionTime = 0.41 s

Courant Number mean: 5.7764636e-09 max: 5.7079251e-05
deltaT = 1.0350803e-05


Time = 3.21763e-05
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = -0.0027697606
Open fraction = 1e-06
StCorr = 3.5273805
St courant Number mean: 1.2835294e-08 max: 0.00026017658
Igniting cell 517 state : 0.98876051 1.0000001 0.45625138 2.5827793e-07
DILUPBiCGStab:  Solving for b, Initial residual = 0.049517067, Final residual = 9.4003228e-08, No Iterations 1
min(b) = 0.97538686
Combustion progress = 2.9399582e-05%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.43282269, Final residual = 1.7275089e-07, No Iterations 3
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00077458785, Final residual = 4.3545772e-11, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.065473281, Final residual = 1.0854391e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.065951761, Final residual = 1.093486e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.041732729, Final residual = 1.5282823e-08, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 1.4349571e-08, global = -7.7821215e-10, cumulative = -2.270511e-09
StCorr = 2.680745
St courant Number mean: 1.0272357e-08 max: 0.00021112521
Igniting cell 517 state : 0.97538686 1 0.45815207 1.1296025e-06
DILUPBiCGStab:  Solving for b, Initial residual = 0.0026738059, Final residual = 5.3988738e-09, No Iterations 1
min(b) = 0.97388027
Combustion progress = 3.1204272e-05%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.99999905, Final residual = 1.5794496e-10, No Iterations 3
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00082191951, Final residual = 4.8566255e-11, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0015061255, Final residual = 2.6628381e-09, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0014185094, Final residual = 2.5239007e-09, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0018548703, Final residual = 7.2375991e-10, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 1.5635212e-08, global = -7.7821174e-10, cumulative = -3.0487227e-09
DILUPBiCGStab:  Solving for epsilon, Initial residual = 1.3236938e-05, Final residual = 3.5444437e-12, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.11985324, Final residual = 6.7243444e-09, No Iterations 1

ExecutionTime = 0.53 s

Courant Number mean: 1.413299e-08 max: 0.0002643951
deltaT = 1.241323e-05


Time = 4.45896e-05
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = -0.028180428
Open fraction = 1e-06
StCorr = 2.6253716
St courant Number mean: 1.2122882e-08 max: 0.00025047522
Igniting cell 517 state : 0.97388027 1 0.45405058 1.1980298e-06
DILUPBiCGStab:  Solving for b, Initial residual = 0.029026233, Final residual = 8.3885373e-08, No Iterations 1
min(b) = 0.95615832
Combustion progress = 5.2515449e-05%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.9997542, Final residual = 1.9299239e-14, No Iterations 3
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00077814589, Final residual = 6.888195e-11, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.032988992, Final residual = 8.6812282e-08, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.034666072, Final residual = 9.1296196e-08, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.020473886, Final residual = 1.7870705e-08, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.3207714e-08, global = -1.2932419e-09, cumulative = -4.3419646e-09
StCorr = 2.1711409
St courant Number mean: 1.0518216e-08 max: 0.00021866913
Igniting cell 517 state : 0.95615832 1 0.458051 3.5631116e-06
DILUPBiCGStab:  Solving for b, Initial residual = 0.0022908568, Final residual = 7.6599484e-09, No Iterations 1
min(b) = 0.95389056
Combustion progress = 5.5266615e-05%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.99943872, Final residual = 6.8775044e-13, No Iterations 3
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00091114321, Final residual = 7.7962704e-11, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0022925601, Final residual = 6.9376686e-09, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00041669624, Final residual = 1.0716512e-09, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0011811528, Final residual = 1.0950398e-09, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.6655382e-08, global = -1.293241e-09, cumulative = -5.6352056e-09
DILUPBiCGStab:  Solving for epsilon, Initial residual = 1.5758564e-05, Final residual = 5.9239866e-12, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.10747774, Final residual = 3.0421103e-08, No Iterations 1

ExecutionTime = 0.65 s

Courant Number mean: 3.2405172e-08 max: 0.00080873382
deltaT = 1.4881032e-05


Time = 5.94706e-05
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = -0.140563
Open fraction = 1e-06
StCorr = 2.1263989
St courant Number mean: 1.2432276e-08 max: 0.00026104757
Igniting cell 517 state : 0.95389056 1 0.45133898 3.7672668e-06
DILUPBiCGStab:  Solving for b, Initial residual = 0.022370237, Final residual = 1.0813196e-07, No Iterations 1
min(b) = 0.93014356
Combustion progress = 8.4055186e-05%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.99931624, Final residual = 1.1793776e-14, No Iterations 3
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00083480021, Final residual = 1.0501043e-10, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.022724667, Final residual = 1.0295203e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.025099678, Final residual = 1.1413135e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.013176996, Final residual = 2.7539325e-08, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 1.0872237e-07, global = -2.0675899e-09, cumulative = -7.7027955e-09
StCorr = 1.804603
St courant Number mean: 1.1121742e-08 max: 0.00023514519
Igniting cell 517 state : 0.93014356 1 0.45611986 9.4612819e-06
DILUPBiCGStab:  Solving for b, Initial residual = 0.0022153876, Final residual = 1.3333048e-08, No Iterations 1
min(b) = 0.92672789
Combustion progress = 8.829846e-05%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.99726965, Final residual = 3.2865121e-15, No Iterations 3
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00095818544, Final residual = 1.1749141e-10, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0022983181, Final residual = 1.254545e-08, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00074152112, Final residual = 3.5428021e-09, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.00098099288, Final residual = 2.1377784e-09, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 1.172525e-07, global = -2.0675881e-09, cumulative = -9.7703837e-09
DILUPBiCGStab:  Solving for epsilon, Initial residual = 1.8826495e-05, Final residual = 9.9741372e-12, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.12944972, Final residual = 1.3824686e-07, No Iterations 1

ExecutionTime = 0.78 s

Courant Number mean: 7.0535029e-08 max: 0.0020622761
deltaT = 1.7846552e-05


Time = 7.73172e-05
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = -0.55593182
Open fraction = 1e-06
StCorr = 1.7593007
St courant Number mean: 1.311715e-08 max: 0.00028156936
Igniting cell 517 state : 0.92672789 1 0.44766838 1.0017998e-05
DILUPBiCGStab:  Solving for b, Initial residual = 0.01935223, Final residual = 1.7162339e-07, No Iterations 1
min(b) = 0.8945643
Combustion progress = 0.00012785819%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.9975142, Final residual = 4.8872481e-15, No Iterations 3
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00085521558, Final residual = 1.5870186e-10, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.017966712, Final residual = 1.5133357e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.020858153, Final residual = 1.7807114e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0095954519, Final residual = 4.7739249e-08, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 2.4693014e-07, global = -3.2234207e-09, cumulative = -1.2993804e-08
StCorr = 1.4949787
St courant Number mean: 1.1820418e-08 max: 0.00025550163
Igniting cell 517 state : 0.8945643 1 0.45331238 2.2887405e-05
DILUPBiCGStab:  Solving for b, Initial residual = 0.0022829395, Final residual = 2.6456086e-08, No Iterations 1
min(b) = 0.88944029
Combustion progress = 0.00013449472%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.99057117, Final residual = 3.6636534e-15, No Iterations 3
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0010264265, Final residual = 1.8461341e-10, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0024950182, Final residual = 2.5753414e-08, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0011881342, Final residual = 1.0966849e-08, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.00091917807, Final residual = 4.549666e-09, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 2.6618235e-07, global = -3.2234171e-09, cumulative = -1.6217221e-08
DILUPBiCGStab:  Solving for epsilon, Initial residual = 2.2848127e-05, Final residual = 1.7532143e-11, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.29433803, Final residual = 5.6735436e-07, No Iterations 1

ExecutionTime = 0.9 s

Courant Number mean: 1.4777915e-07 max: 0.0047538068
deltaT = 2.1385092e-05


Time = 9.87023e-05
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = -1.9817785
Open fraction = 1e-06
StCorr = 1.4434707
St courant Number mean: 1.3853921e-08 max: 0.00030624428
Igniting cell 517 state : 0.88944029 1 0.44298966 2.4293879e-05
DILUPBiCGStab:  Solving for b, Initial residual = 0.017822315, Final residual = 3.1359412e-07, No Iterations 1
min(b) = 0.84556448
Combustion progress = 0.00018991554%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.99209374, Final residual = 3.3268712e-11, No Iterations 3
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00079683277, Final residual = 1.9360429e-10, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.015396544, Final residual = 2.5287961e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.018593524, Final residual = 3.1803583e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0077122589, Final residual = 8.7894999e-08, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 5.2102854e-07, global = -4.9302615e-09, cumulative = -2.1147483e-08
StCorr = 1.2039851
St courant Number mean: 1.2343547e-08 max: 0.00027395931
Igniting cell 517 state : 0.84556448 1.0000246 0.44976323 5.2169805e-05
DILUPBiCGStab:  Solving for b, Initial residual = 0.0024347383, Final residual = 5.6805265e-08, No Iterations 1
min(b) = 0.83797754
Combustion progress = 0.00020043864%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.11908362, Final residual = 9.6562236e-07, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0009670098, Final residual = 2.2733273e-10, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0029061043, Final residual = 5.8194716e-08, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0018865952, Final residual = 3.571428e-08, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.00098351345, Final residual = 1.0281032e-08, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 5.6083341e-07, global = -4.9302541e-09, cumulative = -2.6077737e-08
DILUPBiCGStab:  Solving for epsilon, Initial residual = 2.903193e-05, Final residual = 3.5938209e-11, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.1536804, Final residual = 4.6367783e-07, No Iterations 1

ExecutionTime = 1.03 s

Courant Number mean: 3.0040484e-07 max: 0.010257163
deltaT = 2.565103e-05


Time = 0.000124353
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = -6.7100347
Open fraction = 1e-06
StCorr = 1.1450757
St courant Number mean: 1.4382468e-08 max: 0.00033008616
Igniting cell 517 state : 0.83797754 1.000026 0.43742301 5.539648e-05
DILUPBiCGStab:  Solving for b, Initial residual = 0.017090331, Final residual = 6.4490399e-07, No Iterations 1
min(b) = 0.77785587
Combustion progress = 0.000280109%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.079338563, Final residual = 1.1590994e-08, No Iterations 3
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00078356104, Final residual = 2.8700795e-10, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.014194892, Final residual = 4.6310678e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.017315449, Final residual = 6.275619e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0070353431, Final residual = 1.7063829e-07, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 1.0333743e-06, global = -7.4494015e-09, cumulative = -3.3527139e-08
StCorr = 1
St courant Number mean: 1.355127e-08 max: 0.00030952287
Igniting cell 517 state : 0.77785587 1.0000903 0.44580554 0.00011347251
DILUPBiCGStab:  Solving for b, Initial residual = 0.0026437899, Final residual = 1.3062971e-07, No Iterations 1
min(b) = 0.76683305
Combustion progress = 0.0002970642%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.043675866, Final residual = 3.341885e-07, No Iterations 2
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0009568012, Final residual = 3.4718641e-10, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0035346902, Final residual = 1.4242687e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0029277906, Final residual = 1.227748e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0012048458, Final residual = 2.3773807e-08, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 1.1082148e-06, global = -7.4493863e-09, cumulative = -4.0976525e-08
DILUPBiCGStab:  Solving for epsilon, Initial residual = 4.207797e-05, Final residual = 9.2144765e-11, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.11604126, Final residual = 5.3454534e-07, No Iterations 1

ExecutionTime = 1.16 s

Courant Number mean: 5.975758e-07 max: 0.021171234
deltaT = 3.0765255e-05


Time = 0.000155119
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = -22.192031
Open fraction = 1e-06
StCorr = 1
St courant Number mean: 1.6851327e-08 max: 0.00040575424
Igniting cell 517 state : 0.76683305 1.0000958 0.43127652 0.00011976413
DILUPBiCGStab:  Solving for b, Initial residual = 0.016794848, Final residual = 1.1645502e-11, No Iterations 1
min(b) = 0.68474172
Combustion progress = 0.00041506178%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.04639842, Final residual = 1.6710311e-11, No Iterations 4
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00082355577, Final residual = 4.5277089e-10, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.014247192, Final residual = 9.1848267e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.016609001, Final residual = 1.1731669e-11, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0074601216, Final residual = 3.3402851e-07, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 1.908801e-06, global = -1.1142623e-08, cumulative = -5.2119148e-08
StCorr = 1
St courant Number mean: 1.8510822e-08 max: 0.00043352224
Igniting cell 517 state : 0.68474172 1.0002574 0.4421061 0.0002321589
DILUPBiCGStab:  Solving for b, Initial residual = 0.0028323751, Final residual = 3.2772293e-07, No Iterations 1
min(b) = 0.66923077
Combustion progress = 0.00044228624%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.01795032, Final residual = 2.8008244e-09, No Iterations 2
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0010190962, Final residual = 5.3905776e-10, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0042333164, Final residual = 3.7722175e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0043033343, Final residual = 4.5775963e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0015474926, Final residual = 5.5823061e-08, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 2.0347632e-06, global = -1.1142592e-08, cumulative = -6.326174e-08
DILUPBiCGStab:  Solving for epsilon, Initial residual = 8.5601225e-05, Final residual = 3.4121905e-10, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.11090271, Final residual = 8.5523649e-07, No Iterations 1

ExecutionTime = 1.29 s

Courant Number mean: 1.1669017e-06 max: 0.042206685
deltaT = 3.6872215e-05


Time = 0.000191991
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = -72.654459
Open fraction = 1e-06
StCorr = 1
St courant Number mean: 2.3576203e-08 max: 0.00060482344
Igniting cell 517 state : 0.66923077 1.0002784 0.42525419 0.00023953627
DILUPBiCGStab:  Solving for b, Initial residual = 0.016671354, Final residual = 7.5974004e-11, No Iterations 1
min(b) = 0.55906245
Combustion progress = 0.00062153712%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.049846912, Final residual = 7.2446507e-08, No Iterations 2
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00078565805, Final residual = 5.8028844e-10, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.015593344, Final residual = 4.7079121e-11, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.016277437, Final residual = 6.9158983e-11, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0087423172, Final residual = 6.2996452e-07, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 3.2005984e-06, global = -1.6523981e-08, cumulative = -7.9785721e-08
StCorr = 1
St courant Number mean: 2.6737392e-08 max: 0.0006336611
Igniting cell 517 state : 0.55906245 1.0006494 0.44079818 0.00040484286
DILUPBiCGStab:  Solving for b, Initial residual = 0.0027930116, Final residual = 9.1810355e-07, No Iterations 1
min(b) = 0.53847569
Combustion progress = 0.00066233841%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.008029302, Final residual = 1.0403331e-07, No Iterations 3
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0010021997, Final residual = 7.0861506e-10, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0045683836, Final residual = 2.2145329e-11, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.005830213, Final residual = 3.3161958e-11, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0017563675, Final residual = 1.1948914e-07, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 3.3824008e-06, global = -1.6523916e-08, cumulative = -9.6309637e-08
DILUPBiCGStab:  Solving for epsilon, Initial residual = 0.00032057638, Final residual = 3.0757359e-09, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.12657293, Final residual = 2.0892583e-10, No Iterations 1

ExecutionTime = 1.43 s

Courant Number mean: 2.2431384e-06 max: 0.081670263
deltaT = 4.4180222e-05


Time = 0.000236171
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = -236.90429
Open fraction = 1e-06
StCorr = 1
St courant Number mean: 3.5643602e-08 max: 0.00099819164
Igniting cell 517 state : 0.53847569 1.0006853 0.42120678 0.00039204351
DILUPBiCGStab:  Solving for b, Initial residual = 0.016348752, Final residual = 1.2609246e-09, No Iterations 1
min(b) = 0.39785798
Combustion progress = 0.00093311532%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.086266425, Final residual = 2.3157011e-10, No Iterations 3
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00077805502, Final residual = 8.2294262e-10, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.017687238, Final residual = 6.0428283e-10, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.015937046, Final residual = 8.0722285e-10, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.011317924, Final residual = 1.8646943e-06, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.6756729e-06, global = -2.4345454e-08, cumulative = -1.2065509e-07
StCorr = 1
St courant Number mean: 4.3668751e-08 max: 0.00098736823
Igniting cell 517 state : 0.39785798 1.0014967 0.44642689 0.0010468349
DILUPBiCGStab:  Solving for b, Initial residual = 0.0022463733, Final residual = 2.1108853e-10, No Iterations 1
min(b) = 0.37288076
Combustion progress = 0.00098334675%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.004710465, Final residual = 4.8597384e-08, No Iterations 3
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00098581497, Final residual = 1.0177771e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0040189742, Final residual = 2.0424949e-10, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0067917197, Final residual = 5.763472e-10, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.001550948, Final residual = 2.3923694e-07, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.8598453e-06, global = -2.4345322e-08, cumulative = -1.4500041e-07
DILUPBiCGStab:  Solving for epsilon, Initial residual = 0.0019516409, Final residual = 7.9040318e-08, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.14755839, Final residual = 3.2062299e-09, No Iterations 1

ExecutionTime = 1.55 s

Courant Number mean: 4.2464604e-06 max: 0.15330421
deltaT = 4.9815454e-05


Time = 0.000285986
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = -777.34664
Open fraction = 1e-06
StCorr = 1
St courant Number mean: 5.9012718e-08 max: 0.0018225787
Igniting cell 517 state : 0.37288076 1.0015393 0.42270799 0.0013405061
DILUPBiCGStab:  Solving for b, Initial residual = 0.014373639, Final residual = 6.1112297e-08, No Iterations 1
min(b) = 0.22456119
Combustion progress = 0.0013404475%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.21653472, Final residual = 3.2457609e-09, No Iterations 3
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00078298701, Final residual = 1.4840023e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.01963788, Final residual = 6.6064681e-08, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.01975702, Final residual = 6.2720948e-08, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.013752439, Final residual = 3.977412e-06, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 5.291701e-06, global = -3.3224776e-08, cumulative = -1.7822519e-07
StCorr = 1
St courant Number mean: 8.3816144e-08 max: 0.0015508636
Igniting cell 517 state : 0.22456119 1.0041318 0.46586394 0.0050054246
DILUPBiCGStab:  Solving for b, Initial residual = 0.0013788405, Final residual = 4.1761923e-09, No Iterations 1
min(b) = 0.19985022
Combustion progress = 0.001373109%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.0019437517, Final residual = 1.1477161e-10, No Iterations 3
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00099331471, Final residual = 1.9277114e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0062894862, Final residual = 1.2879107e-08, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0070507571, Final residual = 2.988003e-08, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0013262207, Final residual = 2.02141e-07, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 5.2527041e-06, global = -3.3224564e-08, cumulative = -2.1144975e-07
DILUPBiCGStab:  Solving for epsilon, Initial residual = 0.0097679853, Final residual = 4.1130412e-09, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.11954561, Final residual = 1.5203984e-07, No Iterations 1

ExecutionTime = 1.68 s

Courant Number mean: 7.0348109e-06 max: 0.24733525
deltaT = 3.9975364e-05


Time = 0.000325962
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = -2539.9778
Open fraction = 1e-06
StCorr = 1
St courant Number mean: 7.9803041e-08 max: 0.0022243536
Igniting cell 517 state : 0.19985022 1.0041133 0.43114637 0.0056564519
DILUPBiCGStab:  Solving for b, Initial residual = 0.0083048976, Final residual = 3.6591324e-07, No Iterations 1
min(b) = 0.1359314
Combustion progress = 0.0016501776%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.10905267, Final residual = 7.9461528e-07, No Iterations 2
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00076007673, Final residual = 2.8818026e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.014157144, Final residual = 4.1902537e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.018141037, Final residual = 3.6100621e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.011753295, Final residual = 1.1482784e-06, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.341473e-06, global = -3.0378068e-08, cumulative = -2.4182782e-07
StCorr = 1
St courant Number mean: 1.075939e-07 max: 0.0016345532
Igniting cell 517 state : 0.1359314 1.0134489 0.47320049 0.0077139196
DILUPBiCGStab:  Solving for b, Initial residual = 0.00088741588, Final residual = 5.3602009e-08, No Iterations 1
min(b) = 0.13139831
Combustion progress = 0.0016311665%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.0017309032, Final residual = 9.6107339e-07, No Iterations 2
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00098051559, Final residual = 2.6106558e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0074274027, Final residual = 1.5805608e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0093535255, Final residual = 2.4082145e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0016386633, Final residual = 1.4051764e-07, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.5519192e-06, global = -3.0377977e-08, cumulative = -2.722058e-07
DILUPBiCGStab:  Solving for epsilon, Initial residual = 0.012024033, Final residual = 1.0470047e-07, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.039495378, Final residual = 9.7381157e-07, No Iterations 1

ExecutionTime = 1.81 s

Courant Number mean: 6.5648928e-06 max: 0.21363513
deltaT = 3.706528e-05


Time = 0.000363027
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = -6625.5562
Open fraction = 1e-06
StCorr = 1
St courant Number mean: 1.1275677e-07 max: 0.0025950825
Igniting cell 517 state : 0.13139831 1.0134164 0.43528766 0.0080323744
DILUPBiCGStab:  Solving for b, Initial residual = 0.0079581172, Final residual = 5.7531352e-07, No Iterations 1
min(b) = 0.17410297
Combustion progress = 0.0018088748%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.058822856, Final residual = 4.1764738e-08, No Iterations 3
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00078951732, Final residual = 4.7702491e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.017414932, Final residual = 9.4512442e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.027240313, Final residual = 1.3480057e-08, No Iterations 2
DICPCG:  Solving for p, Initial residual = 0.010431077, Final residual = 5.6722718e-07, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.0450756e-06, global = -3.1358218e-08, cumulative = -3.0356402e-07
StCorr = 1
St courant Number mean: 1.3350434e-07 max: 0.0017944103
Igniting cell 517 state : 0.17410297 1.0338663 0.47778093 0.0045919648
DILUPBiCGStab:  Solving for b, Initial residual = 0.0020807861, Final residual = 3.1889787e-07, No Iterations 1
min(b) = 0.23784139
Combustion progress = 0.0016876366%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.0036241519, Final residual = 2.6521378e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00099955568, Final residual = 5.3626507e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0027408683, Final residual = 1.0984524e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0040918791, Final residual = 4.0653331e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0012886479, Final residual = 6.9219023e-08, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.1872202e-06, global = -3.1358151e-08, cumulative = -3.3492217e-07
DILUPBiCGStab:  Solving for epsilon, Initial residual = 0.004873691, Final residual = 1.382006e-07, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.016221709, Final residual = 9.7054249e-07, No Iterations 1

ExecutionTime = 1.94 s

Courant Number mean: 6.1885451e-06 max: 0.1621873
deltaT = 4.1538676e-05


Time = 0.000404566
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = -13741.162
Open fraction = 0.0041548676
StCorr = 1
St courant Number mean: 1.6440096e-07 max: 0.0031038424
Igniting cell 517 state : 0.23784139 1.0336429 0.46867752 0.0046995908
DILUPBiCGStab:  Solving for b, Initial residual = 0.0096248355, Final residual = 5.8238021e-07, No Iterations 1
min(b) = 0.38007803
Combustion progress = 0.0017189117%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.042554248, Final residual = 6.6797449e-09, No Iterations 3
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0007787356, Final residual = 4.3702532e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.016491412, Final residual = 8.9698987e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.02584652, Final residual = 1.4747556e-08, No Iterations 2
DICPCG:  Solving for p, Initial residual = 0.0092932797, Final residual = 5.8262051e-07, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.5194411e-06, global = -3.9145749e-08, cumulative = -3.7406792e-07
StCorr = 1
St courant Number mean: 1.8813299e-07 max: 0.0021570753
Igniting cell 517 state : 0.38007803 1.0676023 0.53733476 0.0035396279
DILUPBiCGStab:  Solving for b, Initial residual = 0.0022218527, Final residual = 7.7595868e-07, No Iterations 1
min(b) = 0.48462268
Combustion progress = 0.0015438426%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.002745232, Final residual = 7.5561672e-09, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00097952202, Final residual = 5.372576e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0021376527, Final residual = 2.1996694e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0044109985, Final residual = 8.0360996e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0013510194, Final residual = 8.6579769e-08, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.6083448e-06, global = -3.9145646e-08, cumulative = -4.1321356e-07
DILUPBiCGStab:  Solving for epsilon, Initial residual = 0.002712721, Final residual = 1.1565326e-07, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.015270205, Final residual = 7.2386795e-07, No Iterations 1

ExecutionTime = 2.06 s

Courant Number mean: 6.7915077e-06 max: 0.10975775
deltaT = 4.8956297e-05


Time = 0.000453522
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = -23260.038
Open fraction = 0.0090504974
StCorr = 1
St courant Number mean: 2.359702e-07 max: 0.0033376423
Igniting cell 517 state : 0.48462268 1.0669248 0.56278432 0.0040996501
DILUPBiCGStab:  Solving for b, Initial residual = 0.007594136, Final residual = 1.1505524e-08, No Iterations 2
min(b) = 0.63172563
Combustion progress = 0.0014912159%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.032363344, Final residual = 4.6294912e-09, No Iterations 2
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00077031612, Final residual = 4.7199098e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.013176786, Final residual = 5.1156486e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.018297289, Final residual = 1.1094111e-08, No Iterations 2
DICPCG:  Solving for p, Initial residual = 0.0085788503, Final residual = 8.1562331e-07, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 5.847851e-06, global = -5.1687661e-08, cumulative = -4.6490122e-07
StCorr = 1
St courant Number mean: 2.6896164e-07 max: 0.0024916381
Igniting cell 517 state : 0.63172563 1.1156841 0.63020161 0.0069092114
DILUPBiCGStab:  Solving for b, Initial residual = 0.0012245782, Final residual = 5.711749e-07, No Iterations 1
min(b) = 0.68804608
Combustion progress = 0.0013979693%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.00092086162, Final residual = 3.205537e-09, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00098408374, Final residual = 5.7807585e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0030012182, Final residual = 3.3928219e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0052789684, Final residual = 8.5102798e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0010368236, Final residual = 8.1290939e-08, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 5.9140581e-06, global = -5.1687465e-08, cumulative = -5.1658869e-07
DILUPBiCGStab:  Solving for epsilon, Initial residual = 0.0018544289, Final residual = 8.2946119e-08, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.010719878, Final residual = 4.7162912e-07, No Iterations 1

ExecutionTime = 2.19 s

Courant Number mean: 8.006018e-06 max: 0.041751773
deltaT = 5.8567349e-05


Time = 0.000512089
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = -33944.184
Open fraction = 0.014907232
StCorr = 1
St courant Number mean: 3.3133526e-07 max: 0.0033012955
Igniting cell 517 state : 0.68804608 1.1138808 0.67767958 0.0072344298
DILUPBiCGStab:  Solving for b, Initial residual = 0.0059795656, Final residual = 7.8303491e-07, No Iterations 1
min(b) = 0.76603244
Combustion progress = 0.0013810259%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.026311486, Final residual = 9.1399394e-09, No Iterations 2
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00081211199, Final residual = 6.0391193e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.01052723, Final residual = 6.0900005e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.014073335, Final residual = 8.0859512e-09, No Iterations 2
DICPCG:  Solving for p, Initial residual = 0.0075595336, Final residual = 1.2755731e-06, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 8.5377922e-06, global = -6.9764791e-08, cumulative = -5.8635348e-07
StCorr = 1
St courant Number mean: 3.7775005e-07 max: 0.0028281895
Igniting cell 517 state : 0.76603244 1.1805758 0.6832328 0.011078549
DILUPBiCGStab:  Solving for b, Initial residual = 0.00048929595, Final residual = 2.5504362e-07, No Iterations 1
min(b) = 0.78713707
Combustion progress = 0.0013474536%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.00050114605, Final residual = 8.2740044e-10, No Iterations 2
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0010312334, Final residual = 5.9542498e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0025409148, Final residual = 1.8739299e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0041480993, Final residual = 6.524405e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.00057553231, Final residual = 9.1586379e-08, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 8.5388152e-06, global = -6.9764395e-08, cumulative = -6.5611787e-07
DILUPBiCGStab:  Solving for epsilon, Initial residual = 0.0014853094, Final residual = 6.5795766e-08, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.0073610033, Final residual = 2.6913108e-07, No Iterations 1

ExecutionTime = 2.32 s

Courant Number mean: 1.084077e-05 max: 0.024451711
deltaT = 7.0280819e-05


Time = 0.00058237
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = -45582.173
Open fraction = 0.021935314
StCorr = 1
St courant Number mean: 4.5578984e-07 max: 0.00315916
Igniting cell 517 state : 0.78713707 1.1770053 0.74645001 0.010967068
DILUPBiCGStab:  Solving for b, Initial residual = 0.0049334747, Final residual = 3.9269669e-07, No Iterations 1
min(b) = 0.81357153
Combustion progress = 0.0013771371%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.022550264, Final residual = 8.7575729e-07, No Iterations 2
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00086272402, Final residual = 1.00488e-08, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0097584806, Final residual = 7.0425026e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.012328982, Final residual = 7.8718867e-09, No Iterations 2
DICPCG:  Solving for p, Initial residual = 0.0078568918, Final residual = 2.5893302e-06, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 1.2270186e-05, global = -9.5107878e-08, cumulative = -7.5122575e-07
StCorr = 1
St courant Number mean: 5.2038271e-07 max: 0.003180217
Igniting cell 517 state : 0.81357153 1.2702825 0.69410008 0.013844007
DILUPBiCGStab:  Solving for b, Initial residual = 0.00010548441, Final residual = 8.1036844e-09, No Iterations 1
min(b) = 0.8143194
Combustion progress = 0.0013771244%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.00072138026, Final residual = 2.8458783e-07, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.001055149, Final residual = 1.0200402e-08, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0023461277, Final residual = 1.4961398e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0033135661, Final residual = 3.8827395e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.00060813032, Final residual = 1.9853334e-07, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 1.2303493e-05, global = -9.510707e-08, cumulative = -8.4633282e-07
DILUPBiCGStab:  Solving for epsilon, Initial residual = 0.0013397408, Final residual = 5.9059941e-08, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.0055718551, Final residual = 1.5134346e-07, No Iterations 1

ExecutionTime = 2.44 s

Courant Number mean: 1.5751847e-05 max: 0.071398053
deltaT = 8.408598e-05


Time = 0.000666456
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = -58479.58
Open fraction = 0.030343912
StCorr = 1
St courant Number mean: 6.1851018e-07 max: 0.0031287327
Igniting cell 517 state : 0.8143194 1.2555966 0.72892059 0.013895429
DILUPBiCGStab:  Solving for b, Initial residual = 0.0037432023, Final residual = 1.815468e-07, No Iterations 1
min(b) = 0.81151533
Combustion progress = 0.0014467285%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.0198689, Final residual = 1.8511205e-07, No Iterations 2
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00076091927, Final residual = 7.6175275e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.009684475, Final residual = 7.046359e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.011628997, Final residual = 9.2179318e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0083707347, Final residual = 5.4361084e-06, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 1.6801904e-05, global = -1.3004037e-07, cumulative = -9.7637319e-07
StCorr = 1.058843
St courant Number mean: 7.4458994e-07 max: 0.0037226497
Igniting cell 517 state : 0.81151533 1.3642854 0.65690116 0.015597985
DILUPBiCGStab:  Solving for b, Initial residual = 0.00041484978, Final residual = 2.2184747e-07, No Iterations 1
min(b) = 0.79521924
Combustion progress = 0.0014730514%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.00052881295, Final residual = 2.3545141e-07, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00097823372, Final residual = 9.6072611e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0020954205, Final residual = 1.0306302e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0027623174, Final residual = 2.4647578e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.00066062486, Final residual = 4.784409e-07, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 1.6836649e-05, global = -1.3003875e-07, cumulative = -1.1064119e-06
DILUPBiCGStab:  Solving for epsilon, Initial residual = 0.0013066758, Final residual = 5.6069364e-08, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.0050296096, Final residual = 1.4492629e-07, No Iterations 1

ExecutionTime = 2.56 s

Courant Number mean: 2.1798184e-05 max: 0.090662478
deltaT = 0.00010036069


Time = 0.000766817
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = -72953.539
Open fraction = 0.040379981
StCorr = 1.0214044
St courant Number mean: 8.5053378e-07 max: 0.0034439804
Igniting cell 517 state : 0.79521924 1.3584612 0.65142878 0.015269601
DILUPBiCGStab:  Solving for b, Initial residual = 0.0034128506, Final residual = 5.3317371e-07, No Iterations 1
min(b) = 0.76796311
Combustion progress = 0.0015934481%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.018018381, Final residual = 2.0425928e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00081230078, Final residual = 9.5192545e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0095267888, Final residual = 6.1304775e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.011087775, Final residual = 7.824803e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0088525233, Final residual = 1.1566292e-05, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 2.1892544e-05, global = -1.7825951e-07, cumulative = -1.2846715e-06
StCorr = 1.0202064
St courant Number mean: 9.6067634e-07 max: 0.0042055512
Igniting cell 517 state : 0.76796311 1.4941194 0.58902726 0.015818289
DILUPBiCGStab:  Solving for b, Initial residual = 0.00081603564, Final residual = 4.5605781e-07, No Iterations 1
min(b) = 0.73317502
Combustion progress = 0.0016481032%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.00066471302, Final residual = 1.3344007e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0010227784, Final residual = 1.0890736e-08, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0019948083, Final residual = 8.6456445e-08, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.002382253, Final residual = 1.8123794e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.00077750763, Final residual = 1.3159943e-09, No Iterations 2
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 2.1859401e-05, global = -1.7825628e-07, cumulative = -1.4629277e-06
DILUPBiCGStab:  Solving for epsilon, Initial residual = 0.0012821945, Final residual = 5.321446e-08, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.004652636, Final residual = 1.3761873e-07, No Iterations 1

ExecutionTime = 2.7 s

Courant Number mean: 2.942831e-05 max: 0.079170369
deltaT = 0.00011991147


Time = 0.000886728
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = -89142.997
Open fraction = 0.052371128
StCorr = 1
St courant Number mean: 1.1186251e-06 max: 0.0041535273
Igniting cell 517 state : 0.73317502 1.489239 0.56004321 0.015043482
DILUPBiCGStab:  Solving for b, Initial residual = 0.0041509685, Final residual = 9.7054666e-09, No Iterations 2
min(b) = 0.67455011
Combustion progress = 0.0018491629%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.016904387, Final residual = 3.3910573e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00081271263, Final residual = 1.4496697e-08, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0093711328, Final residual = 5.0182609e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.010833598, Final residual = 6.6061894e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0089737918, Final residual = 2.3693e-05, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 2.7511944e-05, global = -2.4570385e-07, cumulative = -1.7086316e-06
StCorr = 1
St courant Number mean: 1.2592513e-06 max: 0.0054086498
Igniting cell 517 state : 0.67455011 1.6631467 0.5222498 0.014739068
DILUPBiCGStab:  Solving for b, Initial residual = 0.0013563158, Final residual = 6.7304521e-07, No Iterations 1
min(b) = 0.61721351
Combustion progress = 0.0019377323%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.00096356736, Final residual = 1.2737268e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0010458117, Final residual = 1.4215621e-08, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0021335497, Final residual = 9.7724426e-08, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0025688289, Final residual = 1.6719281e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.00088985929, Final residual = 6.1929206e-09, No Iterations 2
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 2.7413094e-05, global = -2.4569742e-07, cumulative = -1.954329e-06
DILUPBiCGStab:  Solving for epsilon, Initial residual = 0.0012667666, Final residual = 5.1564024e-08, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.0042520908, Final residual = 1.206923e-07, No Iterations 1

ExecutionTime = 2.83 s

Courant Number mean: 3.9613457e-05 max: 0.03292546
deltaT = 0.00014239487


Time = 0.00102912
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = -106836.54
Open fraction = 0.066610615
StCorr = 1
St courant Number mean: 1.4970292e-06 max: 0.0061914038
Igniting cell 517 state : 0.61721351 1.6566482 0.48485184 0.013374549
DILUPBiCGStab:  Solving for b, Initial residual = 0.0057414186, Final residual = 1.6134877e-08, No Iterations 2
min(b) = 0.51130831
Combustion progress = 0.0022636497%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.016459449, Final residual = 1.3318626e-07, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00084992529, Final residual = 1.556382e-08, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0093475585, Final residual = 3.7534088e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.011063864, Final residual = 5.772028e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0085903158, Final residual = 4.2429632e-05, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 3.4239973e-05, global = -3.3757213e-07, cumulative = -2.2919011e-06
StCorr = 1
St courant Number mean: 1.677456e-06 max: 0.0081991294
Igniting cell 517 state : 0.51130831 1.8802543 0.47688763 0.012355521
DILUPBiCGStab:  Solving for b, Initial residual = 0.0016384778, Final residual = 7.223109e-07, No Iterations 1
min(b) = 0.44228338
Combustion progress = 0.0023808459%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.0015829191, Final residual = 1.7821041e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0010606814, Final residual = 1.7711071e-08, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0023179163, Final residual = 1.0596377e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.002965762, Final residual = 3.2019391e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.00096294181, Final residual = 2.1598747e-08, No Iterations 2
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 3.4383748e-05, global = -3.3756e-07, cumulative = -2.6294611e-06
DILUPBiCGStab:  Solving for epsilon, Initial residual = 0.001346329, Final residual = 5.3027844e-08, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.0037704472, Final residual = 1.0123491e-07, No Iterations 1

ExecutionTime = 2.95 s

Courant Number mean: 5.5429751e-05 max: 0.049574708
deltaT = 0.00016926183


Time = 0.00119839
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = -125088.96
Open fraction = 0.083536797
StCorr = 1
St courant Number mean: 2.0280118e-06 max: 0.011782132
Igniting cell 517 state : 0.44228338 1.8711182 0.43939615 0.013453336
DILUPBiCGStab:  Solving for b, Initial residual = 0.0071711032, Final residual = 2.0542302e-08, No Iterations 2
min(b) = 0.3032425
Combustion progress = 0.0028489683%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.016339006, Final residual = 8.6447623e-10, No Iterations 2
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00078837109, Final residual = 1.8321629e-08, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0092162373, Final residual = 2.1308286e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.010662971, Final residual = 5.0874618e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0083078565, Final residual = 6.8414293e-05, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.3086982e-05, global = -4.6535063e-07, cumulative = -3.0948118e-06
StCorr = 1
St courant Number mean: 2.2633658e-06 max: 0.013952433
Igniting cell 517 state : 0.3032425 2.1592664 0.45762608 0.016655484
DILUPBiCGStab:  Solving for b, Initial residual = 0.0015909204, Final residual = 5.4726952e-07, No Iterations 1
min(b) = 0.24739509
Combustion progress = 0.0029603533%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.0016584155, Final residual = 1.2535344e-07, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0010309044, Final residual = 2.1015264e-08, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0025688322, Final residual = 1.8210777e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.003485159, Final residual = 8.0303057e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.00091599998, Final residual = 5.2924038e-08, No Iterations 2
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.334919e-05, global = -4.6533039e-07, cumulative = -3.5601422e-06
DILUPBiCGStab:  Solving for epsilon, Initial residual = 0.0015847229, Final residual = 6.3329096e-08, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.0033389481, Final residual = 1.0325726e-07, No Iterations 1

ExecutionTime = 3.08 s

Courant Number mean: 7.9843741e-05 max: 0.13743596
deltaT = 0.00019133946


Time = 0.00138972
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = -142189.24
Open fraction = 0.10267074
StCorr = 1
St courant Number mean: 2.6926392e-06 max: 0.024441661
Igniting cell 517 state : 0.24739509 2.1399025 0.42515514 0.019896224
DILUPBiCGStab:  Solving for b, Initial residual = 0.0071702071, Final residual = 1.5020019e-08, No Iterations 2
min(b) = 0.13549552
Combustion progress = 0.0034836085%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.014646747, Final residual = 4.0485766e-07, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00078263407, Final residual = 1.9495213e-08, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.008254375, Final residual = 9.4546362e-08, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.009247695, Final residual = 1.8032744e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0078080173, Final residual = 1.3258414e-06, No Iterations 2
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 5.1716958e-05, global = -6.0703821e-07, cumulative = -4.1671804e-06
StCorr = 1
St courant Number mean: 2.9508112e-06 max: 0.022164631
Igniting cell 517 state : 0.13549552 2.4855194 0.45082633 0.031330545
DILUPBiCGStab:  Solving for b, Initial residual = 0.0015670582, Final residual = 1.8710953e-07, No Iterations 1
min(b) = 0.095422883
Combustion progress = 0.0035350573%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.0011538018, Final residual = 9.9619558e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00098681292, Final residual = 2.4256751e-08, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.002651028, Final residual = 2.095175e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0034995257, Final residual = 6.289587e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.00067065519, Final residual = 7.4302116e-08, No Iterations 2
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 5.2036567e-05, global = -6.0700115e-07, cumulative = -4.7741815e-06
DILUPBiCGStab:  Solving for epsilon, Initial residual = 0.0017459776, Final residual = 5.7869919e-08, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.0029538621, Final residual = 7.996358e-08, No Iterations 1

ExecutionTime = 3.2 s

Courant Number mean: 0.00010656709 max: 0.15743726
deltaT = 0.00021000672


Time = 0.00159973
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = -153619.21
Open fraction = 0.12367141
StCorr = 1
St courant Number mean: 3.4837902e-06 max: 0.039382156
Igniting cell 517 state : 0.095422883 2.4481568 0.43241495 0.03110987
DILUPBiCGStab:  Solving for b, Initial residual = 0.0060132414, Final residual = 6.4640684e-07, No Iterations 1
min(b) = 0.042471929
Combustion progress = 0.0040026223%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.012662064, Final residual = 1.0110517e-07, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00081295794, Final residual = 2.3391526e-08, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0080080974, Final residual = 2.0259411e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0095804358, Final residual = 7.842311e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0082948599, Final residual = 2.1289523e-06, No Iterations 2
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 6.1077653e-05, global = -7.6253371e-07, cumulative = -5.5367152e-06
StCorr = 1
St courant Number mean: 3.7641885e-06 max: 0.03133942
Igniting cell 517 state : 0.042471929 2.8370128 0.4471655 0.044696896
DILUPBiCGStab:  Solving for b, Initial residual = 0.0017124717, Final residual = 7.6850711e-08, No Iterations 1
min(b) = 0.023860221
Combustion progress = 0.0039881573%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.00091865029, Final residual = 4.0261757e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0010277845, Final residual = 2.9123775e-08, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0024572512, Final residual = 1.7943134e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.003111155, Final residual = 2.1144575e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.00086539033, Final residual = 1.9965824e-07, No Iterations 2
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 6.1302468e-05, global = -7.6248149e-07, cumulative = -6.2991967e-06
DILUPBiCGStab:  Solving for epsilon, Initial residual = 0.0017663692, Final residual = 4.1166898e-08, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.0026782459, Final residual = 7.3026356e-08, No Iterations 1

ExecutionTime = 3.33 s

Courant Number mean: 0.00013314351 max: 0.098060823
deltaT = 0.00024000768


Time = 0.00183974
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = -153528.41
Open fraction = 0.14767218
StCorr = 1
St courant Number mean: 4.5555046e-06 max: 0.047553205
Igniting cell 517 state : 0.023860221 2.790901 0.4443024 0.04330846
DILUPBiCGStab:  Solving for b, Initial residual = 0.0043894901, Final residual = 2.5193207e-07, No Iterations 1
min(b) = 0.0092561603
Combustion progress = 0.0043900336%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.011544136, Final residual = 6.1828506e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00083157058, Final residual = 3.0845733e-08, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0091238172, Final residual = 4.9614857e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.011614388, Final residual = 7.0661064e-09, No Iterations 2
DICPCG:  Solving for p, Initial residual = 0.010023397, Final residual = 4.3965815e-06, No Iterations 2
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 7.4570713e-05, global = -9.9501087e-07, cumulative = -7.2942076e-06
StCorr = 1
St courant Number mean: 5.0180986e-06 max: 0.043318962
Igniting cell 517 state : 0.0092561603 3.2444349 0.44378001 0.060211388
DILUPBiCGStab:  Solving for b, Initial residual = 0.0012462655, Final residual = 2.8193454e-08, No Iterations 1
min(b) = 0.0044249986
Combustion progress = 0.0043488435%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.00092083709, Final residual = 3.6512148e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0010404822, Final residual = 3.5640948e-08, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0029111076, Final residual = 6.3668155e-08, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0038651417, Final residual = 2.4036137e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0010940279, Final residual = 5.1652288e-07, No Iterations 2
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 7.4543432e-05, global = -9.9492683e-07, cumulative = -8.2891344e-06
DILUPBiCGStab:  Solving for epsilon, Initial residual = 0.0018230303, Final residual = 3.3345429e-08, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.0026781084, Final residual = 1.0169323e-07, No Iterations 1

ExecutionTime = 3.46 s

Courant Number mean: 0.00016984089 max: 0.058644949
deltaT = 0.00028138831


Time = 0.00212113
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = -135382.01
Open fraction = 0.17581101
StCorr = 1
St courant Number mean: 6.0941348e-06 max: 0.055338185
Igniting cell 517 state : 0.0044249986 3.1990184 0.45133783 0.050130551
DILUPBiCGStab:  Solving for b, Initial residual = 0.0019868313, Final residual = 8.632665e-08, No Iterations 1
min(b) = 0.001764364
Combustion progress = 0.0047177603%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.01072927, Final residual = 4.0098667e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00088703509, Final residual = 4.0081754e-08, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.011173686, Final residual = 7.2004892e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.014180568, Final residual = 4.4022294e-09, No Iterations 2
DICPCG:  Solving for p, Initial residual = 0.012786988, Final residual = 1.2227226e-05, No Iterations 2
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 9.4847506e-05, global = -1.3326865e-06, cumulative = -9.6218209e-06
StCorr = 1
St courant Number mean: 6.8592589e-06 max: 0.060073951
Igniting cell 517 state : 0.001764364 3.7592404 0.44640631 0.060553762
DILUPBiCGStab:  Solving for b, Initial residual = 0.00039992133, Final residual = 9.3487152e-07, No Iterations 1
min(b) = 0.0009783852
Combustion progress = 0.0046756338%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.0010242188, Final residual = 7.9419501e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0011126114, Final residual = 4.8607409e-08, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0037508216, Final residual = 8.4916826e-08, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0049802081, Final residual = 3.4548087e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0012865008, Final residual = 4.5467357e-08, No Iterations 3
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 9.4433714e-05, global = -1.3325393e-06, cumulative = -1.095436e-05
DILUPBiCGStab:  Solving for epsilon, Initial residual = 0.0019075936, Final residual = 3.0984177e-08, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.0025431753, Final residual = 9.4564549e-08, No Iterations 1

ExecutionTime = 3.58 s

Courant Number mean: 0.00022145117 max: 0.061793284
deltaT = 0.00031515491


Time = 0.00243628
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = -94475.488
Open fraction = 0.20732651
StCorr = 1
St courant Number mean: 7.8478308e-06 max: 0.066871063
Igniting cell 517 state : 0.0009783852 3.707792 0.45433779 0.052157789
DILUPBiCGStab:  Solving for b, Initial residual = 0.00064870516, Final residual = 2.7101938e-08, No Iterations 1
min(b) = 0.00056842962
Combustion progress = 0.0050159144%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.0093495603, Final residual = 2.5511292e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00078257822, Final residual = 4.0684057e-08, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.013139671, Final residual = 5.4338136e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.016314796, Final residual = 8.3047663e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.015509902, Final residual = 2.4426175e-05, No Iterations 2
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 0.00011314851, global = -1.6960839e-06, cumulative = -1.2650444e-05
StCorr = 1
St courant Number mean: 8.8918247e-06 max: 0.079069927
Igniting cell 517 state : 0.00056842962 4.3974006 0.45218976 0.059572329
DILUPBiCGStab:  Solving for b, Initial residual = 9.4821514e-05, Final residual = 4.1273856e-07, No Iterations 1
min(b) = 0.00047259869
Combustion progress = 0.0049879344%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.0010662271, Final residual = 2.5122415e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0010043486, Final residual = 4.9873963e-08, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0041996419, Final residual = 1.1187526e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0053042479, Final residual = 2.8504486e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0013825264, Final residual = 1.0677169e-07, No Iterations 3
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 0.00011245643, global = -1.6958652e-06, cumulative = -1.4346309e-05
DILUPBiCGStab:  Solving for epsilon, Initial residual = 0.0018295335, Final residual = 2.610932e-08, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.0021749546, Final residual = 6.106644e-08, No Iterations 1

ExecutionTime = 3.7 s

Courant Number mean: 0.00028104399 max: 0.063433207
deltaT = 0.00034380536


Time = 0.00278009
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = -38375.8
Open fraction = 0.24170704
StCorr = 1
St courant Number mean: 9.8305834e-06 max: 0.083674319
Igniting cell 517 state : 0.00047259869 4.3134038 0.45581572 0.052116154
DILUPBiCGStab:  Solving for b, Initial residual = 0.00036605934, Final residual = 1.6836546e-08, No Iterations 1
min(b) = 0.00037587016
Combustion progress = 0.0053127215%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.0079699993, Final residual = 2.0256024e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00079840221, Final residual = 4.6749355e-08, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.01478915, Final residual = 2.9805035e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.018083929, Final residual = 3.9388371e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.017447405, Final residual = 4.0250405e-05, No Iterations 2
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 0.00012781309, global = -2.0858113e-06, cumulative = -1.6432121e-05
StCorr = 1
St courant Number mean: 1.1095537e-05 max: 0.10075391
Igniting cell 517 state : 0.00037587016 5.1336261 0.45657898 0.056138621
DILUPBiCGStab:  Solving for b, Initial residual = 4.1110265e-05, Final residual = 2.0891688e-07, No Iterations 1
min(b) = 0.00036154575
Combustion progress = 0.0053026621%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.00094410794, Final residual = 1.4313742e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00099621819, Final residual = 5.6408189e-08, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0043728043, Final residual = 9.4238714e-08, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0052993687, Final residual = 1.8107357e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0014581976, Final residual = 1.6934598e-07, No Iterations 3
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 0.00012698722, global = -2.0855119e-06, cumulative = -1.8517632e-05
DILUPBiCGStab:  Solving for epsilon, Initial residual = 0.001599167, Final residual = 1.9601e-08, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.0018695223, Final residual = 4.4298822e-08, No Iterations 1

ExecutionTime = 3.83 s

Courant Number mean: 0.00034837187 max: 0.071005493
deltaT = 0.0003799954


Time = 0.00316008
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 16421.572
Open fraction = 0.27970658
StCorr = 1
St courant Number mean: 1.2386836e-05 max: 0.10782467
Igniting cell 517 state : 0.00036154575 5.0040347 0.45672185 0.05382663
DILUPBiCGStab:  Solving for b, Initial residual = 0.00029887265, Final residual = 1.4476907e-08, No Iterations 1
min(b) = 0.00030879818
Combustion progress = 0.0056373205%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.007050955, Final residual = 2.7103499e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00076245426, Final residual = 5.3417868e-08, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.016407591, Final residual = 2.0197776e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.019774664, Final residual = 2.3845235e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.018947959, Final residual = 6.5716499e-05, No Iterations 2
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 0.0001418652, global = -2.5837086e-06, cumulative = -2.1101341e-05
StCorr = 1
St courant Number mean: 1.3898439e-05 max: 0.1294837
Igniting cell 517 state : 0.00030879818 5.9609344 0.45889822 0.060594618
DILUPBiCGStab:  Solving for b, Initial residual = 3.4860358e-05, Final residual = 1.7911307e-07, No Iterations 1
min(b) = 0.00030074364
Combustion progress = 0.0056397712%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.00086500983, Final residual = 1.8012719e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0010104383, Final residual = 6.6155552e-08, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0050313961, Final residual = 4.5299724e-08, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0060552913, Final residual = 5.7010756e-08, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0016923463, Final residual = 4.5057769e-07, No Iterations 3
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 0.00014093971, global = -2.5833063e-06, cumulative = -2.3684647e-05
DILUPBiCGStab:  Solving for epsilon, Initial residual = 0.0013081615, Final residual = 1.5249521e-08, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.0016675024, Final residual = 4.4000208e-08, No Iterations 1

ExecutionTime = 3.96 s

Courant Number mean: 0.00042771323 max: 0.071662589
deltaT = 0.00035999564


Time = 0.00352008
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 54986.168
Open fraction = 0.31570614
StCorr = 1
St courant Number mean: 1.3257413e-05 max: 0.11928241
Igniting cell 517 state : 0.00030074364 5.7895213 0.45728994 0.064294148
DILUPBiCGStab:  Solving for b, Initial residual = 0.0002643202, Final residual = 7.7366097e-09, No Iterations 1
min(b) = 0.00025993515
Combustion progress = 0.005948421%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.0052956434, Final residual = 1.8595848e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0007935583, Final residual = 4.6732738e-08, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.015252452, Final residual = 7.6128571e-08, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.018189123, Final residual = 9.0513208e-08, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.017324322, Final residual = 4.3469962e-05, No Iterations 2
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 0.0001335732, global = -2.6918725e-06, cumulative = -2.637652e-05
StCorr = 1
St courant Number mean: 1.4596119e-05 max: 0.13968114
Igniting cell 517 state : 0.00025993515 6.7779535 0.45910804 0.076220509
DILUPBiCGStab:  Solving for b, Initial residual = 2.8213115e-05, Final residual = 1.2979483e-07, No Iterations 1
min(b) = 0.00025473852
Combustion progress = 0.0059553944%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.00069369828, Final residual = 4.9022719e-07, No Iterations 2
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0010016958, Final residual = 5.606355e-08, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0046865433, Final residual = 1.10774e-08, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0056018751, Final residual = 1.2877186e-08, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.001496615, Final residual = 3.0910239e-07, No Iterations 3
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 0.00013298984, global = -2.6915118e-06, cumulative = -2.9068032e-05
DILUPBiCGStab:  Solving for epsilon, Initial residual = 0.00090285136, Final residual = 6.1715492e-09, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.0012990822, Final residual = 2.3604107e-08, No Iterations 1

ExecutionTime = 4.09 s

Courant Number mean: 0.00043389132 max: 0.057345515
deltaT = 0.00035999564


Time = 0.00388007
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 69249.723
Open fraction = 0.35170571
StCorr = 1
St courant Number mean: 1.4624961e-05 max: 0.13362771
Igniting cell 517 state : 0.00025473852 6.4629078 0.45756612 0.076497288
DILUPBiCGStab:  Solving for b, Initial residual = 0.00024281481, Final residual = 9.2621422e-07, No Iterations 1
min(b) = 0.00022366407
Combustion progress = 0.0062603046%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.0043593649, Final residual = 4.5702222e-07, No Iterations 3
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00079006053, Final residual = 4.4638434e-08, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.015177376, Final residual = 4.9283371e-08, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.018030653, Final residual = 6.533976e-08, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.017098365, Final residual = 3.8312737e-05, No Iterations 2
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 0.0001331098, global = -2.9273674e-06, cumulative = -3.1995399e-05
StCorr = 1
St courant Number mean: 1.6683165e-05 max: 0.18612645
Igniting cell 517 state : 0.00022366407 8.8640719 0.45870611 0.089547533
DILUPBiCGStab:  Solving for b, Initial residual = 3.4471504e-05, Final residual = 2.6952208e-07, No Iterations 1
min(b) = 0.00022620014
Combustion progress = 0.0062896962%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.0017667051, Final residual = 1.7784924e-07, No Iterations 2
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0010162621, Final residual = 5.4572821e-08, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0047653249, Final residual = 6.9383765e-09, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0056873037, Final residual = 7.666451e-09, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.001518615, Final residual = 3.6587947e-07, No Iterations 3
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 0.00013262528, global = -2.9269511e-06, cumulative = -3.492235e-05
DILUPBiCGStab:  Solving for epsilon, Initial residual = 0.00068151068, Final residual = 3.5076218e-09, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.001104745, Final residual = 1.6404593e-08, No Iterations 1

ExecutionTime = 4.22 s

Courant Number mean: 0.00045448962 max: 0.047615054
deltaT = 0.00030599629


Time = 0.00418607
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 65422.631
Open fraction = 0.38230534
StCorr = 1
St courant Number mean: 1.3330641e-05 max: 0.11664794
Igniting cell 517 state : 0.00022620014 6.7045725 0.4571406 0.090165513
DILUPBiCGStab:  Solving for b, Initial residual = 0.00022297942, Final residual = 5.4001312e-07, No Iterations 1
min(b) = 0.00019789382
Combustion progress = 0.0065436337%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.0030211971, Final residual = 4.8980499e-07, No Iterations 2
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00076889063, Final residual = 3.0296337e-08, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.013112933, Final residual = 1.5453434e-08, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.015598877, Final residual = 1.9315081e-08, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.01486022, Final residual = 1.7545085e-05, No Iterations 2
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 0.00011424002, global = -2.655812e-06, cumulative = -3.7578162e-05
StCorr = 1
St courant Number mean: 1.4977416e-05 max: 0.16093012
Igniting cell 517 state : 0.00019789382 8.9071378 0.45867221 0.1022793
DILUPBiCGStab:  Solving for b, Initial residual = 2.8812698e-05, Final residual = 1.4374045e-07, No Iterations 1
min(b) = 0.00019984832
Combustion progress = 0.0065676981%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.0017268928, Final residual = 3.6556634e-07, No Iterations 3
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00099075346, Final residual = 3.8449523e-08, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0035678437, Final residual = 2.1646494e-09, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0043009978, Final residual = 7.2915183e-09, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0011050222, Final residual = 1.2405282e-07, No Iterations 3
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 0.00011398233, global = -2.6556307e-06, cumulative = -4.0233793e-05
DILUPBiCGStab:  Solving for epsilon, Initial residual = 0.00047288517, Final residual = 4.7520359e-07, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.00082324398, Final residual = 5.5579196e-09, No Iterations 1

ExecutionTime = 4.34 s

Courant Number mean: 0.00039692674 max: 0.038068895
deltaT = 0.00030599629


Time = 0.00449207
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 53291.955
Open fraction = 0.41290497
StCorr = 1
St courant Number mean: 1.3072241e-05 max: 0.078820565
Igniting cell 517 state : 0.00019984832 4.9452393 0.45670914 0.097274458
DILUPBiCGStab:  Solving for b, Initial residual = 0.0001985311, Final residual = 3.4976624e-07, No Iterations 1
min(b) = 0.00017260632
Combustion progress = 0.0067846424%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.0035054589, Final residual = 9.5679916e-07, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00077350375, Final residual = 3.1158871e-08, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.013869448, Final residual = 8.9171053e-09, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.016520666, Final residual = 1.2707887e-08, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.016078514, Final residual = 2.3021954e-05, No Iterations 2
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 0.00011787884, global = -2.8161038e-06, cumulative = -4.3049897e-05
StCorr = 1
St courant Number mean: 1.3751418e-05 max: 0.082658632
Igniting cell 517 state : 0.00017260632 4.7408369 0.45840501 0.10176144
DILUPBiCGStab:  Solving for b, Initial residual = 1.5393421e-05, Final residual = 3.0371975e-08, No Iterations 1
min(b) = 0.00017020197
Combustion progress = 0.006772366%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.00014505814, Final residual = 3.1756064e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00097490252, Final residual = 3.8956991e-08, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0036728243, Final residual = 2.8477871e-09, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.004474751, Final residual = 8.5827792e-09, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0010987864, Final residual = 7.1550901e-08, No Iterations 3
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 0.00011758684, global = -2.8159555e-06, cumulative = -4.5865852e-05
DILUPBiCGStab:  Solving for epsilon, Initial residual = 0.00040764212, Final residual = 3.8193018e-07, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.00073260867, Final residual = 3.8468595e-09, No Iterations 1

ExecutionTime = 4.47 s

Courant Number mean: 0.00040163546 max: 0.032718406
deltaT = 0.00034424583


Time = 0.00483631
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 38026.198
Open fraction = 0.44732955
StCorr = 1
St courant Number mean: 1.5627522e-05 max: 0.094887904
Igniting cell 517 state : 0.00017020197 4.7606016 0.45716538 0.10006964
DILUPBiCGStab:  Solving for b, Initial residual = 0.00017633514, Final residual = 3.4657717e-07, No Iterations 1
min(b) = 0.00015858733
Combustion progress = 0.0070023312%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.002749611, Final residual = 7.6634792e-10, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00075484378, Final residual = 3.7745098e-08, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.017251689, Final residual = 1.4955038e-08, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.020820482, Final residual = 2.794246e-08, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.020098014, Final residual = 4.9622462e-05, No Iterations 2
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 0.00013567135, global = -3.3616804e-06, cumulative = -4.9227532e-05
StCorr = 1
St courant Number mean: 1.6627038e-05 max: 0.10987164
Igniting cell 517 state : 0.00015858733 5.5721837 0.45525222 0.10396474
DILUPBiCGStab:  Solving for b, Initial residual = 1.7249713e-05, Final residual = 3.8781542e-08, No Iterations 1
min(b) = 0.00015958834
Combustion progress = 0.0069916456%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.00016443168, Final residual = 3.5478252e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00098522279, Final residual = 4.7154637e-08, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0048721756, Final residual = 1.1371411e-08, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0061517374, Final residual = 3.3828348e-08, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0014666597, Final residual = 2.1316824e-07, No Iterations 3
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 0.00013539399, global = -3.3614694e-06, cumulative = -5.2589002e-05
DILUPBiCGStab:  Solving for epsilon, Initial residual = 0.00040221896, Final residual = 4.4450295e-07, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.00073561768, Final residual = 4.5487526e-09, No Iterations 1

ExecutionTime = 4.59 s

Courant Number mean: 0.0004523103 max: 0.031317812
deltaT = 0.00036883482


Time = 0.00520515
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 22563.277
Open fraction = 0.48421303
StCorr = 1
St courant Number mean: 1.7903054e-05 max: 0.11752411
Igniting cell 517 state : 0.00015958834 5.5859787 0.45746738 0.10098593
DILUPBiCGStab:  Solving for b, Initial residual = 0.00016374207, Final residual = 3.4589018e-07, No Iterations 1
min(b) = 0.00015056209
Combustion progress = 0.0072287837%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.0025823798, Final residual = 8.4303117e-10, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00078285544, Final residual = 4.3253188e-08, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.020635663, Final residual = 1.1544449e-08, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.025088704, Final residual = 1.4123593e-08, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.024098016, Final residual = 6.5506188e-05, No Iterations 2
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 0.00014772173, global = -3.8159466e-06, cumulative = -5.6404948e-05
StCorr = 1
St courant Number mean: 1.9081312e-05 max: 0.13667011
Igniting cell 517 state : 0.00015056209 6.474792 0.45678471 0.10409855
DILUPBiCGStab:  Solving for b, Initial residual = 1.7240637e-05, Final residual = 5.6045703e-08, No Iterations 1
min(b) = 0.00015093913
Combustion progress = 0.0072295569%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.00016002314, Final residual = 2.784991e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00099513608, Final residual = 5.1921983e-08, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0059008659, Final residual = 9.7809723e-09, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0074441143, Final residual = 2.4279474e-08, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0018481507, Final residual = 5.8306401e-07, No Iterations 3
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 0.00014790344, global = -3.8156156e-06, cumulative = -6.0220564e-05
DILUPBiCGStab:  Solving for epsilon, Initial residual = 0.0003771897, Final residual = 4.3401947e-07, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.00070363616, Final residual = 4.5010508e-09, No Iterations 1

ExecutionTime = 4.72 s

Courant Number mean: 0.00048148753 max: 0.031154848
deltaT = 0.00039957105


Time = 0.00560472
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 10608.567
Open fraction = 0.52417014
StCorr = 1
St courant Number mean: 2.0757735e-05 max: 0.14680828
Igniting cell 517 state : 0.00015093913 6.4702687 0.45773488 0.10086154
DILUPBiCGStab:  Solving for b, Initial residual = 0.00015936715, Final residual = 3.8494694e-07, No Iterations 1
min(b) = 0.00014186196
Combustion progress = 0.0074890706%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.0024759771, Final residual = 9.8974888e-07, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00081153205, Final residual = 5.1886567e-08, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.025700993, Final residual = 1.5657775e-08, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.031695774, Final residual = 3.5715358e-08, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.030864009, Final residual = 0.00010169385, No Iterations 2
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 0.00016407558, global = -4.3728595e-06, cumulative = -6.4593424e-05
StCorr = 1
St courant Number mean: 2.2136099e-05 max: 0.16947244
Igniting cell 517 state : 0.00014186196 7.417434 0.45842127 0.1044686
DILUPBiCGStab:  Solving for b, Initial residual = 1.4352038e-05, Final residual = 7.0046551e-08, No Iterations 1
min(b) = 0.00014090372
Combustion progress = 0.0075010014%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.00011833274, Final residual = 1.8632203e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0010041463, Final residual = 6.2566858e-08, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.007658842, Final residual = 7.5737814e-09, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0096338153, Final residual = 1.1151587e-08, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0024989313, Final residual = 1.4139824e-07, No Iterations 4
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 0.0001647762, global = -4.3722539e-06, cumulative = -6.8965677e-05
DILUPBiCGStab:  Solving for epsilon, Initial residual = 0.00034899729, Final residual = 4.2131247e-07, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.00069137339, Final residual = 4.8923366e-09, No Iterations 1

ExecutionTime = 4.85 s

Courant Number mean: 0.00051456142 max: 0.031224625
deltaT = 0.00036627346


Time = 0.00597099
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 2742.5202
Open fraction = 0.56079748
StCorr = 1
St courant Number mean: 2.0388154e-05 max: 0.15438952
Igniting cell 517 state : 0.00014090372 7.4113067 0.45793796 0.10354842
DILUPBiCGStab:  Solving for b, Initial residual = 0.00015723436, Final residual = 3.309732e-07, No Iterations 1
min(b) = 0.00013178211
Combustion progress = 0.0077510435%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.0020001221, Final residual = 5.0960546e-07, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00079267953, Final residual = 4.1889962e-08, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.028380194, Final residual = 2.0974819e-08, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.035462283, Final residual = 4.5920382e-08, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.034040724, Final residual = 7.1243138e-05, No Iterations 2
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 0.00015308527, global = -4.2016028e-06, cumulative = -7.316728e-05
StCorr = 1
St courant Number mean: 2.1540338e-05 max: 0.17299691
Igniting cell 517 state : 0.00013178211 8.2686122 0.45885761 0.10986216
DILUPBiCGStab:  Solving for b, Initial residual = 1.2168077e-05, Final residual = 5.232183e-08, No Iterations 1
min(b) = 0.00013081218
Combustion progress = 0.0077665968%
DILUPBiCGStab:  Solving for Xi, Initial residual = 7.2793961e-05, Final residual = 1.2246132e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00097959905, Final residual = 5.1807082e-08, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0074042454, Final residual = 2.5276918e-09, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0094090241, Final residual = 3.7930616e-09, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.002486433, Final residual = 8.608949e-07, No Iterations 3
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 0.00015401978, global = -4.2011537e-06, cumulative = -7.7368434e-05
DILUPBiCGStab:  Solving for epsilon, Initial residual = 0.00027183843, Final residual = 2.5273851e-07, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.0005906431, Final residual = 9.718631e-07, No Iterations 1

ExecutionTime = 4.97 s

Courant Number mean: 0.00046270963 max: 0.028735306
deltaT = 0.00033575067


Time = 0.00630674
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = -1437.9165
Open fraction = 0.59437255
StCorr = 1
St courant Number mean: 1.9869339e-05 max: 0.15799973
Igniting cell 517 state : 0.00013081218 8.2654085 0.45808805 0.11040464
DILUPBiCGStab:  Solving for b, Initial residual = 0.00015828346, Final residual = 2.8649454e-07, No Iterations 1
min(b) = 0.00012299361
Combustion progress = 0.0080113068%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.0016808704, Final residual = 3.8957372e-07, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00077602555, Final residual = 3.4158182e-08, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.031026915, Final residual = 1.6725318e-08, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.039386609, Final residual = 3.2847156e-08, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.03686491, Final residual = 5.2018788e-05, No Iterations 2
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 0.0001421339, global = -4.0031632e-06, cumulative = -8.1371597e-05
StCorr = 1
St courant Number mean: 2.0836795e-05 max: 0.17331063
Igniting cell 517 state : 0.00012299361 9.0434454 0.45888722 0.11857944
DILUPBiCGStab:  Solving for b, Initial residual = 1.1032033e-05, Final residual = 3.8364289e-08, No Iterations 1
min(b) = 0.00012225733
Combustion progress = 0.008027042%
DILUPBiCGStab:  Solving for Xi, Initial residual = 5.415765e-05, Final residual = 8.7912131e-09, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00099414616, Final residual = 4.2207282e-08, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0072507368, Final residual = 1.8203127e-09, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0093754349, Final residual = 4.1170776e-09, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0024404399, Final residual = 4.3084568e-07, No Iterations 3
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 0.00014324576, global = -4.0028138e-06, cumulative = -8.5374411e-05
DILUPBiCGStab:  Solving for epsilon, Initial residual = 0.00021642316, Final residual = 1.5484146e-07, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.00052157315, Final residual = 6.8989084e-07, No Iterations 1

ExecutionTime = 5.1 s

Courant Number mean: 0.00041459629 max: 0.027709382
deltaT = 0.00030777145


Time = 0.00661451
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = -3663.6492
Open fraction = 0.6251497
StCorr = 1
St courant Number mean: 1.9234195e-05 max: 0.15849266
Igniting cell 517 state : 0.00012225733 9.0423581 0.45820818 0.11881645
DILUPBiCGStab:  Solving for b, Initial residual = 0.00016114467, Final residual = 2.5065162e-07, No Iterations 1
min(b) = 0.00011553859
Combustion progress = 0.0082672812%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.00144681, Final residual = 2.821583e-07, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0007815439, Final residual = 2.9192067e-08, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.033488305, Final residual = 9.4901961e-09, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.043114876, Final residual = 2.0685636e-08, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.040260915, Final residual = 3.9963239e-05, No Iterations 2
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 0.00013358469, global = -3.7866169e-06, cumulative = -8.9161028e-05
StCorr = 1
St courant Number mean: 2.0054141e-05 max: 0.17118831
Igniting cell 517 state : 0.00011553859 9.7498031 0.45889031 0.12746903
DILUPBiCGStab:  Solving for b, Initial residual = 1.0051593e-05, Final residual = 2.874135e-08, No Iterations 1
min(b) = 0.00011496632
Combustion progress = 0.0082817747%
DILUPBiCGStab:  Solving for Xi, Initial residual = 4.2989223e-05, Final residual = 6.1542148e-09, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0010039185, Final residual = 3.5291665e-08, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0071569108, Final residual = 1.5883574e-09, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0093543301, Final residual = 5.0065703e-09, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0023838723, Final residual = 2.699067e-07, No Iterations 3
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 0.00013453203, global = -3.7863298e-06, cumulative = -9.2947358e-05
DILUPBiCGStab:  Solving for epsilon, Initial residual = 0.00017744749, Final residual = 9.6320694e-08, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.00046913261, Final residual = 5.0353619e-07, No Iterations 1

ExecutionTime = 5.22 s

Courant Number mean: 0.00037103707 max: 0.027196331
deltaT = 0.00030777145


Time = 0.00692229
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = -4934.6428
Open fraction = 0.65592684
StCorr = 1
St courant Number mean: 2.0212565e-05 max: 0.1708677
Igniting cell 517 state : 0.00011496632 9.7494884 0.45831314 0.12734368
DILUPBiCGStab:  Solving for b, Initial residual = 0.00016738108, Final residual = 2.6059045e-07, No Iterations 1
min(b) = 0.00010898461
Combustion progress = 0.0085385684%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.0013976405, Final residual = 2.897075e-07, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00078442522, Final residual = 2.8654631e-08, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.039293423, Final residual = 8.7445635e-09, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.051098405, Final residual = 1.9139646e-08, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.047313916, Final residual = 5.0173695e-05, No Iterations 2
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 0.00013686305, global = -3.8905196e-06, cumulative = -9.6837877e-05
StCorr = 1
St courant Number mean: 2.1045299e-05 max: 0.18339346
Igniting cell 517 state : 0.00010898461 10.450038 0.45896193 0.13642251
DILUPBiCGStab:  Solving for b, Initial residual = 1.0090685e-05, Final residual = 2.7243961e-08, No Iterations 1
min(b) = 0.00010853806
Combustion progress = 0.0085535503%
DILUPBiCGStab:  Solving for Xi, Initial residual = 4.0800845e-05, Final residual = 6.6084417e-09, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00098888012, Final residual = 3.562133e-08, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0084501527, Final residual = 3.0526283e-09, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.011243004, Final residual = 6.5848359e-09, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0027463535, Final residual = 3.1829689e-07, No Iterations 3
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 0.00013771226, global = -3.8901635e-06, cumulative = -0.00010072804
DILUPBiCGStab:  Solving for epsilon, Initial residual = 0.00016326302, Final residual = 7.7187864e-08, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.00046621737, Final residual = 4.7860491e-07, No Iterations 1

ExecutionTime = 5.35 s

Courant Number mean: 0.0003612008 max: 0.030307692
deltaT = 0.00027979223


Time = 0.00720208
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = -5729.2812
Open fraction = 0.68390606
StCorr = 1
St courant Number mean: 1.9290771e-05 max: 0.1665657
Igniting cell 517 state : 0.00010853806 10.450299 0.45840649 0.13625489
DILUPBiCGStab:  Solving for b, Initial residual = 0.00017139226, Final residual = 2.2425191e-07, No Iterations 1
min(b) = 0.00010306887
Combustion progress = 0.0088033908%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.0012182264, Final residual = 2.3012283e-07, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00085868692, Final residual = 2.5976598e-08, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.041556051, Final residual = 5.3791985e-09, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.054894035, Final residual = 1.1513276e-08, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.050149937, Final residual = 3.6957364e-05, No Iterations 2
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 0.00012730022, global = -3.6094595e-06, cumulative = -0.0001043375
StCorr = 1
St courant Number mean: 1.9991211e-05 max: 0.17676789
Igniting cell 517 state : 0.00010306887 11.082812 0.45892055 0.14463301
DILUPBiCGStab:  Solving for b, Initial residual = 8.9331856e-06, Final residual = 1.9908926e-08, No Iterations 1
min(b) = 0.00010269935
Combustion progress = 0.0088161245%
DILUPBiCGStab:  Solving for Xi, Initial residual = 5.358126e-05, Final residual = 1.4934531e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0010630009, Final residual = 3.1055162e-08, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0081183153, Final residual = 2.0282974e-09, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.01089186, Final residual = 4.2653987e-09, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0026201875, Final residual = 1.6728043e-07, No Iterations 3
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 0.00012788243, global = -3.6091592e-06, cumulative = -0.00010794666
DILUPBiCGStab:  Solving for epsilon, Initial residual = 0.00014256337, Final residual = 4.7033727e-08, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.00042363111, Final residual = 3.5034746e-07, No Iterations 1

ExecutionTime = 5.48 s

Courant Number mean: 0.00032070855 max: 0.031016847
deltaT = 0.00025435657


Time = 0.00745643
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = -6083.8707
Open fraction = 0.70934172
StCorr = 1
St courant Number mean: 1.8230276e-05 max: 0.15787851
Igniting cell 517 state : 0.00010269935 10.983167 0.45848867 0.14439586
DILUPBiCGStab:  Solving for b, Initial residual = 0.00017350693, Final residual = 1.8882133e-07, No Iterations 1
min(b) = 9.7640898e-05
Combustion progress = 0.0090551247%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.0010943815, Final residual = 1.8783454e-07, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00084208915, Final residual = 2.0467405e-08, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.043111658, Final residual = 3.3332485e-09, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.057099265, Final residual = 6.9688947e-09, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.051999571, Final residual = 2.5379754e-05, No Iterations 2
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 0.00011799939, global = -3.3282083e-06, cumulative = -0.00011127487
StCorr = 1
St courant Number mean: 1.8800403e-05 max: 0.16507833
Igniting cell 517 state : 9.7640898e-05 11.391349 0.45896365 0.15263377
DILUPBiCGStab:  Solving for b, Initial residual = 8.8761505e-06, Final residual = 1.3735904e-08, No Iterations 1
min(b) = 9.7497989e-05
Combustion progress = 0.0090650303%
DILUPBiCGStab:  Solving for Xi, Initial residual = 3.4410936e-05, Final residual = 3.8535438e-09, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0010313381, Final residual = 2.4833431e-08, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.007555177, Final residual = 1.351825e-09, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0099993111, Final residual = 2.888523e-09, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0024252581, Final residual = 9.4111706e-08, No Iterations 3
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 0.00011840799, global = -3.3279592e-06, cumulative = -0.00011460283
DILUPBiCGStab:  Solving for epsilon, Initial residual = 0.00012824783, Final residual = 2.933185e-08, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.0003869029, Final residual = 2.5788244e-07, No Iterations 1

ExecutionTime = 5.59 s

Courant Number mean: 0.00028624419 max: 0.031507262
deltaT = 0.00025435657


Time = 0.00771079
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = -6087.2359
Open fraction = 0.73477738
StCorr = 1
St courant Number mean: 1.8962312e-05 max: 0.16507534
Igniting cell 517 state : 9.7497989e-05 11.39257 0.45857991 0.1522641
DILUPBiCGStab:  Solving for b, Initial residual = 0.00017922221, Final residual = 1.9479458e-07, No Iterations 1
min(b) = 9.3303621e-05
Combustion progress = 0.0093167407%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.0010552477, Final residual = 1.8946691e-07, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00081727057, Final residual = 2.0767029e-08, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.048108549, Final residual = 2.981281e-09, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.062713079, Final residual = 5.9264148e-09, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.057736223, Final residual = 2.611375e-05, No Iterations 2
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 0.00012122382, global = -3.3616562e-06, cumulative = -0.00011796448
StCorr = 1
St courant Number mean: 1.9563654e-05 max: 0.1733077
Igniting cell 517 state : 9.3303621e-05 11.956928 0.4589445 0.16023366
DILUPBiCGStab:  Solving for b, Initial residual = 8.3904773e-06, Final residual = 1.4279732e-08, No Iterations 1
min(b) = 9.3273641e-05
Combustion progress = 0.0093273506%
DILUPBiCGStab:  Solving for Xi, Initial residual = 4.0271416e-05, Final residual = 5.5751967e-09, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0010244312, Final residual = 2.4655787e-08, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0082082336, Final residual = 1.1613012e-09, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.010458419, Final residual = 2.3448109e-09, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0025746999, Final residual = 1.1282818e-07, No Iterations 3
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 0.00012159303, global = -3.3613415e-06, cumulative = -0.00012132582
DILUPBiCGStab:  Solving for epsilon, Initial residual = 0.00012916045, Final residual = 2.4550474e-08, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.00038967407, Final residual = 2.5063847e-07, No Iterations 1

ExecutionTime = 5.71 s

Courant Number mean: 0.00028213568 max: 0.034883541
deltaT = 0.00022892091


Time = 0.00793971
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = -5730.8944
Open fraction = 0.75766947
StCorr = 1
St courant Number mean: 1.7745246e-05 max: 0.15570512
Igniting cell 517 state : 9.3273641e-05 11.954516 0.45863654 0.15987897
DILUPBiCGStab:  Solving for b, Initial residual = 0.00018087351, Final residual = 1.6301891e-07, No Iterations 1
min(b) = 8.9400674e-05
Combustion progress = 0.0095663468%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.0009214061, Final residual = 1.4318407e-07, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00082015862, Final residual = 1.6444393e-08, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.047937664, Final residual = 1.7172468e-09, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.060348432, Final residual = 3.2039449e-09, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.057086748, Final residual = 1.464487e-05, No Iterations 2
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 0.00011247776, global = -3.0349969e-06, cumulative = -0.00012436082
StCorr = 1
St courant Number mean: 1.8240739e-05 max: 0.16216217
Igniting cell 517 state : 8.9400674e-05 12.434247 0.45894572 0.16684684
DILUPBiCGStab:  Solving for b, Initial residual = 7.9194505e-06, Final residual = 1.1264748e-08, No Iterations 1
min(b) = 8.93052e-05
Combustion progress = 0.009574974%
DILUPBiCGStab:  Solving for Xi, Initial residual = 5.0611368e-05, Final residual = 5.5396203e-09, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0010369704, Final residual = 2.0241155e-08, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0071072724, Final residual = 9.3033732e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0082665301, Final residual = 1.1814095e-09, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0022177817, Final residual = 8.1476119e-07, No Iterations 2
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 0.00011269807, global = -3.0347513e-06, cumulative = -0.00012739557
DILUPBiCGStab:  Solving for epsilon, Initial residual = 0.00011796655, Final residual = 1.5479999e-08, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.00035295044, Final residual = 1.8073929e-07, No Iterations 1

ExecutionTime = 5.83 s

Courant Number mean: 0.00025221709 max: 0.03457251
deltaT = 0.00022892091


Time = 0.00816863
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = -5160.1969
Open fraction = 0.78056156
StCorr = 1
St courant Number mean: 1.8376987e-05 max: 0.16157445
Igniting cell 517 state : 8.93052e-05 12.44094 0.45869344 0.16660553
DILUPBiCGStab:  Solving for b, Initial residual = 0.00018622357, Final residual = 1.6782856e-07, No Iterations 1
min(b) = 8.5706316e-05
Combustion progress = 0.0098254702%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.00091981366, Final residual = 1.4089566e-07, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00080343068, Final residual = 1.6475298e-08, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.052045725, Final residual = 1.5798548e-09, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.060004107, Final residual = 2.5828031e-09, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.060902669, Final residual = 1.3001043e-05, No Iterations 2
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 0.00011606695, global = -3.031187e-06, cumulative = -0.00013042676
StCorr = 1
St courant Number mean: 1.8877458e-05 max: 0.16755683
Igniting cell 517 state : 8.5706316e-05 12.852118 0.45901298 0.17342621
DILUPBiCGStab:  Solving for b, Initial residual = 7.7444538e-06, Final residual = 1.0883658e-08, No Iterations 1
min(b) = 8.5633222e-05
Combustion progress = 0.0098340518%
DILUPBiCGStab:  Solving for Xi, Initial residual = 5.2802795e-05, Final residual = 2.6671067e-07, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00099609107, Final residual = 1.9609838e-08, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0074673902, Final residual = 9.2834983e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0073372336, Final residual = 9.5641186e-10, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0022081378, Final residual = 6.976621e-08, No Iterations 3
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 0.00011629002, global = -3.0308837e-06, cumulative = -0.00013345764
DILUPBiCGStab:  Solving for epsilon, Initial residual = 0.00012150838, Final residual = 1.3983225e-08, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.00035495404, Final residual = 1.7590731e-07, No Iterations 1

ExecutionTime = 5.95 s

Courant Number mean: 0.00025163756 max: 0.037779215
deltaT = 0.00020348526


Time = 0.00837212
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = -4368.0141
Open fraction = 0.80091009
StCorr = 1
St courant Number mean: 1.6886637e-05 max: 0.14824975
Igniting cell 517 state : 8.5633222e-05 12.862528 0.45873459 0.17269373
DILUPBiCGStab:  Solving for b, Initial residual = 0.00018536815, Final residual = 1.3505201e-07, No Iterations 1
min(b) = 8.2232624e-05
Combustion progress = 0.010066802%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.00080097542, Final residual = 1.0803449e-07, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00081405819, Final residual = 1.2986188e-08, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.049762813, Final residual = 8.5743352e-10, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.048725675, Final residual = 1.0647019e-09, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.05517009, Final residual = 5.6057943e-06, No Iterations 2
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 0.00010600426, global = -2.6705536e-06, cumulative = -0.0001361282
StCorr = 1
St courant Number mean: 1.7284257e-05 max: 0.15259357
Igniting cell 517 state : 8.2232624e-05 13.172386 0.45900747 0.17882016
DILUPBiCGStab:  Solving for b, Initial residual = 7.7376208e-06, Final residual = 8.1612745e-09, No Iterations 1
min(b) = 8.2244273e-05
Combustion progress = 0.010073593%
DILUPBiCGStab:  Solving for Xi, Initial residual = 4.7263295e-05, Final residual = 2.0626866e-07, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0010171375, Final residual = 1.581786e-08, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0061830036, Final residual = 5.7311303e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0054145724, Final residual = 6.2432319e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0017434518, Final residual = 4.5096251e-07, No Iterations 2
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 0.00010617575, global = -2.6703396e-06, cumulative = -0.00013879854
DILUPBiCGStab:  Solving for epsilon, Initial residual = 0.00011136551, Final residual = 9.2998537e-09, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.00031658644, Final residual = 1.2298208e-07, No Iterations 1

ExecutionTime = 6.07 s

Courant Number mean: 0.00022415777 max: 0.036648397
deltaT = 0.00020348526


Time = 0.0085756
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = -3543.0248
Open fraction = 0.82125861
StCorr = 1
St courant Number mean: 1.7403507e-05 max: 0.15215545
Igniting cell 517 state : 8.2244273e-05 13.201064 0.45876873 0.17801293
DILUPBiCGStab:  Solving for b, Initial residual = 0.00018965598, Final residual = 1.3811844e-07, No Iterations 1
min(b) = 7.9180571e-05
Combustion progress = 0.010315574%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.00079175184, Final residual = 1.6262744e-07, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00081481513, Final residual = 1.3334271e-08, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.052326933, Final residual = 8.1975134e-10, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.045558741, Final residual = 8.2387997e-10, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.054911353, Final residual = 4.6138746e-06, No Iterations 2
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 0.00010882254, global = -2.6354995e-06, cumulative = -0.00014143404
StCorr = 1
St courant Number mean: 1.7807911e-05 max: 0.15639926
Igniting cell 517 state : 7.9180571e-05 13.51009 0.45901557 0.18418618
DILUPBiCGStab:  Solving for b, Initial residual = 7.7177199e-06, Final residual = 7.182584e-09, No Iterations 1
min(b) = 7.9367372e-05
Combustion progress = 0.010321765%
DILUPBiCGStab:  Solving for Xi, Initial residual = 4.7796393e-05, Final residual = 2.0305048e-07, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.001030766, Final residual = 1.6025469e-08, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0062287896, Final residual = 5.4423223e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0050339483, Final residual = 5.3981542e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0016579628, Final residual = 4.519588e-07, No Iterations 2
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 0.00010900782, global = -2.6352368e-06, cumulative = -0.00014406927
DILUPBiCGStab:  Solving for epsilon, Initial residual = 0.00011471696, Final residual = 8.9391467e-09, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.00031780209, Final residual = 1.2024587e-07, No Iterations 1

ExecutionTime = 6.19 s

Courant Number mean: 0.00022549066 max: 0.040359192
deltaT = 0.00020348526


Time = 0.00877909
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = -2642.2808
Open fraction = 0.84160714
StCorr = 1
St courant Number mean: 1.7938877e-05 max: 0.15605419
Igniting cell 517 state : 7.9367372e-05 13.541962 0.45881821 0.18380481
DILUPBiCGStab:  Solving for b, Initial residual = 0.00019400089, Final residual = 1.4113442e-07, No Iterations 1
min(b) = 7.6500987e-05
Combustion progress = 0.010573128%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.00078388717, Final residual = 2.0917279e-07, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00081690803, Final residual = 1.2848038e-08, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.054016043, Final residual = 7.6806588e-10, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.043438599, Final residual = 6.6355388e-10, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.052820138, Final residual = 3.9672424e-06, No Iterations 2
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 0.00011109123, global = -2.5807018e-06, cumulative = -0.00014664997
StCorr = 1
St courant Number mean: 1.8348833e-05 max: 0.16016714
Igniting cell 517 state : 7.6500987e-05 13.844431 0.45900854 0.18988196
DILUPBiCGStab:  Solving for b, Initial residual = 7.7308806e-06, Final residual = 6.862621e-09, No Iterations 1
min(b) = 7.6744805e-05
Combustion progress = 0.010579083%
DILUPBiCGStab:  Solving for Xi, Initial residual = 4.362973e-05, Final residual = 1.6650417e-07, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0010170829, Final residual = 1.594359e-08, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0062335269, Final residual = 5.085699e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0047734031, Final residual = 4.6137555e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0015691162, Final residual = 4.4491895e-07, No Iterations 2
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 0.00011129943, global = -2.5803908e-06, cumulative = -0.00014923037
DILUPBiCGStab:  Solving for epsilon, Initial residual = 0.00011795072, Final residual = 8.6561577e-09, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.00031907414, Final residual = 1.177755e-07, No Iterations 1

ExecutionTime = 6.31 s

Courant Number mean: 0.00022732056 max: 0.044523408
deltaT = 0.00017441594


Time = 0.0089535
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = -1730.0395
Open fraction = 0.85904873
StCorr = 1
St courant Number mean: 1.5831219e-05 max: 0.13705272
Igniting cell 517 state : 7.6744805e-05 13.877388 0.45886764 0.18950619
DILUPBiCGStab:  Solving for b, Initial residual = 0.00018881697, Final residual = 1.0416767e-07, No Iterations 1
min(b) = 7.4202655e-05
Combustion progress = 0.010802884%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.0006522528, Final residual = 1.9619478e-07, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00077723989, Final residual = 9.1980945e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.047168163, Final residual = 3.6844211e-10, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.035948044, Final residual = 2.9716854e-10, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.043324213, Final residual = 0.00026545368, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 9.6699579e-05, global = -2.1443178e-06, cumulative = -0.00015137468
StCorr = 1
St courant Number mean: 1.6136225e-05 max: 0.13996397
Igniting cell 517 state : 7.4202655e-05 14.124021 0.45899499 0.19456761
DILUPBiCGStab:  Solving for b, Initial residual = 7.9070277e-06, Final residual = 4.6318225e-09, No Iterations 1
min(b) = 7.4347181e-05
Combustion progress = 0.01080732%
DILUPBiCGStab:  Solving for Xi, Initial residual = 3.7069036e-05, Final residual = 8.2697643e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00099251348, Final residual = 1.1739718e-08, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0047641407, Final residual = 2.5690037e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0035399321, Final residual = 2.1575777e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0011314767, Final residual = 1.8106174e-07, No Iterations 2
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 9.6827416e-05, global = -2.1441752e-06, cumulative = -0.00015351886
DILUPBiCGStab:  Solving for epsilon, Initial residual = 0.000103363, Final residual = 5.4383643e-09, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.00027446542, Final residual = 7.5208064e-08, No Iterations 1

ExecutionTime = 6.43 s

Courant Number mean: 0.00019691512 max: 0.043639322
deltaT = 0.00017441594


Time = 0.00912792
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = -891.72363
Open fraction = 0.87649032
StCorr = 1
St courant Number mean: 1.6250999e-05 max: 0.13989353
Igniting cell 517 state : 7.4347181e-05 14.159827 0.4589163 0.19439255
DILUPBiCGStab:  Solving for b, Initial residual = 0.00019215311, Final residual = 1.0612551e-07, No Iterations 1
min(b) = 7.2127712e-05
Combustion progress = 0.011038402%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.0006445994, Final residual = 2.7407739e-07, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00077405908, Final residual = 9.3296752e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.047594547, Final residual = 3.7418124e-10, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.035165099, Final residual = 2.8987413e-10, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.042144354, Final residual = 0.00025628533, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 9.7864466e-05, global = -2.0710239e-06, cumulative = -0.00015558988
StCorr = 1
St courant Number mean: 1.6561919e-05 max: 0.14285062
Igniting cell 517 state : 7.2127712e-05 14.428738 0.45905112 0.19931781
DILUPBiCGStab:  Solving for b, Initial residual = 7.4103021e-06, Final residual = 5.3183307e-09, No Iterations 1
min(b) = 7.2224525e-05
Combustion progress = 0.011043397%
DILUPBiCGStab:  Solving for Xi, Initial residual = 3.0107721e-05, Final residual = 6.6194629e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00099299212, Final residual = 1.1274756e-08, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0046909589, Final residual = 2.438664e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0034239091, Final residual = 2.0653056e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0010816204, Final residual = 2.4500763e-07, No Iterations 2
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 9.8005826e-05, global = -2.0708462e-06, cumulative = -0.00015766073
DILUPBiCGStab:  Solving for epsilon, Initial residual = 0.00010545206, Final residual = 5.5211183e-09, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.00027532486, Final residual = 7.4271436e-08, No Iterations 1

ExecutionTime = 6.55 s

Courant Number mean: 0.0001993928 max: 0.049802552
deltaT = 0.00017441594


Time = 0.00930234
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = -69.222865
Open fraction = 0.89393192
StCorr = 1
St courant Number mean: 1.6686292e-05 max: 0.14281379
Igniting cell 517 state : 7.2224525e-05 14.459393 0.45895314 0.19914442
DILUPBiCGStab:  Solving for b, Initial residual = 0.00019565496, Final residual = 1.0895438e-07, No Iterations 1
min(b) = 7.0135834e-05
Combustion progress = 0.01128231%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.00063813477, Final residual = 3.0981246e-07, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00078498956, Final residual = 8.9353414e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.047683269, Final residual = 3.704435e-10, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.03456769, Final residual = 2.8271179e-10, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.041442719, Final residual = 0.00024816439, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 9.9203607e-05, global = -1.9787935e-06, cumulative = -0.00015963952
StCorr = 1
St courant Number mean: 1.7001126e-05 max: 0.14572097
Igniting cell 517 state : 7.0135834e-05 14.730379 0.45909547 0.20405121
DILUPBiCGStab:  Solving for b, Initial residual = 7.4410327e-06, Final residual = 4.6560749e-09, No Iterations 1
min(b) = 7.0212253e-05
Combustion progress = 0.011286977%
DILUPBiCGStab:  Solving for Xi, Initial residual = 3.0067782e-05, Final residual = 5.3086978e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00098648075, Final residual = 1.123086e-08, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0046980439, Final residual = 2.3400954e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0034026471, Final residual = 2.0194411e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0010802866, Final residual = 2.026673e-07, No Iterations 2
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 9.9348024e-05, global = -1.9785875e-06, cumulative = -0.00016161811
DILUPBiCGStab:  Solving for epsilon, Initial residual = 0.00010733664, Final residual = 5.6587532e-09, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.00027575205, Final residual = 7.3607078e-08, No Iterations 1

ExecutionTime = 6.67 s

Courant Number mean: 0.00020221229 max: 0.056467006
deltaT = 0.00013953275


Time = 0.00944187
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 650.58372
Open fraction = 0.90788519
StCorr = 1
St courant Number mean: 1.3685827e-05 max: 0.11657818
Igniting cell 517 state : 7.0212253e-05 14.757539 0.45900529 0.20412016
DILUPBiCGStab:  Solving for b, Initial residual = 0.00018322244, Final residual = 6.9121295e-08, No Iterations 1
min(b) = 6.8367772e-05
Combustion progress = 0.011484341%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.00049521672, Final residual = 2.0110494e-07, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00085762341, Final residual = 6.8745061e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.038361372, Final residual = 1.3516026e-10, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.027495518, Final residual = 9.4011276e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.032953205, Final residual = 9.0495674e-05, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 8.0548308e-05, global = -1.4932096e-06, cumulative = -0.00016311132
StCorr = 1
St courant Number mean: 1.3888255e-05 max: 0.11835739
Igniting cell 517 state : 6.8367772e-05 14.967545 0.45910753 0.20788476
DILUPBiCGStab:  Solving for b, Initial residual = 6.002781e-06, Final residual = 2.5451592e-09, No Iterations 1
min(b) = 6.8465043e-05
Combustion progress = 0.011487234%
DILUPBiCGStab:  Solving for Xi, Initial residual = 1.8775266e-05, Final residual = 1.9942116e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.001077362, Final residual = 8.137242e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0031019717, Final residual = 1.139093e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0022423477, Final residual = 9.2321566e-08, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0007239303, Final residual = 5.8405117e-08, No Iterations 2
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 8.0617078e-05, global = -1.4931236e-06, cumulative = -0.00016460444
DILUPBiCGStab:  Solving for epsilon, Initial residual = 8.7055503e-05, Final residual = 3.0323625e-09, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.00022112684, Final residual = 3.9878086e-08, No Iterations 1

ExecutionTime = 6.79 s

Courant Number mean: 0.00016429314 max: 0.051725952
deltaT = 0.00013953275


Time = 0.0095814
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 1253.7234
Open fraction = 0.92183847
StCorr = 1
St courant Number mean: 1.3977882e-05 max: 0.11841585
Igniting cell 517 state : 6.8465043e-05 14.989376 0.45904959 0.2079321
DILUPBiCGStab:  Solving for b, Initial residual = 0.00018560759, Final residual = 7.0135007e-08, No Iterations 1
min(b) = 6.680907e-05
Combustion progress = 0.011689761%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.00049290006, Final residual = 2.0670832e-07, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00084826931, Final residual = 6.2405985e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.038532879, Final residual = 1.4476412e-10, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.02752637, Final residual = 9.6204749e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.033051988, Final residual = 8.9209669e-05, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 8.175614e-05, global = -1.4092153e-06, cumulative = -0.00016601366
StCorr = 1
St courant Number mean: 1.4184126e-05 max: 0.12020993
Igniting cell 517 state : 6.680907e-05 15.210361 0.45915045 0.2116518
DILUPBiCGStab:  Solving for b, Initial residual = 5.6112402e-06, Final residual = 2.9900256e-09, No Iterations 1
min(b) = 6.6897763e-05
Combustion progress = 0.011693058%
DILUPBiCGStab:  Solving for Xi, Initial residual = 1.5856869e-05, Final residual = 1.4491548e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0010901227, Final residual = 8.1715173e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0030433864, Final residual = 1.0731209e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0022019196, Final residual = 9.0915522e-08, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0007126551, Final residual = 1.1685409e-07, No Iterations 2
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 8.1831947e-05, global = -1.409104e-06, cumulative = -0.00016742276
DILUPBiCGStab:  Solving for epsilon, Initial residual = 8.8310986e-05, Final residual = 3.1897142e-09, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.00022177234, Final residual = 4.0290903e-08, No Iterations 1

ExecutionTime = 6.9 s

Courant Number mean: 0.00016708817 max: 0.058775492
deltaT = 0.00013953275


Time = 0.00972093
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 1868.0638
Open fraction = 0.93579174
StCorr = 1
St courant Number mean: 1.4278365e-05 max: 0.12027444
Igniting cell 517 state : 6.6897763e-05 15.227824 0.45908056 0.21190776
DILUPBiCGStab:  Solving for b, Initial residual = 0.00018803918, Final residual = 7.1660608e-08, No Iterations 1
min(b) = 6.5335996e-05
Combustion progress = 0.011901246%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.00049039029, Final residual = 2.0394622e-07, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00086751485, Final residual = 6.3561608e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.038682452, Final residual = 1.5643502e-10, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.027640117, Final residual = 9.7747663e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.033257257, Final residual = 8.782711e-05, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 8.2883956e-05, global = -1.31209e-06, cumulative = -0.00016873485
StCorr = 1
St courant Number mean: 1.4487758e-05 max: 0.12204888
Igniting cell 517 state : 6.5335996e-05 15.450719 0.45916647 0.21571483
DILUPBiCGStab:  Solving for b, Initial residual = 6.5842319e-06, Final residual = 2.4335117e-09, No Iterations 1
min(b) = 6.5504315e-05
Combustion progress = 0.011904015%
DILUPBiCGStab:  Solving for Xi, Initial residual = 2.0404952e-05, Final residual = 9.8086667e-09, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0010693061, Final residual = 8.0527276e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0030210001, Final residual = 1.0004768e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0021873115, Final residual = 8.2669818e-08, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.00073247857, Final residual = 5.3811363e-08, No Iterations 2
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 8.2966784e-05, global = -1.311966e-06, cumulative = -0.00017004682
DILUPBiCGStab:  Solving for epsilon, Initial residual = 8.9490074e-05, Final residual = 3.3831868e-09, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.00022248349, Final residual = 4.0953322e-08, No Iterations 1

ExecutionTime = 7.02 s

Courant Number mean: 0.00017013599 max: 0.066266048
deltaT = 0.00013953275


Time = 0.00986047
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 2475.7417
Open fraction = 0.94974502
StCorr = 1
St courant Number mean: 1.4584989e-05 max: 0.12210495
Igniting cell 517 state : 6.5504315e-05 15.464076 0.45912147 0.21560541
DILUPBiCGStab:  Solving for b, Initial residual = 0.0001904534, Final residual = 7.3584225e-08, No Iterations 1
min(b) = 6.3938399e-05
Combustion progress = 0.012117707%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.00048828389, Final residual = 2.0122813e-07, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00084678153, Final residual = 6.937164e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.038817233, Final residual = 1.7418394e-10, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.027837003, Final residual = 9.9183099e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.033505832, Final residual = 8.6553842e-05, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 8.3859695e-05, global = -1.200635e-06, cumulative = -0.00017124745
StCorr = 1
St courant Number mean: 1.4796954e-05 max: 0.12386038
Igniting cell 517 state : 6.3938399e-05 15.686024 0.45919643 0.21919487
DILUPBiCGStab:  Solving for b, Initial residual = 7.6250014e-06, Final residual = 3.0109232e-09, No Iterations 1
min(b) = 6.4164645e-05
Combustion progress = 0.012120777%
DILUPBiCGStab:  Solving for Xi, Initial residual = 2.02035e-05, Final residual = 7.8643981e-09, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.001073972, Final residual = 8.3745845e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0030148313, Final residual = 9.9919084e-08, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0021965624, Final residual = 8.115178e-08, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0007430287, Final residual = 6.9958868e-08, No Iterations 2
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 8.3953621e-05, global = -1.2004984e-06, cumulative = -0.00017244795
DILUPBiCGStab:  Solving for epsilon, Initial residual = 9.0682498e-05, Final residual = 3.6377408e-09, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.00022328536, Final residual = 4.1946774e-08, No Iterations 1

ExecutionTime = 7.14 s

Courant Number mean: 0.00017343282 max: 0.07414429
deltaT = 0.00013953275


Time = 0.01
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 3021.0739
Open fraction = 0.96369829
StCorr = 1
St courant Number mean: 1.4898597e-05 max: 0.1239118
Igniting cell 517 state : 6.4164645e-05 15.697499 0.45915931 0.21922107
DILUPBiCGStab:  Solving for b, Initial residual = 0.00019285118, Final residual = 7.5201557e-08, No Iterations 1
min(b) = 6.2615928e-05
Combustion progress = 0.012339977%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.00048560405, Final residual = 1.9408642e-07, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00083977647, Final residual = 6.5614813e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.038853836, Final residual = 2.1180863e-10, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.028034157, Final residual = 9.9153428e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.033833769, Final residual = 8.5216942e-05, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 8.4793646e-05, global = -1.0735788e-06, cumulative = -0.00017352153
StCorr = 1
St courant Number mean: 1.5114058e-05 max: 0.12564723
Igniting cell 517 state : 6.2615928e-05 15.917689 0.45925363 0.22271533
DILUPBiCGStab:  Solving for b, Initial residual = 8.8640738e-06, Final residual = 4.1195469e-09, No Iterations 1
min(b) = 6.2793755e-05
Combustion progress = 0.012343397%
DILUPBiCGStab:  Solving for Xi, Initial residual = 2.2919168e-05, Final residual = 6.3347974e-09, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0010956465, Final residual = 8.2859175e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0030178438, Final residual = 1.0304261e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0022209202, Final residual = 8.8099152e-08, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0007721056, Final residual = 1.2074377e-07, No Iterations 2
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 8.4892978e-05, global = -1.0734291e-06, cumulative = -0.00017459496
DILUPBiCGStab:  Solving for epsilon, Initial residual = 9.1906841e-05, Final residual = 3.9618762e-09, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.00022420642, Final residual = 4.3532418e-08, No Iterations 1

ExecutionTime = 7.36 s

Courant Number mean: 0.00017696688 max: 0.082350592
deltaT = 0.00013333333


Time = 0.0101333
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 3491.0946
Open fraction = 0.97703163
StCorr = 1
St courant Number mean: 1.4538434e-05 max: 0.12011579
Igniting cell 517 state : 6.2793755e-05 15.926952 0.45916789 0.22274683
DILUPBiCGStab:  Solving for b, Initial residual = 0.0001914953, Final residual = 6.9634717e-08, No Iterations 1
min(b) = 6.1381429e-05
Combustion progress = 0.012558619%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.00046007096, Final residual = 1.6941352e-07, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00084454994, Final residual = 6.024068e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.037189094, Final residual = 2.2194041e-10, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.027068814, Final residual = 8.7242757e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.032755002, Final residual = 6.8710148e-05, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 8.1907261e-05, global = -8.8910171e-07, cumulative = -0.00017548406
StCorr = 1
St courant Number mean: 1.4738058e-05 max: 0.12168161
Igniting cell 517 state : 6.1381429e-05 16.137462 0.45925541 0.22598575
DILUPBiCGStab:  Solving for b, Initial residual = 5.8201472e-06, Final residual = 2.6255614e-09, No Iterations 1
min(b) = 6.1519118e-05
Combustion progress = 0.012561296%
DILUPBiCGStab:  Solving for Xi, Initial residual = 1.5597536e-05, Final residual = 4.6097417e-09, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0010355554, Final residual = 7.0430115e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0027753395, Final residual = 9.450412e-08, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0020706768, Final residual = 8.2233578e-08, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.00069164597, Final residual = 6.8545016e-08, No Iterations 2
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 8.1999102e-05, global = -8.8896902e-07, cumulative = -0.00017637303
DILUPBiCGStab:  Solving for epsilon, Initial residual = 8.9051593e-05, Final residual = 3.7964517e-09, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.00021527534, Final residual = 4.0516251e-08, No Iterations 1

ExecutionTime = 7.5 s

Courant Number mean: 0.00017284056 max: 0.087163758
deltaT = 0.00012649573


Time = 0.0102598
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 3886.0931
Open fraction = 0.9896812
StCorr = 1
St courant Number mean: 1.4071775e-05 max: 0.11549411
Igniting cell 517 state : 6.1519118e-05 16.145126 0.45920118 0.22604072
DILUPBiCGStab:  Solving for b, Initial residual = 0.00018925089, Final residual = 6.3552326e-08, No Iterations 1
min(b) = 6.0206726e-05
Combustion progress = 0.012770358%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.00043279067, Final residual = 1.4493959e-07, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00080268898, Final residual = 5.2993007e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.035338493, Final residual = 2.0074128e-10, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.025998973, Final residual = 7.5085326e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.031558561, Final residual = 5.3893045e-05, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 7.8516295e-05, global = -7.048587e-07, cumulative = -0.00017707789
StCorr = 1
St courant Number mean: 1.4254756e-05 max: 0.11690258
Igniting cell 517 state : 6.0206726e-05 16.344721 0.45928214 0.22920647
DILUPBiCGStab:  Solving for b, Initial residual = 6.1833123e-06, Final residual = 1.8784413e-09, No Iterations 1
min(b) = 6.038458e-05
Combustion progress = 0.012772773%
DILUPBiCGStab:  Solving for Xi, Initial residual = 1.5647937e-05, Final residual = 2.4388002e-09, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0010352708, Final residual = 6.8760532e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0025069395, Final residual = 7.6613324e-08, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0018964681, Final residual = 6.6805071e-08, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.00064703424, Final residual = 2.7431689e-08, No Iterations 2
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 7.859396e-05, global = -7.0474245e-07, cumulative = -0.00017778263
DILUPBiCGStab:  Solving for epsilon, Initial residual = 8.5685356e-05, Final residual = 3.6267416e-09, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.00020533563, Final residual = 3.7504094e-08, No Iterations 1

ExecutionTime = 7.62 s

Courant Number mean: 0.00016787617 max: 0.091396922
deltaT = 0.00012024902


Time = 0.0103801
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 4222.3652
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 1.3633842e-05 max: 0.11116979
Igniting cell 517 state : 6.038458e-05 16.349607 0.4592321 0.22894393
DILUPBiCGStab:  Solving for b, Initial residual = 0.00018687651, Final residual = 5.8794713e-08, No Iterations 1
min(b) = 5.9159439e-05
Combustion progress = 0.012976851%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.00040811773, Final residual = 1.2565217e-07, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00079679601, Final residual = 4.5548676e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.033590671, Final residual = 8.700565e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.025045525, Final residual = 6.6351078e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.030509602, Final residual = 4.2813121e-05, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 7.5418689e-05, global = -5.3149269e-07, cumulative = -0.00017831412
StCorr = 1
St courant Number mean: 1.3803112e-05 max: 0.11244099
Igniting cell 517 state : 5.9159439e-05 16.539529 0.45927372 0.23190291
DILUPBiCGStab:  Solving for b, Initial residual = 7.0574197e-06, Final residual = 1.8673527e-09, No Iterations 1
min(b) = 5.9355081e-05
Combustion progress = 0.012978391%
DILUPBiCGStab:  Solving for Xi, Initial residual = 1.9094368e-05, Final residual = 2.2153362e-09, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0010102313, Final residual = 5.8836055e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0023017342, Final residual = 7.4993115e-08, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0017720209, Final residual = 6.3886581e-08, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.00061728267, Final residual = 1.7295652e-08, No Iterations 2
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 7.5479987e-05, global = -5.3138999e-07, cumulative = -0.00017884551
DILUPBiCGStab:  Solving for epsilon, Initial residual = 8.2729511e-05, Final residual = 3.5242464e-09, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.00019646131, Final residual = 3.5470492e-08, No Iterations 1

ExecutionTime = 7.76 s

Courant Number mean: 0.00016361384 max: 0.095778333
deltaT = 0.00011452288


Time = 0.0104946
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 4565.4661
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 1.3221429e-05 max: 0.10710565
Igniting cell 517 state : 5.9355081e-05 16.543297 0.45927497 0.2316449
DILUPBiCGStab:  Solving for b, Initial residual = 0.00018442607, Final residual = 5.4173489e-08, No Iterations 1
min(b) = 5.8210533e-05
Combustion progress = 0.013177069%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.00038615075, Final residual = 1.0963455e-07, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00082109625, Final residual = 4.5493977e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.031934318, Final residual = 7.7239932e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.024195038, Final residual = 6.0011165e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.029567503, Final residual = 3.4675799e-05, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 7.2613121e-05, global = -3.6837079e-07, cumulative = -0.00017921388
StCorr = 1
St courant Number mean: 1.3377836e-05 max: 0.1082676
Igniting cell 517 state : 5.8210533e-05 16.72385 0.45931117 0.23441293
DILUPBiCGStab:  Solving for b, Initial residual = 6.4974903e-06, Final residual = 1.6934169e-09, No Iterations 1
min(b) = 5.8396217e-05
Combustion progress = 0.013178629%
DILUPBiCGStab:  Solving for Xi, Initial residual = 1.5930437e-05, Final residual = 2.1833966e-09, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0010330348, Final residual = 5.5532073e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0021231408, Final residual = 7.5099573e-08, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0016659711, Final residual = 6.3403684e-08, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.00057484024, Final residual = 9.3644262e-07, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 7.2664232e-05, global = -3.6827994e-07, cumulative = -0.00017958216
DILUPBiCGStab:  Solving for epsilon, Initial residual = 8.0064301e-05, Final residual = 3.4772192e-09, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.00018857197, Final residual = 3.385394e-08, No Iterations 1

ExecutionTime = 7.89 s

Courant Number mean: 0.00015994271 max: 0.10025775
deltaT = 0.00010925746


Time = 0.0106039
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 4932.1089
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 1.2834075e-05 max: 0.10330381
Igniting cell 517 state : 5.8396217e-05 16.727179 0.45932192 0.23425425
DILUPBiCGStab:  Solving for b, Initial residual = 0.00018196208, Final residual = 4.935693e-08, No Iterations 1
min(b) = 5.7323367e-05
Combustion progress = 0.013372035%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.00036618867, Final residual = 9.628876e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00079890155, Final residual = 4.1017502e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.030394284, Final residual = 7.0881541e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.023420492, Final residual = 5.6237251e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.028701639, Final residual = 2.8445921e-05, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 7.0066508e-05, global = -2.1489997e-07, cumulative = -0.00017979706
StCorr = 1
St courant Number mean: 1.2977816e-05 max: 0.10435432
Igniting cell 517 state : 5.7323367e-05 16.898485 0.4593695 0.23667647
DILUPBiCGStab:  Solving for b, Initial residual = 7.389073e-06, Final residual = 2.1617446e-09, No Iterations 1
min(b) = 5.748305e-05
Combustion progress = 0.013374151%
DILUPBiCGStab:  Solving for Xi, Initial residual = 1.7015854e-05, Final residual = 1.9765832e-09, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0010387666, Final residual = 5.3977963e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0019584898, Final residual = 7.7900376e-08, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0015627967, Final residual = 6.4984206e-08, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.00055416828, Final residual = 8.8628351e-07, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 7.0103206e-05, global = -2.1481948e-07, cumulative = -0.00018001188
DILUPBiCGStab:  Solving for epsilon, Initial residual = 7.7672575e-05, Final residual = 3.4892581e-09, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.00018156366, Final residual = 3.2831462e-08, No Iterations 1

ExecutionTime = 8.01 s

Courant Number mean: 0.00015679683 max: 0.10474387
deltaT = 0.00010440157


Time = 0.0107083
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 5372.2869
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 1.2469582e-05 max: 0.099737347
Igniting cell 517 state : 5.748305e-05 16.901847 0.45934964 0.23676983
DILUPBiCGStab:  Solving for b, Initial residual = 0.00017952183, Final residual = 4.6119679e-08, No Iterations 1
min(b) = 5.6484365e-05
Combustion progress = 0.013563068%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.00034820568, Final residual = 8.458513e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00080314308, Final residual = 3.7429477e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.029037286, Final residual = 6.7748646e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.022751179, Final residual = 5.5048933e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.027722887, Final residual = 2.3629974e-05, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 6.7719748e-05, global = -7.0522395e-08, cumulative = -0.00018008241
StCorr = 1
St courant Number mean: 1.2602821e-05 max: 0.10069539
Igniting cell 517 state : 5.6484365e-05 17.066484 0.45939425 0.23916542
DILUPBiCGStab:  Solving for b, Initial residual = 5.7418196e-06, Final residual = 1.4812502e-09, No Iterations 1
min(b) = 5.6648152e-05
Combustion progress = 0.013564651%
DILUPBiCGStab:  Solving for Xi, Initial residual = 1.3087995e-05, Final residual = 1.4436876e-09, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0010198371, Final residual = 5.2709631e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0017964282, Final residual = 6.6193145e-08, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0014548657, Final residual = 5.7770964e-08, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0005071971, Final residual = 6.3132798e-07, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 6.7750683e-05, global = -7.0450984e-08, cumulative = -0.00018015286
DILUPBiCGStab:  Solving for epsilon, Initial residual = 7.561367e-05, Final residual = 3.5527081e-09, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.00017539967, Final residual = 3.2300112e-08, No Iterations 1

ExecutionTime = 8.13 s

Courant Number mean: 0.00015412944 max: 0.1090479
deltaT = 9.8848298e-05


Time = 0.0108071
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 5862.2298
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 1.1995162e-05 max: 0.095350727
Igniting cell 517 state : 5.6648152e-05 17.0689 0.45938373 0.23915144
DILUPBiCGStab:  Solving for b, Initial residual = 0.00017610888, Final residual = 4.2314811e-08, No Iterations 1
min(b) = 5.5696576e-05
Combustion progress = 0.01374723%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.00032810505, Final residual = 7.3186507e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00076810829, Final residual = 3.3037088e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.027466798, Final residual = 6.2432597e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.021858536, Final residual = 5.1517302e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.026491527, Final residual = 1.9014676e-05, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 6.490274e-05, global = 6.4380457e-08, cumulative = -0.00018008848
StCorr = 1
St courant Number mean: 1.2116563e-05 max: 0.096215013
Igniting cell 517 state : 5.5696576e-05 17.225051 0.45943732 0.24143926
DILUPBiCGStab:  Solving for b, Initial residual = 5.2450412e-06, Final residual = 1.3370801e-09, No Iterations 1
min(b) = 5.5808654e-05
Combustion progress = 0.013748917%
DILUPBiCGStab:  Solving for Xi, Initial residual = 1.2338128e-05, Final residual = 1.1791701e-09, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00097793627, Final residual = 3.9404684e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0016337058, Final residual = 8.0431377e-08, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0013455126, Final residual = 7.0075398e-08, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.00046448791, Final residual = 4.5593574e-07, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 6.4924464e-05, global = 6.444083e-08, cumulative = -0.00018002404
DILUPBiCGStab:  Solving for epsilon, Initial residual = 7.304797e-05, Final residual = 3.5477893e-09, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.00016813525, Final residual = 3.1285532e-08, No Iterations 1

ExecutionTime = 8.26 s

Courant Number mean: 0.00015029528 max: 0.11198809
deltaT = 9.4772079e-05


Time = 0.0109019
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 6410.4792
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 1.1676347e-05 max: 0.09225427
Igniting cell 517 state : 5.5808654e-05 17.226229 0.45942176 0.24122203
DILUPBiCGStab:  Solving for b, Initial residual = 0.00017371665, Final residual = 3.9489969e-08, No Iterations 1
min(b) = 5.4938881e-05
Combustion progress = 0.01392738%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.00031365028, Final residual = 6.6200043e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00078049026, Final residual = 3.1314374e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.026371486, Final residual = 6.1352419e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.021301524, Final residual = 5.1494137e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.025661737, Final residual = 1.6472919e-05, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 6.306455e-05, global = 1.8937142e-07, cumulative = -0.00017983466
StCorr = 1
St courant Number mean: 1.178932e-05 max: 0.093047672
Igniting cell 517 state : 5.4938881e-05 17.375722 0.45947211 0.24364075
DILUPBiCGStab:  Solving for b, Initial residual = 5.8025323e-06, Final residual = 1.3168561e-09, No Iterations 1
min(b) = 5.5086569e-05
Combustion progress = 0.013929144%
DILUPBiCGStab:  Solving for Xi, Initial residual = 1.3643605e-05, Final residual = 1.38437e-09, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00099706571, Final residual = 3.7666482e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0015315595, Final residual = 7.2660221e-08, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.001279962, Final residual = 6.7390285e-08, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.000440816, Final residual = 3.9721693e-07, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 6.3078544e-05, global = 1.8942573e-07, cumulative = -0.00017964524
DILUPBiCGStab:  Solving for epsilon, Initial residual = 7.1628221e-05, Final residual = 3.6922099e-09, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.00016341159, Final residual = 3.1508202e-08, No Iterations 1

ExecutionTime = 8.38 s

Courant Number mean: 0.00014863599 max: 0.11778681
deltaT = 8.9197251e-05


Time = 0.0109911
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 7022.6303
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 1.1150336e-05 max: 0.087582719
Igniting cell 517 state : 5.5086569e-05 17.377075 0.45945641 0.2435387
DILUPBiCGStab:  Solving for b, Initial residual = 0.00016950034, Final residual = 3.6330602e-08, No Iterations 1
min(b) = 5.4248502e-05
Combustion progress = 0.014100854%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.00029433137, Final residual = 5.7112775e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00079643816, Final residual = 3.0948674e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.024895884, Final residual = 5.9813619e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.020388814, Final residual = 5.1377537e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.024447863, Final residual = 1.3414593e-05, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 6.028475e-05, global = 3.006027e-07, cumulative = -0.00017934464
StCorr = 1
St courant Number mean: 1.1251516e-05 max: 0.088281189
Igniting cell 517 state : 5.4248502e-05 17.517226 0.45949764 0.24540045
DILUPBiCGStab:  Solving for b, Initial residual = 4.997091e-06, Final residual = 1.3145212e-09, No Iterations 1
min(b) = 5.4379603e-05
Combustion progress = 0.014102299%
DILUPBiCGStab:  Solving for Xi, Initial residual = 1.07721e-05, Final residual = 1.5848647e-09, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00099120297, Final residual = 3.8910272e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0014142028, Final residual = 1.0700656e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0012020652, Final residual = 9.2600683e-08, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.00040266739, Final residual = 2.9089814e-07, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 6.0288774e-05, global = 3.006469e-07, cumulative = -0.00017904399
DILUPBiCGStab:  Solving for epsilon, Initial residual = 6.9069826e-05, Final residual = 3.6612776e-09, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.00015617637, Final residual = 3.0613358e-08, No Iterations 1

ExecutionTime = 8.51 s

Courant Number mean: 0.00014451858 max: 0.12262507
deltaT = 8.4195536e-05


Time = 0.0110753
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 7704.6669
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 1.0670437e-05 max: 0.083340354
Igniting cell 517 state : 5.4379603e-05 17.518738 0.45948649 0.24533888
DILUPBiCGStab:  Solving for b, Initial residual = 0.00016543256, Final residual = 3.3328134e-08, No Iterations 1
min(b) = 5.3589422e-05
Combustion progress = 0.014267457%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.00027713182, Final residual = 5.011341e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00076209609, Final residual = 2.6452749e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.023638952, Final residual = 6.152762e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.019597875, Final residual = 5.3923093e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.02341396, Final residual = 1.1274001e-05, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 5.7920308e-05, global = 3.9898396e-07, cumulative = -0.00017864501
StCorr = 1
St courant Number mean: 1.0762041e-05 max: 0.083961381
Igniting cell 517 state : 5.3589422e-05 17.650916 0.45952464 0.24710607
DILUPBiCGStab:  Solving for b, Initial residual = 5.2908996e-06, Final residual = 1.3041634e-09, No Iterations 1
min(b) = 5.3701822e-05
Combustion progress = 0.01426897%
DILUPBiCGStab:  Solving for Xi, Initial residual = 9.6773113e-06, Final residual = 1.3655591e-09, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00097104555, Final residual = 3.225444e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0012860053, Final residual = 1.2938312e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0010971691, Final residual = 1.1198142e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.00037758368, Final residual = 2.9691195e-07, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 5.7918654e-05, global = 3.9902086e-07, cumulative = -0.00017824598
DILUPBiCGStab:  Solving for epsilon, Initial residual = 6.6950345e-05, Final residual = 3.6811092e-09, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.00015006619, Final residual = 3.016882e-08, No Iterations 1

ExecutionTime = 8.62 s

Courant Number mean: 0.00014110862 max: 0.12752044
deltaT = 7.8979884e-05


Time = 0.0111543
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 8444.1013
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 1.0140443e-05 max: 0.078768786
Igniting cell 517 state : 5.3701822e-05 17.652162 0.45950839 0.24706694
DILUPBiCGStab:  Solving for b, Initial residual = 0.0001606882, Final residual = 3.0393912e-08, No Iterations 1
min(b) = 5.2919578e-05
Combustion progress = 0.014426889%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.00025942046, Final residual = 4.3473616e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0007839683, Final residual = 2.3397817e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.022393121, Final residual = 6.5193025e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.018771022, Final residual = 5.8296297e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.022339363, Final residual = 9.4199429e-06, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 5.5458407e-05, global = 4.8178353e-07, cumulative = -0.0001777642
StCorr = 1
St courant Number mean: 1.022209e-05 max: 0.079313722
Igniting cell 517 state : 5.2919578e-05 17.77654 0.45954617 0.2487192
DILUPBiCGStab:  Solving for b, Initial residual = 4.8463151e-06, Final residual = 1.1260493e-09, No Iterations 1
min(b) = 5.3065041e-05
Combustion progress = 0.014427992%
DILUPBiCGStab:  Solving for Xi, Initial residual = 8.8050872e-06, Final residual = 1.1657601e-09, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0010260642, Final residual = 3.0113566e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0011808659, Final residual = 1.6785846e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0010203738, Final residual = 1.4252013e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.00034932555, Final residual = 2.0920048e-07, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 5.5449443e-05, global = 4.8181334e-07, cumulative = -0.00017728239
DILUPBiCGStab:  Solving for epsilon, Initial residual = 6.4663664e-05, Final residual = 3.6564552e-09, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.00014363771, Final residual = 2.9484843e-08, No Iterations 1

ExecutionTime = 8.75 s

Courant Number mean: 0.00013709882 max: 0.13134773
deltaT = 7.4963957e-05


Time = 0.0112292
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 9241.9442
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 9.7439491e-06 max: 0.075291762
Igniting cell 517 state : 5.3065041e-05 17.777677 0.45954252 0.24896228
DILUPBiCGStab:  Solving for b, Initial residual = 0.00015698579, Final residual = 2.83676e-08, No Iterations 1
min(b) = 5.2384859e-05
Combustion progress = 0.014580186%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.00024604026, Final residual = 3.8865283e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00075358281, Final residual = 2.2839442e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.02153894, Final residual = 7.3966924e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.018232156, Final residual = 6.7291545e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.021604476, Final residual = 8.3509198e-06, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 5.3784455e-05, global = 5.5798066e-07, cumulative = -0.00017672441
StCorr = 1
St courant Number mean: 9.8183155e-06 max: 0.075781549
Igniting cell 517 state : 5.2384859e-05 17.89535 0.45959254 0.25049293
DILUPBiCGStab:  Solving for b, Initial residual = 4.3996905e-06, Final residual = 1.0523928e-09, No Iterations 1
min(b) = 5.2545281e-05
Combustion progress = 0.014581273%
DILUPBiCGStab:  Solving for Xi, Initial residual = 8.4016323e-06, Final residual = 1.3781081e-09, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00096051162, Final residual = 2.7006271e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0011010966, Final residual = 1.9112165e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00095720513, Final residual = 1.6564174e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.00032974806, Final residual = 1.6331526e-07, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 5.3765479e-05, global = 5.580062e-07, cumulative = -0.0001761664
DILUPBiCGStab:  Solving for epsilon, Initial residual = 6.3368397e-05, Final residual = 3.765572e-09, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.00013943813, Final residual = 2.9765708e-08, No Iterations 1

ExecutionTime = 8.88 s

Courant Number mean: 0.00013493486 max: 0.13628627
deltaT = 7.0166264e-05


Time = 0.0112994
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 10103.955
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 9.2277385e-06 max: 0.070949556
Igniting cell 517 state : 5.2545281e-05 17.896382 0.45956803 0.25081761
DILUPBiCGStab:  Solving for b, Initial residual = 0.00015190733, Final residual = 2.5774045e-08, No Iterations 1
min(b) = 5.1888098e-05
Combustion progress = 0.01472618%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.00023006638, Final residual = 3.4012416e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00086347795, Final residual = 2.7015621e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.020465624, Final residual = 8.4178994e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.017468024, Final residual = 7.7725957e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.020625631, Final residual = 7.1080398e-06, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 5.1547299e-05, global = 6.1567208e-07, cumulative = -0.00017555073
StCorr = 1
St courant Number mean: 9.2935123e-06 max: 0.071372975
Igniting cell 517 state : 5.1888098e-05 18.006909 0.45961185 0.25222378
DILUPBiCGStab:  Solving for b, Initial residual = 5.0007831e-06, Final residual = 2.072684e-09, No Iterations 1
min(b) = 5.2079359e-05
Combustion progress = 0.014727331%
DILUPBiCGStab:  Solving for Xi, Initial residual = 9.7037112e-06, Final residual = 2.6358268e-09, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0010587085, Final residual = 3.3111253e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.001035855, Final residual = 1.1075251e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00091264024, Final residual = 9.5802979e-08, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.00032225284, Final residual = 2.4688535e-07, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 5.1518089e-05, global = 6.1569236e-07, cumulative = -0.00017493504
DILUPBiCGStab:  Solving for epsilon, Initial residual = 6.1355098e-05, Final residual = 3.7283255e-09, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.0001338062, Final residual = 2.9205801e-08, No Iterations 1

ExecutionTime = 9.01 s

Courant Number mean: 0.00013111707 max: 0.13907328
deltaT = 6.6416922e-05


Time = 0.0113658
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 10981.091
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 8.8317633e-06 max: 0.06758064
Igniting cell 517 state : 5.2079359e-05 18.008024 0.45958668 0.25254559
DILUPBiCGStab:  Solving for b, Initial residual = 0.00014785696, Final residual = 2.3686919e-08, No Iterations 1
min(b) = 5.141678e-05
Combustion progress = 0.014866668%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.00021782865, Final residual = 3.0122999e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00085691619, Final residual = 2.021154e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.019718686, Final residual = 7.4491211e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.016944897, Final residual = 6.843417e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.01993869, Final residual = 6.326566e-06, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 5.0016538e-05, global = 6.6918195e-07, cumulative = -0.00017426585
StCorr = 1
St courant Number mean: 8.8914868e-06 max: 0.067957416
Igniting cell 517 state : 5.141678e-05 18.112953 0.45961536 0.25388469
DILUPBiCGStab:  Solving for b, Initial residual = 4.8193632e-06, Final residual = 8.4203754e-10, No Iterations 1
min(b) = 5.1615522e-05
Combustion progress = 0.014867626%
DILUPBiCGStab:  Solving for Xi, Initial residual = 8.8608484e-06, Final residual = 6.650289e-10, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0010569703, Final residual = 2.7065152e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00096639917, Final residual = 2.1399141e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00085372203, Final residual = 1.8678373e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.00030125889, Final residual = 1.2581897e-07, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.9976764e-05, global = 6.6919915e-07, cumulative = -0.00017359666
DILUPBiCGStab:  Solving for epsilon, Initial residual = 6.0261757e-05, Final residual = 3.822346e-09, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.0001302592, Final residual = 2.9532504e-08, No Iterations 1

ExecutionTime = 9.14 s

Courant Number mean: 0.0001289877 max: 0.14297585
deltaT = 6.2566665e-05


Time = 0.0114284
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 11979.89
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 8.4075286e-06 max: 0.064034924
Igniting cell 517 state : 5.1615522e-05 18.113803 0.45960488 0.25382986
DILUPBiCGStab:  Solving for b, Initial residual = 0.00014331327, Final residual = 2.1733921e-08, No Iterations 1
min(b) = 5.1023293e-05
Combustion progress = 0.015001012%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.00020535605, Final residual = 2.7256044e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00082166366, Final residual = 2.6588955e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.01892687, Final residual = 8.5284578e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.016356699, Final residual = 7.9127688e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.019180554, Final residual = 5.5938058e-06, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.8349498e-05, global = 7.1040418e-07, cumulative = -0.00017288625
StCorr = 1
St courant Number mean: 8.461001e-06 max: 0.064369942
Igniting cell 517 state : 5.1023293e-05 18.212709 0.45962367 0.25531675
DILUPBiCGStab:  Solving for b, Initial residual = 4.8895335e-06, Final residual = 1.0636473e-09, No Iterations 1
min(b) = 5.1171931e-05
Combustion progress = 0.015001952%
DILUPBiCGStab:  Solving for Xi, Initial residual = 8.6967733e-06, Final residual = 8.8921582e-10, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0010251768, Final residual = 3.1092544e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00092751876, Final residual = 2.4649521e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00082737485, Final residual = 2.0917075e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.00029038928, Final residual = 1.158491e-07, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.8300401e-05, global = 7.1041828e-07, cumulative = -0.00017217583
DILUPBiCGStab:  Solving for epsilon, Initial residual = 5.9037685e-05, Final residual = 3.8632063e-09, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.0001265388, Final residual = 2.9385965e-08, No Iterations 1

ExecutionTime = 9.26 s

Courant Number mean: 0.00012643854 max: 0.14584893
deltaT = 5.952523e-05


Time = 0.0114879
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 13047.165
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 8.0790349e-06 max: 0.061256026
Igniting cell 517 state : 5.1171931e-05 18.213704 0.45962298 0.25536602
DILUPBiCGStab:  Solving for b, Initial residual = 0.00013969816, Final residual = 2.1368028e-08, No Iterations 1
min(b) = 5.0577347e-05
Combustion progress = 0.015130877%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.00019564959, Final residual = 2.5551436e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00082350569, Final residual = 2.2469402e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.018360915, Final residual = 2.7150075e-10, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.015937311, Final residual = 2.4342785e-10, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.018644305, Final residual = 5.1205813e-06, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.7246408e-05, global = 7.5030069e-07, cumulative = -0.00017142553
StCorr = 1
St courant Number mean: 8.1281715e-06 max: 0.061561571
Igniting cell 517 state : 5.0577347e-05 18.30825 0.45963464 0.25655057
DILUPBiCGStab:  Solving for b, Initial residual = 4.2307653e-06, Final residual = 1.8161446e-09, No Iterations 1
min(b) = 5.0694797e-05
Combustion progress = 0.015131833%
DILUPBiCGStab:  Solving for Xi, Initial residual = 7.349548e-06, Final residual = 2.100161e-09, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0010319244, Final residual = 2.3948658e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00087575742, Final residual = 1.1037011e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00078547277, Final residual = 9.793412e-08, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.00027659508, Final residual = 1.3931236e-07, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.7184897e-05, global = 7.5031285e-07, cumulative = -0.00017067522
DILUPBiCGStab:  Solving for epsilon, Initial residual = 5.8583261e-05, Final residual = 4.0204586e-09, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.00012446375, Final residual = 2.9906069e-08, No Iterations 1

ExecutionTime = 9.38 s

Courant Number mean: 0.00012531219 max: 0.1502916
deltaT = 5.600071e-05


Time = 0.0115439
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 14137.91
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 7.6733136e-06 max: 0.057926424
Igniting cell 517 state : 5.0694797e-05 18.309222 0.45963976 0.25660834
DILUPBiCGStab:  Solving for b, Initial residual = 0.00013504824, Final residual = 1.9890152e-08, No Iterations 1
min(b) = 5.0192929e-05
Combustion progress = 0.015254666%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.00018435292, Final residual = 2.2975698e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0008088121, Final residual = 1.5834428e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.017612143, Final residual = 3.5356314e-09, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.015330271, Final residual = 3.22267e-09, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.017935295, Final residual = 4.4571859e-06, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.5741239e-05, global = 7.7462477e-07, cumulative = -0.00016990059
StCorr = 1
St courant Number mean: 7.7172536e-06 max: 0.058197052
Igniting cell 517 state : 5.0192929e-05 18.398092 0.45965218 0.25767786
DILUPBiCGStab:  Solving for b, Initial residual = 4.8604017e-06, Final residual = 1.4376554e-09, No Iterations 1
min(b) = 5.0367942e-05
Combustion progress = 0.015255589%
DILUPBiCGStab:  Solving for Xi, Initial residual = 8.0645185e-06, Final residual = 1.7574789e-09, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.001030742, Final residual = 1.7673636e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00082973386, Final residual = 1.7029743e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00074065941, Final residual = 1.4584717e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0002676881, Final residual = 7.3330241e-08, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.5665623e-05, global = 7.7463468e-07, cumulative = -0.00016912596
DILUPBiCGStab:  Solving for epsilon, Initial residual = 5.7593323e-05, Final residual = 4.0496569e-09, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.00012132338, Final residual = 2.9753764e-08, No Iterations 1

ExecutionTime = 9.5 s

Courant Number mean: 0.00012294904 max: 0.15349026
deltaT = 5.285067e-05


Time = 0.0115967
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 15287.159
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 7.3072705e-06 max: 0.054931116
Igniting cell 517 state : 5.0367942e-05 18.398692 0.45966101 0.2576455
DILUPBiCGStab:  Solving for b, Initial residual = 0.00013074985, Final residual = 1.8522518e-08, No Iterations 1
min(b) = 4.9824923e-05
Combustion progress = 0.015373167%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.00017439157, Final residual = 2.1028365e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0007768862, Final residual = 1.7205315e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.016962907, Final residual = 6.1614655e-09, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.014779891, Final residual = 5.6376997e-09, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.017335915, Final residual = 3.9503497e-06, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.4487925e-05, global = 7.9402948e-07, cumulative = -0.00016833193
StCorr = 1
St courant Number mean: 7.3467643e-06 max: 0.055171089
Igniting cell 517 state : 4.9824923e-05 18.482037 0.45967776 0.25851389
DILUPBiCGStab:  Solving for b, Initial residual = 4.697845e-06, Final residual = 1.2088612e-09, No Iterations 1
min(b) = 4.9886561e-05
Combustion progress = 0.015373979%
DILUPBiCGStab:  Solving for Xi, Initial residual = 8.2807174e-06, Final residual = 1.3245655e-09, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00099988767, Final residual = 2.277358e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00080432635, Final residual = 2.4060651e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00072136401, Final residual = 2.0209897e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0002618522, Final residual = 7.0661351e-08, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.4413556e-05, global = 7.9403774e-07, cumulative = -0.00016753789
DILUPBiCGStab:  Solving for epsilon, Initial residual = 5.6900235e-05, Final residual = 4.1192148e-09, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.00011891145, Final residual = 2.9751052e-08, No Iterations 1

ExecutionTime = 9.63 s

Courant Number mean: 0.00012112565 max: 0.15706868
deltaT = 4.9723411e-05


Time = 0.0116465
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 16516.457
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 6.9338594e-06 max: 0.051914
Igniting cell 517 state : 4.9886561e-05 18.482949 0.45967677 0.25877446
DILUPBiCGStab:  Solving for b, Initial residual = 0.00012618716, Final residual = 1.7234112e-08, No Iterations 1
min(b) = 4.9445953e-05
Combustion progress = 0.015486344%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.0001645452, Final residual = 1.9168597e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00078750356, Final residual = 1.5169422e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.016313688, Final residual = 9.8373023e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.01421888, Final residual = 9.2369317e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.016718338, Final residual = 3.477388e-06, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.3208685e-05, global = 8.0455185e-07, cumulative = -0.00016673334
StCorr = 1
St courant Number mean: 6.969393e-06 max: 0.052129529
Igniting cell 517 state : 4.9445953e-05 18.561708 0.4596906 0.25998143
DILUPBiCGStab:  Solving for b, Initial residual = 3.9926028e-06, Final residual = 1.1560231e-09, No Iterations 1
min(b) = 4.9561678e-05
Combustion progress = 0.015487025%
DILUPBiCGStab:  Solving for Xi, Initial residual = 6.4392935e-06, Final residual = 1.3155683e-09, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0010073753, Final residual = 1.8763266e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00076257852, Final residual = 1.7201764e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00067906204, Final residual = 1.5022469e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.00024303506, Final residual = 6.828811e-08, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.3146031e-05, global = 8.0455866e-07, cumulative = -0.00016592878
DILUPBiCGStab:  Solving for epsilon, Initial residual = 5.6138553e-05, Final residual = 4.1615706e-09, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.00011641461, Final residual = 2.951299e-08, No Iterations 1

ExecutionTime = 9.76 s

Courant Number mean: 0.00011905739 max: 0.15967538
deltaT = 4.6929961e-05


Time = 0.0116934
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 17725.454
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 6.5975427e-06 max: 0.049202293
Igniting cell 517 state : 4.9561678e-05 18.561873 0.45969532 0.25981833
DILUPBiCGStab:  Solving for b, Initial residual = 0.00012200627, Final residual = 1.7366002e-08, No Iterations 1
min(b) = 4.909359e-05
Combustion progress = 0.015594569%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.00015585525, Final residual = 1.8730026e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00078772722, Final residual = 1.6595698e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.01574376, Final residual = 3.3753167e-10, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.013705318, Final residual = 2.9261224e-10, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.016199214, Final residual = 3.1201508e-06, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.2178596e-05, global = 8.1180971e-07, cumulative = -0.00016511697
StCorr = 1
St courant Number mean: 6.6297476e-06 max: 0.049396294
Igniting cell 517 state : 4.909359e-05 18.636186 0.45971236 0.26093642
DILUPBiCGStab:  Solving for b, Initial residual = 3.935761e-06, Final residual = 1.0903477e-09, No Iterations 1
min(b) = 4.919669e-05
Combustion progress = 0.015595299%
DILUPBiCGStab:  Solving for Xi, Initial residual = 6.5219978e-06, Final residual = 1.3474204e-09, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.001010338, Final residual = 1.8036818e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00073961609, Final residual = 2.9501334e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00065824746, Final residual = 2.5298579e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.00024208141, Final residual = 4.6076353e-08, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.2128687e-05, global = 8.1181541e-07, cumulative = -0.00016430516
DILUPBiCGStab:  Solving for epsilon, Initial residual = 5.5659389e-05, Final residual = 4.2367966e-09, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.00011451067, Final residual = 2.9406951e-08, No Iterations 1

ExecutionTime = 9.88 s

Courant Number mean: 0.000117477 max: 0.16225823
deltaT = 4.4184059e-05


Time = 0.0117376
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 19056.806
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 6.259734e-06 max: 0.046507327
Igniting cell 517 state : 4.919669e-05 18.636273 0.45971406 0.26051535
DILUPBiCGStab:  Solving for b, Initial residual = 0.00011767441, Final residual = 1.6439795e-08, No Iterations 1
min(b) = 4.8803802e-05
Combustion progress = 0.015697723%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.00014734147, Final residual = 1.778734e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00079563171, Final residual = 1.3982905e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.015173303, Final residual = 3.0732346e-10, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.013176645, Final residual = 2.6044314e-10, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.015674877, Final residual = 2.7823515e-06, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.1164937e-05, global = 8.1206363e-07, cumulative = -0.00016349309
StCorr = 1
St courant Number mean: 6.2882131e-06 max: 0.046675205
Igniting cell 517 state : 4.8803802e-05 18.705534 0.45973643 0.2611653
DILUPBiCGStab:  Solving for b, Initial residual = 3.0966157e-06, Final residual = 1.1602351e-09, No Iterations 1
min(b) = 4.8901236e-05
Combustion progress = 0.015698511%
DILUPBiCGStab:  Solving for Xi, Initial residual = 4.602307e-06, Final residual = 1.4453234e-09, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0010091474, Final residual = 1.7804839e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00070160301, Final residual = 2.6560254e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00061786771, Final residual = 2.2408879e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0002345223, Final residual = 4.2585715e-08, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.1123678e-05, global = 8.1206837e-07, cumulative = -0.00016268103
DILUPBiCGStab:  Solving for epsilon, Initial residual = 5.5117805e-05, Final residual = 4.284414e-09, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.00011254734, Final residual = 2.9194364e-08, No Iterations 1

ExecutionTime = 10 s

Courant Number mean: 0.00011569558 max: 0.1633712
deltaT = 4.1941214e-05


Time = 0.0117795
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 20425.71
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 5.9856833e-06 max: 0.044312496
Igniting cell 517 state : 4.8901236e-05 18.706092 0.45972889 0.26113311
DILUPBiCGStab:  Solving for b, Initial residual = 0.00011413451, Final residual = 1.6029835e-08, No Iterations 1
min(b) = 4.8535521e-05
Combustion progress = 0.015797153%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.00014055159, Final residual = 1.7486095e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00076665994, Final residual = 9.9382971e-10, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0147656, Final residual = 3.2118133e-10, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.01277351, Final residual = 2.6920414e-10, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.015309725, Final residual = 2.5461288e-06, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.0578561e-05, global = 8.1456297e-07, cumulative = -0.00016186646
StCorr = 1
St courant Number mean: 6.0115631e-06 max: 0.044460934
Igniting cell 517 state : 4.8535521e-05 18.771774 0.45975153 0.26173566
DILUPBiCGStab:  Solving for b, Initial residual = 3.8615247e-06, Final residual = 1.0823867e-09, No Iterations 1
min(b) = 4.8627714e-05
Combustion progress = 0.015797932%
DILUPBiCGStab:  Solving for Xi, Initial residual = 6.5795383e-06, Final residual = 1.5950682e-09, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00098527676, Final residual = 1.4385665e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00071304525, Final residual = 2.6320211e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00062369314, Final residual = 2.1367998e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.00023863892, Final residual = 3.364325e-08, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.0543414e-05, global = 8.1456706e-07, cumulative = -0.0001610519
DILUPBiCGStab:  Solving for epsilon, Initial residual = 5.511269e-05, Final residual = 4.4369672e-09, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.00011170104, Final residual = 2.9491433e-08, No Iterations 1

ExecutionTime = 10.13 s

Courant Number mean: 0.00011491619 max: 0.16449341
deltaT = 4.0099892e-05


Time = 0.0118196
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 21856.622
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 5.7631287e-06 max: 0.042516548
Igniting cell 517 state : 4.8627714e-05 18.772287 0.45974174 0.26170139
DILUPBiCGStab:  Solving for b, Initial residual = 0.00011126671, Final residual = 1.6001082e-08, No Iterations 1
min(b) = 4.827712e-05
Combustion progress = 0.01589337%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.00013517246, Final residual = 1.7707016e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00075971829, Final residual = 1.3281649e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.014493681, Final residual = 3.3161251e-10, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.012467819, Final residual = 2.7185039e-10, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.015071302, Final residual = 2.3907986e-06, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.0353916e-05, global = 8.1938842e-07, cumulative = -0.00016023251
StCorr = 1
St courant Number mean: 5.7870537e-06 max: 0.042652216
Igniting cell 517 state : 4.827712e-05 18.835202 0.45976282 0.26252078
DILUPBiCGStab:  Solving for b, Initial residual = 3.5340676e-06, Final residual = 1.0363352e-09, No Iterations 1
min(b) = 4.8375281e-05
Combustion progress = 0.01589418%
DILUPBiCGStab:  Solving for Xi, Initial residual = 5.4442706e-06, Final residual = 1.2649702e-09, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.000961124, Final residual = 1.654414e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00068225173, Final residual = 2.9754182e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00059426585, Final residual = 2.3737989e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.00023896761, Final residual = 3.4484971e-08, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.0342504e-05, global = 8.1939204e-07, cumulative = -0.00015941311
DILUPBiCGStab:  Solving for epsilon, Initial residual = 5.5578883e-05, Final residual = 4.6936088e-09, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.00011180392, Final residual = 3.0216744e-08, No Iterations 1

ExecutionTime = 10.25 s

Courant Number mean: 0.00011499517 max: 0.165682
deltaT = 3.8405531e-05


Time = 0.011858
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 23336.762
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 5.5571423e-06 max: 0.040857379
Igniting cell 517 state : 4.8375281e-05 18.835472 0.45975359 0.26223327
DILUPBiCGStab:  Solving for b, Initial residual = 0.00010860691, Final residual = 1.5905732e-08, No Iterations 1
min(b) = 4.8037678e-05
Combustion progress = 0.015986684%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.00013029262, Final residual = 1.7494922e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00074790123, Final residual = 1.3267045e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.014263828, Final residual = 9.8510063e-09, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.012186354, Final residual = 9.0294389e-09, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.014885629, Final residual = 2.2283921e-06, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.0275183e-05, global = 8.2270202e-07, cumulative = -0.00015859041
StCorr = 1
St courant Number mean: 5.5790036e-06 max: 0.040980103
Igniting cell 517 state : 4.8037678e-05 18.895535 0.45977398 0.26274975
DILUPBiCGStab:  Solving for b, Initial residual = 2.6442501e-06, Final residual = 8.9385531e-10, No Iterations 1
min(b) = 4.818006e-05
Combustion progress = 0.015987345%
DILUPBiCGStab:  Solving for Xi, Initial residual = 4.0209632e-06, Final residual = 8.0021008e-10, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00095789945, Final residual = 1.9816427e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00065860183, Final residual = 2.435749e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00056953606, Final residual = 1.7850592e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.00023119592, Final residual = 2.8449513e-08, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.0292262e-05, global = 8.2270524e-07, cumulative = -0.00015776771
DILUPBiCGStab:  Solving for epsilon, Initial residual = 5.6209687e-05, Final residual = 4.9920371e-09, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.00011227496, Final residual = 3.0861603e-08, No Iterations 1

ExecutionTime = 10.37 s

Courant Number mean: 0.00011529827 max: 0.16643218
deltaT = 3.7008966e-05


Time = 0.011895
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 24840.777
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 5.3901485e-06 max: 0.039499629
Igniting cell 517 state : 4.818006e-05 18.895909 0.45976433 0.26273408
DILUPBiCGStab:  Solving for b, Initial residual = 0.00010646255, Final residual = 1.6127281e-08, No Iterations 1
min(b) = 4.7859184e-05
Combustion progress = 0.016077551%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.00012642778, Final residual = 1.8393961e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00077687241, Final residual = 1.132478e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.014093679, Final residual = 3.9789901e-10, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.011941637, Final residual = 3.2250375e-10, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.014771991, Final residual = 2.117829e-06, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.0480418e-05, global = 8.2851136e-07, cumulative = -0.0001569392
StCorr = 1
St courant Number mean: 5.4106844e-06 max: 0.039610951
Igniting cell 517 state : 4.7859184e-05 18.953726 0.45978536 0.2632181
DILUPBiCGStab:  Solving for b, Initial residual = 3.4555382e-06, Final residual = 3.1419207e-09, No Iterations 1
min(b) = 4.7903152e-05
Combustion progress = 0.016078239%
DILUPBiCGStab:  Solving for Xi, Initial residual = 5.3387711e-06, Final residual = 3.3298213e-09, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0010145337, Final residual = 1.7828229e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00065826689, Final residual = 1.7031482e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00056291749, Final residual = 1.4059545e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.00024368887, Final residual = 4.7912901e-08, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.0486661e-05, global = 8.2851429e-07, cumulative = -0.00015611068
DILUPBiCGStab:  Solving for epsilon, Initial residual = 5.7276024e-05, Final residual = 5.4065418e-09, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.00011357128, Final residual = 3.206305e-08, No Iterations 1

ExecutionTime = 10.5 s

Courant Number mean: 0.00011633406 max: 0.16774333
deltaT = 3.5548086e-05


Time = 0.0119306
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 26329.366
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 5.2102409e-06 max: 0.038059164
Igniting cell 517 state : 4.7903152e-05 18.954178 0.45977301 0.2631758
DILUPBiCGStab:  Solving for b, Initial residual = 0.00010419266, Final residual = 1.6197278e-08, No Iterations 1
min(b) = 4.7597218e-05
Combustion progress = 0.016166077%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.00012245974, Final residual = 1.8511673e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0008441026, Final residual = 1.4137881e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.013901259, Final residual = 4.4346752e-10, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.011660967, Final residual = 3.6162821e-10, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.014605644, Final residual = 1.9550752e-06, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.0565473e-05, global = 8.2946461e-07, cumulative = -0.00015528122
StCorr = 1
St courant Number mean: 5.2293958e-06 max: 0.038160135
Igniting cell 517 state : 4.7597218e-05 19.009658 0.45979196 0.26361003
DILUPBiCGStab:  Solving for b, Initial residual = 3.5148065e-06, Final residual = 1.5317428e-09, No Iterations 1
min(b) = 4.7697713e-05
Combustion progress = 0.01616682%
DILUPBiCGStab:  Solving for Xi, Initial residual = 5.6780913e-06, Final residual = 2.0314091e-09, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0010655798, Final residual = 1.5527699e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00063522379, Final residual = 4.2317902e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00053453021, Final residual = 3.1884129e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.00023669896, Final residual = 2.4805507e-08, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.0548288e-05, global = 8.2946725e-07, cumulative = -0.00015445175
DILUPBiCGStab:  Solving for epsilon, Initial residual = 5.824017e-05, Final residual = 5.8020269e-09, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.00011467803, Final residual = 3.3108866e-08, No Iterations 1

ExecutionTime = 10.62 s

Courant Number mean: 0.00011701142 max: 0.16818752
deltaT = 3.4337938e-05


Time = 0.0119649
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 27866.423
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 5.0640876e-06 max: 0.036873564
Igniting cell 517 state : 4.7697713e-05 19.009937 0.45977957 0.26359175
DILUPBiCGStab:  Solving for b, Initial residual = 0.00010230756, Final residual = 1.6418642e-08, No Iterations 1
min(b) = 4.740681e-05
Combustion progress = 0.01625281%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.00011924985, Final residual = 1.8979637e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00084526747, Final residual = 2.3686795e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.013787124, Final residual = 4.7150764e-10, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.011437535, Final residual = 3.8146035e-10, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.014496513, Final residual = 1.8436712e-06, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.0862428e-05, global = 8.330324e-07, cumulative = -0.00015361872
StCorr = 1
St courant Number mean: 5.0820348e-06 max: 0.036966845
Igniting cell 517 state : 4.740681e-05 19.063584 0.45979537 0.26400287
DILUPBiCGStab:  Solving for b, Initial residual = 4.0693605e-06, Final residual = 1.2185376e-09, No Iterations 1
min(b) = 4.7518731e-05
Combustion progress = 0.016253533%
DILUPBiCGStab:  Solving for Xi, Initial residual = 6.0565395e-06, Final residual = 1.6290186e-09, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0010514273, Final residual = 3.3127571e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00061340499, Final residual = 3.0693756e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00050909853, Final residual = 2.125452e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.00023910114, Final residual = 2.7667855e-08, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.0823207e-05, global = 8.3303483e-07, cumulative = -0.00015278568
DILUPBiCGStab:  Solving for epsilon, Initial residual = 5.9619586e-05, Final residual = 6.331705e-09, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.00011657817, Final residual = 3.4643695e-08, No Iterations 1

ExecutionTime = 10.74 s

Courant Number mean: 0.00011835608 max: 0.16915249
deltaT = 3.3202799e-05


Time = 0.0119981
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 29395.511
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 4.9262235e-06 max: 0.035758152
Igniting cell 517 state : 4.7518731e-05 19.063894 0.45978478 0.2640103
DILUPBiCGStab:  Solving for b, Initial residual = 0.00010045946, Final residual = 1.7013669e-08, No Iterations 1
min(b) = 4.7237292e-05
Combustion progress = 0.016337876%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.0001164039, Final residual = 1.9767412e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00082612196, Final residual = 1.7380732e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.013668589, Final residual = 6.3296907e-09, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.011201328, Final residual = 5.7185272e-09, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.01437217, Final residual = 1.7283806e-06, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.1184099e-05, global = 8.3570195e-07, cumulative = -0.00015194998
StCorr = 1
St courant Number mean: 4.9431439e-06 max: 0.035845349
Igniting cell 517 state : 4.7237292e-05 19.11599 0.45979624 0.2646477
DILUPBiCGStab:  Solving for b, Initial residual = 3.7353707e-06, Final residual = 9.0557207e-10, No Iterations 1
min(b) = 4.7366623e-05
Combustion progress = 0.016338496%
DILUPBiCGStab:  Solving for Xi, Initial residual = 5.2696909e-06, Final residual = 1.3871716e-09, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0010299593, Final residual = 1.4165515e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00061661784, Final residual = 3.3058213e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00050463837, Final residual = 2.3126773e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.00023960921, Final residual = 2.4839939e-08, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.1125312e-05, global = 8.3570418e-07, cumulative = -0.00015111428
DILUPBiCGStab:  Solving for epsilon, Initial residual = 6.1150898e-05, Final residual = 6.9234573e-09, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.00011875731, Final residual = 3.6688509e-08, No Iterations 1

ExecutionTime = 10.86 s

Courant Number mean: 0.00011983244 max: 0.1698829
deltaT = 3.2265624e-05


Time = 0.0120304
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 30884.301
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 4.8153671e-06 max: 0.034846765
Igniting cell 517 state : 4.7366623e-05 19.116455 0.45978932 0.26463924
DILUPBiCGStab:  Solving for b, Initial residual = 9.9119931e-05, Final residual = 1.7491448e-08, No Iterations 1
min(b) = 4.709789e-05
Combustion progress = 0.016421417%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.00011421151, Final residual = 2.0387232e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00082237324, Final residual = 1.7613028e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.013678874, Final residual = 5.8700362e-10, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.011053609, Final residual = 4.9238673e-10, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.014325625, Final residual = 1.6346027e-06, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.1723605e-05, global = 8.409767e-07, cumulative = -0.0001502733
StCorr = 1
St courant Number mean: 4.8313156e-06 max: 0.03492788
Igniting cell 517 state : 4.709789e-05 19.167168 0.45979817 0.26501721
DILUPBiCGStab:  Solving for b, Initial residual = 3.3305718e-06, Final residual = 1.3681749e-09, No Iterations 1
min(b) = 4.7237098e-05
Combustion progress = 0.01642206%
DILUPBiCGStab:  Solving for Xi, Initial residual = 5.1504478e-06, Final residual = 1.7632151e-09, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0010140192, Final residual = 1.4179486e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00062122563, Final residual = 3.0497304e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00049632652, Final residual = 2.0188586e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.00023808515, Final residual = 2.6627835e-08, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.1639529e-05, global = 8.409788e-07, cumulative = -0.00014943232
DILUPBiCGStab:  Solving for epsilon, Initial residual = 6.3130187e-05, Final residual = 7.6795669e-09, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.00012174046, Final residual = 3.8792083e-08, No Iterations 1

ExecutionTime = 10.99 s

Courant Number mean: 0.00012194604 max: 0.1709825
deltaT = 3.1253369e-05


Time = 0.0120616
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 32330.149
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 4.6910506e-06 max: 0.033846106
Igniting cell 517 state : 4.7237098e-05 19.167694 0.4597935 0.26508931
DILUPBiCGStab:  Solving for b, Initial residual = 9.755186e-05, Final residual = 1.7740449e-08, No Iterations 1
min(b) = 4.6990158e-05
Combustion progress = 0.016503451%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.00011167963, Final residual = 2.0279438e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00084590826, Final residual = 1.7927153e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.013587886, Final residual = 1.5157169e-08, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.010814313, Final residual = 1.1140315e-08, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.014210262, Final residual = 1.5144097e-06, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.2113311e-05, global = 8.4216288e-07, cumulative = -0.00014859016
StCorr = 1
St courant Number mean: 4.7062796e-06 max: 0.033921663
Igniting cell 517 state : 4.6990158e-05 19.216954 0.45979963 0.26568459
DILUPBiCGStab:  Solving for b, Initial residual = 3.2656992e-06, Final residual = 2.0208484e-09, No Iterations 1
min(b) = 4.7129258e-05
Combustion progress = 0.016504112%
DILUPBiCGStab:  Solving for Xi, Initial residual = 4.8578249e-06, Final residual = 1.5989638e-09, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0010404907, Final residual = 1.7992519e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0006016634, Final residual = 3.2540795e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00047113509, Final residual = 2.0510646e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.00023456287, Final residual = 1.9784579e-08, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.2006867e-05, global = 8.4216482e-07, cumulative = -0.00014774799
DILUPBiCGStab:  Solving for epsilon, Initial residual = 6.5004631e-05, Final residual = 8.4274116e-09, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.00012454473, Final residual = 4.0611465e-08, No Iterations 1

ExecutionTime = 11.11 s

Courant Number mean: 0.00012367953 max: 0.17114188
deltaT = 3.0415156e-05


Time = 0.0120921
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 33691.26
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 4.5910104e-06 max: 0.03302426
Igniting cell 517 state : 4.7129258e-05 19.217402 0.45979779 0.26545528
DILUPBiCGStab:  Solving for b, Initial residual = 9.6378493e-05, Final residual = 1.8598362e-08, No Iterations 1
min(b) = 4.6927997e-05
Combustion progress = 0.016584289%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.00010981802, Final residual = 2.1919766e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00079929716, Final residual = 2.0719492e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.013517556, Final residual = 6.733778e-10, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.010597029, Final residual = 5.5720315e-10, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.014142936, Final residual = 1.430774e-06, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.2698338e-05, global = 8.4596889e-07, cumulative = -0.00014690202
StCorr = 1
St courant Number mean: 4.6055435e-06 max: 0.033095127
Igniting cell 517 state : 4.6927997e-05 19.265292 0.45980328 0.26580281
DILUPBiCGStab:  Solving for b, Initial residual = 4.3213403e-06, Final residual = 2.2186166e-09, No Iterations 1
min(b) = 4.7114696e-05
Combustion progress = 0.01658503%
DILUPBiCGStab:  Solving for Xi, Initial residual = 6.058545e-06, Final residual = 2.5309077e-09, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0010441321, Final residual = 1.7215669e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00062921455, Final residual = 1.9094674e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00048588669, Final residual = 1.2837785e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.00025506446, Final residual = 3.0717637e-08, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.2581433e-05, global = 8.4597072e-07, cumulative = -0.00014605605
DILUPBiCGStab:  Solving for epsilon, Initial residual = 6.7302432e-05, Final residual = 9.3505793e-09, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.0001281281, Final residual = 4.3007885e-08, No Iterations 1

ExecutionTime = 11.24 s

Courant Number mean: 0.00012601842 max: 0.1715592
deltaT = 2.9617755e-05


Time = 0.0121217
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 34928.65
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 4.4955999e-06 max: 0.032240902
Igniting cell 517 state : 4.7114696e-05 19.265827 0.45980113 0.26602588
DILUPBiCGStab:  Solving for b, Initial residual = 9.5276363e-05, Final residual = 1.9218843e-08, No Iterations 1
min(b) = 4.6877058e-05
Combustion progress = 0.016664096%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.00010803272, Final residual = 2.2678159e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00081353093, Final residual = 1.8004554e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.013494745, Final residual = 7.1218315e-10, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.010422121, Final residual = 5.0337717e-10, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.014070232, Final residual = 1.3257153e-06, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.3273269e-05, global = 8.4915874e-07, cumulative = -0.0001452069
StCorr = 1
St courant Number mean: 4.5093871e-06 max: 0.03230724
Igniting cell 517 state : 4.6877058e-05 19.312776 0.45980571 0.26659115
DILUPBiCGStab:  Solving for b, Initial residual = 4.2208122e-06, Final residual = 1.1915751e-09, No Iterations 1
min(b) = 4.6945364e-05
Combustion progress = 0.016664665%
DILUPBiCGStab:  Solving for Xi, Initial residual = 6.0155086e-06, Final residual = 1.5604127e-09, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0010331763, Final residual = 2.0905496e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00061437387, Final residual = 2.6248301e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00046963307, Final residual = 1.6350329e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0002503587, Final residual = 2.0184913e-08, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.3135989e-05, global = 8.4916047e-07, cumulative = -0.00014435773
DILUPBiCGStab:  Solving for epsilon, Initial residual = 6.9775563e-05, Final residual = 1.0337411e-08, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.00013201072, Final residual = 4.5579629e-08, No Iterations 1

ExecutionTime = 11.36 s

Courant Number mean: 0.00012843116 max: 0.17342353
deltaT = 2.8753003e-05


Time = 0.0121504
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 36090.957
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 4.3880147e-06 max: 0.031376004
Igniting cell 517 state : 4.6945364e-05 19.313287 0.45980481 0.26636119
DILUPBiCGStab:  Solving for b, Initial residual = 9.4092444e-05, Final residual = 1.9675931e-08, No Iterations 1
min(b) = 4.6704083e-05
Combustion progress = 0.016742425%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.00010626051, Final residual = 2.3095798e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00081719907, Final residual = 2.6489856e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.013367032, Final residual = 6.9038497e-10, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.010181774, Final residual = 5.3601989e-10, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.013926016, Final residual = 1.2121541e-06, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.3678366e-05, global = 8.4866221e-07, cumulative = -0.00014350907
StCorr = 1
St courant Number mean: 4.4010363e-06 max: 0.031438666
Igniting cell 517 state : 4.6704083e-05 19.359086 0.45980939 0.26691304
DILUPBiCGStab:  Solving for b, Initial residual = 3.9696909e-06, Final residual = 2.3386388e-09, No Iterations 1
min(b) = 4.6854522e-05
Combustion progress = 0.016743071%
DILUPBiCGStab:  Solving for Xi, Initial residual = 5.172672e-06, Final residual = 3.3947474e-09, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0010228966, Final residual = 3.2349847e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00059079758, Final residual = 2.1337366e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0004473932, Final residual = 1.2276184e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.00024770655, Final residual = 2.087229e-08, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.3504379e-05, global = 8.4866384e-07, cumulative = -0.00014266041
DILUPBiCGStab:  Solving for epsilon, Initial residual = 7.2147887e-05, Final residual = 1.1229634e-08, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.00013574476, Final residual = 4.7857083e-08, No Iterations 1

ExecutionTime = 11.48 s

Courant Number mean: 0.0001304313 max: 0.17792204
deltaT = 2.7446048e-05


Time = 0.0121779
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 37118.865
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 4.2107092e-06 max: 0.030021205
Igniting cell 517 state : 4.6854522e-05 19.359624 0.45980763 0.26692695
DILUPBiCGStab:  Solving for b, Initial residual = 9.138392e-05, Final residual = 2.0440464e-08, No Iterations 1
min(b) = 4.6632192e-05
Combustion progress = 0.016818168%
DILUPBiCGStab:  Solving for Xi, Initial residual = 0.00010228469, Final residual = 2.4648539e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00078294561, Final residual = 1.4742552e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.012936079, Final residual = 6.4550194e-10, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0097275725, Final residual = 5.3472703e-10, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.013536465, Final residual = 1.0612303e-06, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.3360755e-05, global = 8.3282709e-07, cumulative = -0.00014182758
StCorr = 1
St courant Number mean: 4.2226157e-06 max: 0.03007785
Igniting cell 517 state : 4.6632192e-05 19.403509 0.45981173 0.26725542
DILUPBiCGStab:  Solving for b, Initial residual = 2.8365928e-06, Final residual = 1.762445e-09, No Iterations 1
min(b) = 4.6779638e-05
Combustion progress = 0.016818866%
DILUPBiCGStab:  Solving for Xi, Initial residual = 3.9866092e-06, Final residual = 2.1784728e-09, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00098425785, Final residual = 1.6056773e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0005572486, Final residual = 1.3000934e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0004113936, Final residual = 7.4450859e-08, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.00024365866, Final residual = 1.8194717e-08, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.3168905e-05, global = 8.3282853e-07, cumulative = -0.00014099475
DILUPBiCGStab:  Solving for epsilon, Initial residual = 7.327765e-05, Final residual = 1.1513948e-08, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.00013728212, Final residual = 4.8162927e-08, No Iterations 1

ExecutionTime = 11.6 s

Courant Number mean: 0.00013025113 max: 0.17943682
deltaT = 2.6160949e-05


Time = 0.012204
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 38004.544
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 4.0340222e-06 max: 0.028679895
Igniting cell 517 state : 4.6779638e-05 19.404017 0.4598108 0.26725055
DILUPBiCGStab:  Solving for b, Initial residual = 8.8699917e-05, Final residual = 1.9442849e-08, No Iterations 1
min(b) = 4.6561449e-05
Combustion progress = 0.016891574%
DILUPBiCGStab:  Solving for Xi, Initial residual = 9.8491968e-05, Final residual = 2.2830722e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00078298177, Final residual = 1.5719972e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.012520111, Final residual = 9.8926798e-09, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0093082016, Final residual = 6.9481624e-09, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.013165401, Final residual = 9.1412205e-07, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.301726e-05, global = 8.1477162e-07, cumulative = -0.00014017998
StCorr = 1
St courant Number mean: 4.0448735e-06 max: 0.028732085
Igniting cell 517 state : 4.6561449e-05 19.446078 0.45981481 0.26763822
DILUPBiCGStab:  Solving for b, Initial residual = 3.0886477e-06, Final residual = 1.5997124e-09, No Iterations 1
min(b) = 4.6700829e-05
Combustion progress = 0.016892209%
DILUPBiCGStab:  Solving for Xi, Initial residual = 4.0071402e-06, Final residual = 2.1339833e-09, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0010147814, Final residual = 1.2595595e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00054810709, Final residual = 1.7065897e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00040201221, Final residual = 9.607801e-08, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.00024022106, Final residual = 1.4795423e-08, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.2804663e-05, global = 8.1477291e-07, cumulative = -0.00013936521
DILUPBiCGStab:  Solving for epsilon, Initial residual = 7.4229483e-05, Final residual = 1.170394e-08, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.00013865395, Final residual = 4.8195358e-08, No Iterations 1

ExecutionTime = 11.73 s

Courant Number mean: 0.00012989889 max: 0.18068648
deltaT = 2.4907229e-05


Time = 0.0122289
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 38752.425
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 3.8593655e-06 max: 0.027362827
Igniting cell 517 state : 4.6700829e-05 19.446306 0.4598143 0.26752022
DILUPBiCGStab:  Solving for b, Initial residual = 8.6093919e-05, Final residual = 1.8592215e-08, No Iterations 1
min(b) = 4.6495444e-05
Combustion progress = 0.016962272%
DILUPBiCGStab:  Solving for Xi, Initial residual = 9.4877476e-05, Final residual = 2.1544301e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00076830586, Final residual = 1.1245907e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.012101935, Final residual = 2.045567e-08, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0089044174, Final residual = 1.548331e-08, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.012807597, Final residual = 7.7825991e-07, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.265501e-05, global = 7.9494459e-07, cumulative = -0.00013857026
StCorr = 1
St courant Number mean: 3.8692484e-06 max: 0.027409869
Igniting cell 517 state : 4.6495444e-05 19.48627 0.4598197 0.26783393
DILUPBiCGStab:  Solving for b, Initial residual = 3.4171298e-06, Final residual = 1.1372732e-09, No Iterations 1
min(b) = 4.6619728e-05
Combustion progress = 0.016963093%
DILUPBiCGStab:  Solving for Xi, Initial residual = 4.2587624e-06, Final residual = 1.3074353e-09, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00095747372, Final residual = 1.6643383e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00052688952, Final residual = 1.7267526e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00037972888, Final residual = 1.1433461e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.00023726076, Final residual = 1.3799639e-08, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.2433899e-05, global = 7.9494574e-07, cumulative = -0.00013777532
DILUPBiCGStab:  Solving for epsilon, Initial residual = 7.4996349e-05, Final residual = 1.1818797e-08, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.00013988708, Final residual = 4.8066471e-08, No Iterations 1

ExecutionTime = 11.85 s

Courant Number mean: 0.00012940552 max: 0.18173417
deltaT = 2.3764696e-05


Time = 0.0122527
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 39321.827
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 3.6996748e-06 max: 0.026161917
Igniting cell 517 state : 4.6619728e-05 19.486746 0.45981593 0.26783774
DILUPBiCGStab:  Solving for b, Initial residual = 8.3713847e-05, Final residual = 1.7754509e-08, No Iterations 1
min(b) = 4.6422562e-05
Combustion progress = 0.017030909%
DILUPBiCGStab:  Solving for Xi, Initial residual = 9.1695119e-05, Final residual = 2.04006e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00076832943, Final residual = 1.4483141e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.011720549, Final residual = 1.701151e-08, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0085568046, Final residual = 1.3285996e-08, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.01249704, Final residual = 6.7250792e-07, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.2425682e-05, global = 7.7613637e-07, cumulative = -0.00013699918
StCorr = 1
St courant Number mean: 3.7087178e-06 max: 0.026203723
Igniting cell 517 state : 4.6422562e-05 19.525088 0.45982091 0.26814341
DILUPBiCGStab:  Solving for b, Initial residual = 3.6065837e-06, Final residual = 1.2011868e-09, No Iterations 1
min(b) = 4.6538857e-05
Combustion progress = 0.017031643%
DILUPBiCGStab:  Solving for Xi, Initial residual = 5.031803e-06, Final residual = 1.474095e-09, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00098468307, Final residual = 2.0202731e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00049077481, Final residual = 2.1962499e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00035511497, Final residual = 1.1809332e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.00024123509, Final residual = 1.2318839e-08, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.2193851e-05, global = 7.7613741e-07, cumulative = -0.00013622304
DILUPBiCGStab:  Solving for epsilon, Initial residual = 7.5851071e-05, Final residual = 1.1951226e-08, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.00014143048, Final residual = 4.7929338e-08, No Iterations 1

ExecutionTime = 11.97 s

Courant Number mean: 0.00012918945 max: 0.18313149
deltaT = 2.2652897e-05


Time = 0.0122754
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 39797.994
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 3.542583e-06 max: 0.024986143
Igniting cell 517 state : 4.6538857e-05 19.525427 0.45981765 0.26809052
DILUPBiCGStab:  Solving for b, Initial residual = 8.1313869e-05, Final residual = 1.7259744e-08, No Iterations 1
min(b) = 4.6349485e-05
Combustion progress = 0.017097202%
DILUPBiCGStab:  Solving for Xi, Initial residual = 8.8544388e-05, Final residual = 1.9199615e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00073752054, Final residual = 1.162703e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.011283619, Final residual = 1.5057836e-08, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0082038979, Final residual = 1.1767582e-08, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.012185651, Final residual = 5.9090746e-07, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.2184711e-05, global = 7.5604843e-07, cumulative = -0.000135467
StCorr = 1
St courant Number mean: 3.5507701e-06 max: 0.025024039
Igniting cell 517 state : 4.6349485e-05 19.561995 0.45982262 0.26834376
DILUPBiCGStab:  Solving for b, Initial residual = 3.0886658e-06, Final residual = 1.2598923e-09, No Iterations 1
min(b) = 4.6456453e-05
Combustion progress = 0.017097717%
DILUPBiCGStab:  Solving for Xi, Initial residual = 4.356041e-06, Final residual = 1.6874628e-09, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00097156617, Final residual = 1.2915236e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00050035348, Final residual = 2.3412695e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00036009182, Final residual = 1.267404e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.00023677375, Final residual = 1.0930026e-08, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.1946626e-05, global = 7.5604936e-07, cumulative = -0.00013471095
DILUPBiCGStab:  Solving for epsilon, Initial residual = 7.6534006e-05, Final residual = 1.2126558e-08, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.00014280121, Final residual = 4.7583115e-08, No Iterations 1

ExecutionTime = 12.09 s

Courant Number mean: 0.00012884727 max: 0.18432789
deltaT = 2.1637641e-05


Time = 0.012297
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 40224.683
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 3.3985359e-06 max: 0.023910074
Igniting cell 517 state : 4.6456453e-05 19.562353 0.45981892 0.26829146
DILUPBiCGStab:  Solving for b, Initial residual = 7.9149212e-05, Final residual = 1.7915653e-08, No Iterations 1
min(b) = 4.6277362e-05
Combustion progress = 0.017161112%
DILUPBiCGStab:  Solving for Xi, Initial residual = 8.5760577e-05, Final residual = 2.0846461e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00075155181, Final residual = 1.3746377e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.010776707, Final residual = 1.2925665e-08, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0078761959, Final residual = 1.0169597e-08, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.011903227, Final residual = 5.2694418e-07, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.2057781e-05, global = 7.3708455e-07, cumulative = -0.00013397386
StCorr = 1
St courant Number mean: 3.4060244e-06 max: 0.023944175
Igniting cell 517 state : 4.6277362e-05 19.597275 0.45982441 0.2684878
DILUPBiCGStab:  Solving for b, Initial residual = 2.9760622e-06, Final residual = 1.1316832e-09, No Iterations 1
min(b) = 4.6374115e-05
Combustion progress = 0.017161789%
DILUPBiCGStab:  Solving for Xi, Initial residual = 4.1281959e-06, Final residual = 1.4530538e-09, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00097694534, Final residual = 1.6210394e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00048162459, Final residual = 2.0157575e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00034702744, Final residual = 1.0989253e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.00023711386, Final residual = 1.008951e-08, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.1797623e-05, global = 7.3708539e-07, cumulative = -0.00013323678
DILUPBiCGStab:  Solving for epsilon, Initial residual = 7.7288452e-05, Final residual = 1.2126359e-08, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.00014437714, Final residual = 4.7384997e-08, No Iterations 1

ExecutionTime = 12.21 s

Courant Number mean: 0.00012875913 max: 0.18583729
deltaT = 2.0596258e-05


Time = 0.0123176
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 40610.753
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 3.2485867e-06 max: 0.022799548
Igniting cell 517 state : 4.6374115e-05 19.597588 0.4598191 0.26844424
DILUPBiCGStab:  Solving for b, Initial residual = 7.6805549e-05, Final residual = 1.7302514e-08, No Iterations 1
min(b) = 4.6203225e-05
Combustion progress = 0.017222977%
DILUPBiCGStab:  Solving for Xi, Initial residual = 8.2802661e-05, Final residual = 1.9762244e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00074804599, Final residual = 1.2910868e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.010280787, Final residual = 1.0665733e-08, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0075627357, Final residual = 8.5087018e-09, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.011598101, Final residual = 4.6389092e-07, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.1815277e-05, global = 7.1529301e-07, cumulative = -0.00013252148
StCorr = 1
St courant Number mean: 3.2553486e-06 max: 0.022829638
Igniting cell 517 state : 4.6203225e-05 19.630827 0.45982433 0.2685936
DILUPBiCGStab:  Solving for b, Initial residual = 3.0334544e-06, Final residual = 7.078209e-10, No Iterations 1
min(b) = 4.6291793e-05
Combustion progress = 0.017223619%
DILUPBiCGStab:  Solving for Xi, Initial residual = 4.0814313e-06, Final residual = 9.0804061e-10, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00099485274, Final residual = 1.430386e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00044731704, Final residual = 2.3036522e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00032623694, Final residual = 1.1799045e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.00023128973, Final residual = 9.4797476e-09, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.1538185e-05, global = 7.1529376e-07, cumulative = -0.00013180619
DILUPBiCGStab:  Solving for epsilon, Initial residual = 7.7674894e-05, Final residual = 1.1958471e-08, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.00014537629, Final residual = 4.6646108e-08, No Iterations 1

ExecutionTime = 12.33 s

Courant Number mean: 0.00012822523 max: 0.18670654
deltaT = 1.9648092e-05


Time = 0.0123372
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 40971.079
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 3.1115336e-06 max: 0.021786271
Igniting cell 517 state : 4.6291793e-05 19.631114 0.45981835 0.26855146
DILUPBiCGStab:  Solving for b, Initial residual = 7.4659479e-05, Final residual = 1.7788711e-08, No Iterations 1
min(b) = 4.6126855e-05
Combustion progress = 0.017282825%
DILUPBiCGStab:  Solving for Xi, Initial residual = 8.0158878e-05, Final residual = 2.1157598e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00076044501, Final residual = 1.6145338e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0098077888, Final residual = 8.4014521e-09, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0072567422, Final residual = 6.8101696e-09, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.011326398, Final residual = 4.1076661e-07, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.1680505e-05, global = 6.9490258e-07, cumulative = -0.00013111129
StCorr = 1
St courant Number mean: 3.1176409e-06 max: 0.021813454
Igniting cell 517 state : 4.6126855e-05 19.662812 0.45982274 0.26862701
DILUPBiCGStab:  Solving for b, Initial residual = 3.559203e-06, Final residual = 1.0290967e-09, No Iterations 1
min(b) = 4.6207935e-05
Combustion progress = 0.017283513%
DILUPBiCGStab:  Solving for Xi, Initial residual = 4.9176855e-06, Final residual = 1.1637533e-09, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00097178389, Final residual = 2.4847426e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00044909269, Final residual = 1.8504993e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00032959487, Final residual = 1.380507e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.00022757807, Final residual = 9.2490805e-09, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.1410573e-05, global = 6.9490326e-07, cumulative = -0.00013041638
DILUPBiCGStab:  Solving for epsilon, Initial residual = 7.8138426e-05, Final residual = 1.1821699e-08, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.00014662328, Final residual = 4.5779072e-08, No Iterations 1

ExecutionTime = 12.46 s

Courant Number mean: 0.00012796547 max: 0.19150347
deltaT = 1.8420086e-05


Time = 0.0123557
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 41317.241
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 2.9283241e-06 max: 0.020457299
Igniting cell 517 state : 4.6207935e-05 19.66316 0.45981674 0.26869053
DILUPBiCGStab:  Solving for b, Initial residual = 7.1507207e-05, Final residual = 1.6316532e-08, No Iterations 1
min(b) = 4.6055726e-05
Combustion progress = 0.017339664%
DILUPBiCGStab:  Solving for Xi, Initial residual = 7.6304379e-05, Final residual = 1.8774472e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00076659555, Final residual = 1.2934413e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0092346202, Final residual = 6.2778248e-09, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0068721451, Final residual = 5.2041774e-09, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.010883012, Final residual = 3.4526572e-07, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.0908831e-05, global = 6.6274206e-07, cumulative = -0.00012975364
StCorr = 1
St courant Number mean: 2.9337253e-06 max: 0.020480562
Igniting cell 517 state : 4.6055726e-05 19.69295 0.45982056 0.26880044
DILUPBiCGStab:  Solving for b, Initial residual = 2.9980637e-06, Final residual = 7.3178429e-10, No Iterations 1
min(b) = 4.613154e-05
Combustion progress = 0.017340329%
DILUPBiCGStab:  Solving for Xi, Initial residual = 3.9819911e-06, Final residual = 9.2395749e-10, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00096748894, Final residual = 1.2159086e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00041480214, Final residual = 2.606806e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00030499721, Final residual = 1.4407564e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.00022165353, Final residual = 7.846668e-09, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.0657411e-05, global = 6.6274266e-07, cumulative = -0.0001290909
DILUPBiCGStab:  Solving for epsilon, Initial residual = 7.7086964e-05, Final residual = 1.1106964e-08, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.00014514288, Final residual = 4.2464242e-08, No Iterations 1

ExecutionTime = 12.58 s

Courant Number mean: 0.0001255666 max: 0.19426481
deltaT = 1.7139767e-05


Time = 0.0123728
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 41651.881
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 2.734753e-06 max: 0.019064087
Igniting cell 517 state : 4.613154e-05 19.693203 0.45981436 0.26873953
DILUPBiCGStab:  Solving for b, Initial residual = 6.8015011e-05, Final residual = 1.5434e-08, No Iterations 1
min(b) = 4.5986869e-05
Combustion progress = 0.017393372%
DILUPBiCGStab:  Solving for Xi, Initial residual = 7.2094237e-05, Final residual = 1.7967662e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00083296432, Final residual = 1.1845279e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0086408968, Final residual = 4.476697e-09, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0064645135, Final residual = 3.7763189e-09, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.010405914, Final residual = 2.9429322e-07, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 3.9991965e-05, global = 6.2657097e-07, cumulative = -0.00012846433
StCorr = 1
St courant Number mean: 2.7394066e-06 max: 0.019083754
Igniting cell 517 state : 4.5986869e-05 19.720946 0.45981694 0.26882755
DILUPBiCGStab:  Solving for b, Initial residual = 3.6929286e-06, Final residual = 8.3314023e-10, No Iterations 1
min(b) = 4.6059612e-05
Combustion progress = 0.01739397%
DILUPBiCGStab:  Solving for Xi, Initial residual = 4.9146932e-06, Final residual = 1.1066238e-09, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.001070332, Final residual = 1.998986e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00040309708, Final residual = 3.3676789e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00029818648, Final residual = 1.9249319e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.00021639615, Final residual = 6.2109576e-09, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 3.9736023e-05, global = 6.2657147e-07, cumulative = -0.00012783776
DILUPBiCGStab:  Solving for epsilon, Initial residual = 7.5291475e-05, Final residual = 1.014958e-08, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.00014242336, Final residual = 3.8463088e-08, No Iterations 1

ExecutionTime = 12.7 s

Courant Number mean: 0.00012242117 max: 0.19567292
deltaT = 1.5956477e-05


Time = 0.0123888
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 42059.518
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 2.5546984e-06 max: 0.017772093
Igniting cell 517 state : 4.6059612e-05 19.72115 0.45981175 0.26873289
DILUPBiCGStab:  Solving for b, Initial residual = 6.4746081e-05, Final residual = 1.4690023e-08, No Iterations 1
min(b) = 4.592701e-05
Combustion progress = 0.017444036%
DILUPBiCGStab:  Solving for Xi, Initial residual = 6.8315389e-05, Final residual = 1.7135972e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00081552042, Final residual = 1.2257595e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.008101029, Final residual = 1.2673335e-09, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0060920746, Final residual = 9.7173448e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0099879295, Final residual = 2.5090643e-07, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 3.9306056e-05, global = 5.9194595e-07, cumulative = -0.00012724581
StCorr = 1
St courant Number mean: 2.5587204e-06 max: 0.017788742
Igniting cell 517 state : 4.592701e-05 19.746893 0.45981392 0.26872943
DILUPBiCGStab:  Solving for b, Initial residual = 2.5862694e-06, Final residual = 1.3850604e-09, No Iterations 1
min(b) = 4.5992063e-05
Combustion progress = 0.017444627%
DILUPBiCGStab:  Solving for Xi, Initial residual = 3.4339795e-06, Final residual = 1.571238e-09, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0010197334, Final residual = 1.3576009e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00039417349, Final residual = 2.7578191e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00029094967, Final residual = 1.6535947e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.00020061514, Final residual = 5.2540598e-09, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 3.9052011e-05, global = 5.9194639e-07, cumulative = -0.00012665386
DILUPBiCGStab:  Solving for epsilon, Initial residual = 7.3380328e-05, Final residual = 9.287766e-09, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.0001396983, Final residual = 3.4456977e-08, No Iterations 1

ExecutionTime = 12.82 s

Courant Number mean: 0.00011961761 max: 0.19719493
deltaT = 1.4836724e-05


Time = 0.0124036
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 42558.836
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 2.3831249e-06 max: 0.016546317
Igniting cell 517 state : 4.5992063e-05 19.747111 0.45980832 0.26872852
DILUPBiCGStab:  Solving for b, Initial residual = 6.1597769e-05, Final residual = 1.3835849e-08, No Iterations 1
min(b) = 4.5868488e-05
Combustion progress = 0.017491883%
DILUPBiCGStab:  Solving for Xi, Initial residual = 6.4657843e-05, Final residual = 1.6226822e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.000816256, Final residual = 1.3741923e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0075914799, Final residual = 1.1922816e-09, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0057383404, Final residual = 9.6875982e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0095919656, Final residual = 2.1131474e-07, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 3.8670772e-05, global = 5.5792514e-07, cumulative = -0.00012609594
StCorr = 1
St courant Number mean: 2.3866348e-06 max: 0.016560374
Igniting cell 517 state : 4.5868488e-05 19.771078 0.45980951 0.26872849
DILUPBiCGStab:  Solving for b, Initial residual = 3.0778597e-06, Final residual = 1.0721847e-09, No Iterations 1
min(b) = 4.5930925e-05
Combustion progress = 0.017492493%
DILUPBiCGStab:  Solving for Xi, Initial residual = 4.2097552e-06, Final residual = 1.2186667e-09, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0010327695, Final residual = 1.3745873e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00039482359, Final residual = 2.7861113e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00029338711, Final residual = 1.78245e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.00020207733, Final residual = 4.429348e-09, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 3.8412334e-05, global = 5.5792551e-07, cumulative = -0.00012553801
DILUPBiCGStab:  Solving for epsilon, Initial residual = 7.1345854e-05, Final residual = 8.4724717e-09, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.00013674127, Final residual = 3.0185546e-08, No Iterations 1

ExecutionTime = 12.94 s

Courant Number mean: 0.00011682335 max: 0.19845
deltaT = 1.3786575e-05


Time = 0.0124174
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 43150.428
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 2.221211e-06 max: 0.015393429
Igniting cell 517 state : 4.5930925e-05 19.771257 0.45980452 0.26873072
DILUPBiCGStab:  Solving for b, Initial residual = 5.8570869e-05, Final residual = 1.2953301e-08, No Iterations 1
min(b) = 4.5818438e-05
Combustion progress = 0.017536979%
DILUPBiCGStab:  Solving for Xi, Initial residual = 6.1253481e-05, Final residual = 1.5166422e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00080059532, Final residual = 8.4006963e-10, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0071599827, Final residual = 2.3960306e-09, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0054391926, Final residual = 9.4474175e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0092240015, Final residual = 1.7667969e-07, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 3.8112082e-05, global = 5.2497012e-07, cumulative = -0.00012501304
StCorr = 1
St courant Number mean: 2.2241866e-06 max: 0.015404837
Igniting cell 517 state : 4.5818438e-05 19.793413 0.45980518 0.26866783
DILUPBiCGStab:  Solving for b, Initial residual = 3.0557544e-06, Final residual = 8.8449014e-10, No Iterations 1
min(b) = 4.5876111e-05
Combustion progress = 0.017537587%
DILUPBiCGStab:  Solving for Xi, Initial residual = 3.9286884e-06, Final residual = 1.0314342e-09, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0010013591, Final residual = 1.4509351e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00037628534, Final residual = 3.112714e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00027933458, Final residual = 1.9005999e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.00019685456, Final residual = 5.0321677e-09, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 3.7826548e-05, global = 5.2497044e-07, cumulative = -0.00012448807
DILUPBiCGStab:  Solving for epsilon, Initial residual = 6.920235e-05, Final residual = 7.5544558e-09, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.00013364716, Final residual = 2.6252824e-08, No Iterations 1

ExecutionTime = 13.06 s

Courant Number mean: 0.00011410582 max: 0.19969042
deltaT = 1.2808474e-05


Time = 0.0124302
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 43825.888
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 2.0695593e-06 max: 0.014317149
Igniting cell 517 state : 4.5876111e-05 19.793566 0.45980015 0.26865545
DILUPBiCGStab:  Solving for b, Initial residual = 5.5716171e-05, Final residual = 1.2469714e-08, No Iterations 1
min(b) = 4.5771208e-05
Combustion progress = 0.017579548%
DILUPBiCGStab:  Solving for Xi, Initial residual = 5.8103643e-05, Final residual = 1.4619302e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00077928793, Final residual = 1.8119151e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0067685243, Final residual = 1.9248198e-09, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0051663498, Final residual = 9.3342123e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0089025359, Final residual = 1.4841173e-07, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 3.7667987e-05, global = 4.9339864e-07, cumulative = -0.00012399467
StCorr = 1
St courant Number mean: 2.0720933e-06 max: 0.014326484
Igniting cell 517 state : 4.5771208e-05 19.814115 0.45980002 0.26857968
DILUPBiCGStab:  Solving for b, Initial residual = 2.7545701e-06, Final residual = 1.0915202e-09, No Iterations 1
min(b) = 4.5825483e-05
Combustion progress = 0.017580199%
DILUPBiCGStab:  Solving for Xi, Initial residual = 3.4777458e-06, Final residual = 1.1492755e-09, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00097117522, Final residual = 1.9883445e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00038186552, Final residual = 2.7202424e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0002837464, Final residual = 1.5186348e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.00019432869, Final residual = 3.3455221e-09, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 3.7378886e-05, global = 4.9339891e-07, cumulative = -0.00012350128
DILUPBiCGStab:  Solving for epsilon, Initial residual = 6.7029999e-05, Final residual = 5.7903134e-09, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.00013048415, Final residual = 2.2596864e-08, No Iterations 1

ExecutionTime = 13.19 s

Courant Number mean: 0.00011156548 max: 0.2012092
deltaT = 1.1883529e-05


Time = 0.0124421
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 44602.539
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 1.9253053e-06 max: 0.013296835
Igniting cell 517 state : 4.5825483e-05 19.814289 0.4597954 0.26857114
DILUPBiCGStab:  Solving for b, Initial residual = 5.2910057e-05, Final residual = 1.1079297e-08, No Iterations 1
min(b) = 4.5728065e-05
Combustion progress = 0.017619732%
DILUPBiCGStab:  Solving for Xi, Initial residual = 5.5015095e-05, Final residual = 1.2908633e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00076766883, Final residual = 9.8496215e-10, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0063885041, Final residual = 1.5684767e-09, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0048974558, Final residual = 9.1279489e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0086160814, Final residual = 1.2367162e-07, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 3.7299172e-05, global = 4.6268248e-07, cumulative = -0.00012303859
StCorr = 1
St courant Number mean: 1.9274787e-06 max: 0.013304611
Igniting cell 517 state : 4.5728065e-05 19.833364 0.45979455 0.26848456
DILUPBiCGStab:  Solving for b, Initial residual = 2.0425959e-06, Final residual = 7.6613561e-10, No Iterations 1
min(b) = 4.5782674e-05
Combustion progress = 0.017620271%
DILUPBiCGStab:  Solving for Xi, Initial residual = 2.7287854e-06, Final residual = 9.5478663e-10, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0010155001, Final residual = 1.3705402e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00036795057, Final residual = 2.1892047e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00027310549, Final residual = 1.7078355e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0001879853, Final residual = 3.0337815e-09, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 3.7035819e-05, global = 4.6268272e-07, cumulative = -0.00012257591
DILUPBiCGStab:  Solving for epsilon, Initial residual = 6.4872937e-05, Final residual = 5.2036032e-09, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.00012713448, Final residual = 1.979465e-08, No Iterations 1

ExecutionTime = 13.31 s

Courant Number mean: 0.00010906648 max: 0.20270007
deltaT = 1.1001345e-05


Time = 0.0124531
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 45448.098
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 1.786912e-06 max: 0.012320941
Igniting cell 517 state : 4.5782674e-05 19.833435 0.45979073 0.26840508
DILUPBiCGStab:  Solving for b, Initial residual = 5.0169695e-05, Final residual = 1.038965e-08, No Iterations 1
min(b) = 4.5692324e-05
Combustion progress = 0.017657391%
DILUPBiCGStab:  Solving for Xi, Initial residual = 5.206207e-05, Final residual = 1.2115658e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0007803774, Final residual = 8.5147928e-10, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0060292266, Final residual = 1.2195337e-09, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0046431448, Final residual = 8.7549725e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0083475034, Final residual = 1.0240321e-07, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 3.6937864e-05, global = 4.3257385e-07, cumulative = -0.00012214334
StCorr = 1
St courant Number mean: 1.7887758e-06 max: 0.012327624
Igniting cell 517 state : 4.5692324e-05 19.851006 0.45978939 0.26828167
DILUPBiCGStab:  Solving for b, Initial residual = 2.1956312e-06, Final residual = 1.3198493e-09, No Iterations 1
min(b) = 4.5744032e-05
Combustion progress = 0.017657934%
DILUPBiCGStab:  Solving for Xi, Initial residual = 2.7914703e-06, Final residual = 1.7225218e-09, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.000966427, Final residual = 8.2190065e-10, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00036844086, Final residual = 2.586656e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00027529317, Final residual = 2.0777455e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.00018369396, Final residual = 3.2212215e-09, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 3.6705499e-05, global = 4.3257405e-07, cumulative = -0.00012171076
DILUPBiCGStab:  Solving for epsilon, Initial residual = 6.2701814e-05, Final residual = 4.5944489e-09, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.00012355974, Final residual = 1.9403753e-08, No Iterations 1

ExecutionTime = 13.44 s

Courant Number mean: 0.00010648363 max: 0.20317953
deltaT = 1.0198545e-05


Time = 0.0124633
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 46376.693
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 1.660518e-06 max: 0.011431416
Igniting cell 517 state : 4.5744032e-05 19.851074 0.45978597 0.26823436
DILUPBiCGStab:  Solving for b, Initial residual = 4.766936e-05, Final residual = 1.0188172e-08, No Iterations 1
min(b) = 4.5661585e-05
Combustion progress = 0.017692901%
DILUPBiCGStab:  Solving for Xi, Initial residual = 4.9413429e-05, Final residual = 1.2202033e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.000743119, Final residual = 1.0735496e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0056953868, Final residual = 8.5250322e-10, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.004404201, Final residual = 8.4719333e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0081193755, Final residual = 8.5536955e-08, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 3.6753808e-05, global = 4.0466238e-07, cumulative = -0.0001213061
StCorr = 1
St courant Number mean: 1.6621008e-06 max: 0.011437039
Igniting cell 517 state : 4.5661585e-05 19.867269 0.45978427 0.26808287
DILUPBiCGStab:  Solving for b, Initial residual = 3.0008811e-06, Final residual = 6.3761687e-10, No Iterations 1
min(b) = 4.5709457e-05
Combustion progress = 0.017693455%
DILUPBiCGStab:  Solving for Xi, Initial residual = 3.7104735e-06, Final residual = 7.8946133e-10, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00095430751, Final residual = 1.8622899e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00038706749, Final residual = 2.4269272e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00029020295, Final residual = 1.9216854e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.00019535863, Final residual = 2.1935648e-09, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 3.6530875e-05, global = 4.0466255e-07, cumulative = -0.00012090144
DILUPBiCGStab:  Solving for epsilon, Initial residual = 6.0676432e-05, Final residual = 4.0490274e-09, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.00012035813, Final residual = 1.9860974e-08, No Iterations 1

ExecutionTime = 13.56 s

Courant Number mean: 0.00010421045 max: 0.20288874
deltaT = 9.5160662e-06


Time = 0.0124728
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 47394.906
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 1.5529492e-06 max: 0.010675003
Igniting cell 517 state : 4.5709457e-05 19.867359 0.45978107 0.2680688
DILUPBiCGStab:  Solving for b, Initial residual = 4.5546648e-05, Final residual = 9.2994678e-09, No Iterations 1
min(b) = 4.5631261e-05
Combustion progress = 0.017726666%
DILUPBiCGStab:  Solving for Xi, Initial residual = 4.7151192e-05, Final residual = 1.1093579e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00075703453, Final residual = 1.0661029e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0054641291, Final residual = 5.9440232e-10, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0042425097, Final residual = 8.4386183e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0079657305, Final residual = 7.2145554e-08, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 3.6860678e-05, global = 3.8076054e-07, cumulative = -0.00012052068
StCorr = 1
St courant Number mean: 1.5543327e-06 max: 0.010679856
Igniting cell 517 state : 4.5631261e-05 19.882465 0.45977893 0.26794127
DILUPBiCGStab:  Solving for b, Initial residual = 1.898612e-06, Final residual = 4.796681e-10, No Iterations 1
min(b) = 4.5678608e-05
Combustion progress = 0.017727166%
DILUPBiCGStab:  Solving for Xi, Initial residual = 2.5156376e-06, Final residual = 6.5732434e-10, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00098769705, Final residual = 1.4279471e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00035978649, Final residual = 2.159925e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00026837999, Final residual = 1.5908369e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.00018139871, Final residual = 2.1629489e-09, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 3.6616122e-05, global = 3.8076069e-07, cumulative = -0.00012013992
DILUPBiCGStab:  Solving for epsilon, Initial residual = 5.9069613e-05, Final residual = 4.4241531e-09, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.00011802763, Final residual = 2.0882027e-08, No Iterations 1

ExecutionTime = 13.69 s

Courant Number mean: 0.000102712 max: 0.20333191
deltaT = 8.8869048e-06


Time = 0.0124817
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 48489.932
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 1.4534744e-06 max: 0.0099767495
Igniting cell 517 state : 4.5678608e-05 19.882617 0.45977626 0.26800261
DILUPBiCGStab:  Solving for b, Initial residual = 4.357747e-05, Final residual = 9.4082529e-09, No Iterations 1
min(b) = 4.5607907e-05
Combustion progress = 0.01775861%
DILUPBiCGStab:  Solving for Xi, Initial residual = 4.5095729e-05, Final residual = 1.1386907e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00086365258, Final residual = 9.705929e-10, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0052068876, Final residual = 3.4105324e-10, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0040593187, Final residual = 8.674638e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0078149829, Final residual = 6.1868178e-08, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 3.699802e-05, global = 3.5836628e-07, cumulative = -0.00011978155
StCorr = 1
St courant Number mean: 1.454651e-06 max: 0.0099807955
Igniting cell 517 state : 4.5607907e-05 19.896743 0.45977396 0.26788939
DILUPBiCGStab:  Solving for b, Initial residual = 2.4350258e-06, Final residual = 5.7719104e-10, No Iterations 1
min(b) = 4.5653488e-05
Combustion progress = 0.017759214%
DILUPBiCGStab:  Solving for Xi, Initial residual = 3.0298415e-06, Final residual = 7.7718102e-10, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0010574117, Final residual = 1.3682832e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00033068496, Final residual = 2.2981572e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00024798291, Final residual = 1.868429e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.00018308727, Final residual = 1.8583229e-09, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 3.6735485e-05, global = 3.5836641e-07, cumulative = -0.00011942318
DILUPBiCGStab:  Solving for epsilon, Initial residual = 5.761242e-05, Final residual = 4.1207886e-09, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.00011577065, Final residual = 2.2100564e-08, No Iterations 1

ExecutionTime = 13.81 s

Courant Number mean: 0.00010138205 max: 0.20346683
deltaT = 8.3259374e-06


Time = 0.01249
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 49653.458
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 1.364606e-06 max: 0.0093536016
Igniting cell 517 state : 4.5653488e-05 19.89682 0.45977144 0.26788326
DILUPBiCGStab:  Solving for b, Initial residual = 4.1839615e-05, Final residual = 9.0814725e-09, No Iterations 1
min(b) = 4.5586677e-05
Combustion progress = 0.017789174%
DILUPBiCGStab:  Solving for Xi, Initial residual = 4.3302303e-05, Final residual = 1.1172211e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00081783932, Final residual = 6.3621399e-10, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0050072356, Final residual = 1.6213146e-10, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0039170939, Final residual = 8.663629e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0076928175, Final residual = 5.2351497e-08, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 3.7245212e-05, global = 3.381874e-07, cumulative = -0.000119085
StCorr = 1
St courant Number mean: 1.3656076e-06 max: 0.0093569612
Igniting cell 517 state : 4.5586677e-05 19.910037 0.4597689 0.26775866
DILUPBiCGStab:  Solving for b, Initial residual = 2.1662641e-06, Final residual = 8.0848877e-10, No Iterations 1
min(b) = 4.5632081e-05
Combustion progress = 0.017789683%
DILUPBiCGStab:  Solving for Xi, Initial residual = 2.6826454e-06, Final residual = 8.4476727e-10, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0010682955, Final residual = 1.1105322e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00034309355, Final residual = 2.080994e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00025581693, Final residual = 1.5385069e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.00020018815, Final residual = 1.7755891e-09, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 3.6952026e-05, global = 3.3818752e-07, cumulative = -0.00011874681
DILUPBiCGStab:  Solving for epsilon, Initial residual = 5.6324897e-05, Final residual = 3.8698777e-09, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.00011398973, Final residual = 2.3871178e-08, No Iterations 1

ExecutionTime = 13.94 s

Courant Number mean: 0.00010043358 max: 0.20363178
deltaT = 7.8147716e-06


Time = 0.0124978
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 50882.344
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 1.2834071e-06 max: 0.0087849443
Igniting cell 517 state : 4.5632081e-05 19.910106 0.45976672 0.26773391
DILUPBiCGStab:  Solving for b, Initial residual = 4.026167e-05, Final residual = 8.8936251e-09, No Iterations 1
min(b) = 4.5568637e-05
Combustion progress = 0.01781833%
DILUPBiCGStab:  Solving for Xi, Initial residual = 4.1689735e-05, Final residual = 1.1065647e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00081268113, Final residual = 1.3319716e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0048414215, Final residual = 1.3433178e-10, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0037987497, Final residual = 8.8629256e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0075969, Final residual = 4.4789835e-08, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 3.7591948e-05, global = 3.1957997e-07, cumulative = -0.00011842723
StCorr = 1
St courant Number mean: 1.284291e-06 max: 0.0087880013
Igniting cell 517 state : 4.5568637e-05 19.922511 0.45976401 0.2676835
DILUPBiCGStab:  Solving for b, Initial residual = 2.3582141e-06, Final residual = 5.6499162e-10, No Iterations 1
min(b) = 4.5613377e-05
Combustion progress = 0.017818805%
DILUPBiCGStab:  Solving for Xi, Initial residual = 3.1242341e-06, Final residual = 7.2509152e-10, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0010328526, Final residual = 1.44779e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00032136928, Final residual = 2.5554691e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00023962721, Final residual = 2.0021276e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.00018577948, Final residual = 1.6744016e-09, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 3.7254193e-05, global = 3.1958007e-07, cumulative = -0.00011810765
DILUPBiCGStab:  Solving for epsilon, Initial residual = 5.5142936e-05, Final residual = 3.6961745e-09, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.00011238797, Final residual = 2.5818306e-08, No Iterations 1

ExecutionTime = 14.05 s

Courant Number mean: 9.9764433e-05 max: 0.20379641
deltaT = 7.3478754e-06


Time = 0.0125052
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 52175.895
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 1.2090979e-06 max: 0.0082651127
Igniting cell 517 state : 4.5613377e-05 19.922579 0.45976208 0.26767934
DILUPBiCGStab:  Solving for b, Initial residual = 3.8834882e-05, Final residual = 8.6784154e-09, No Iterations 1
min(b) = 4.5554759e-05
Combustion progress = 0.017846208%
DILUPBiCGStab:  Solving for Xi, Initial residual = 4.0277397e-05, Final residual = 1.0924105e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00082568455, Final residual = 8.2248936e-10, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0046712022, Final residual = 1.2878242e-10, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0036799301, Final residual = 8.8835687e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0075233095, Final residual = 3.8388658e-08, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 3.8081845e-05, global = 3.0239516e-07, cumulative = -0.00011780525
StCorr = 1
St courant Number mean: 1.2098657e-06 max: 0.0082677911
Igniting cell 517 state : 4.5554759e-05 19.934248 0.4597593 0.26763758
DILUPBiCGStab:  Solving for b, Initial residual = 2.3507022e-06, Final residual = 5.8944307e-10, No Iterations 1
min(b) = 4.5599105e-05
Combustion progress = 0.017846732%
DILUPBiCGStab:  Solving for Xi, Initial residual = 2.9842335e-06, Final residual = 7.3859871e-10, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0010245822, Final residual = 7.8011636e-10, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00035367708, Final residual = 2.1923136e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00026397487, Final residual = 1.6342994e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.00020693258, Final residual = 1.5198362e-09, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 3.7705733e-05, global = 3.0239525e-07, cumulative = -0.00011750286
DILUPBiCGStab:  Solving for epsilon, Initial residual = 5.4098325e-05, Final residual = 3.7032905e-09, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.00011102498, Final residual = 2.8163508e-08, No Iterations 1

ExecutionTime = 14.17 s

Courant Number mean: 9.9421064e-05 max: 0.20403434
deltaT = 6.9204366e-06


Time = 0.0125121
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 53524.172
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 1.1409394e-06 max: 0.0077888081
Igniting cell 517 state : 4.5599105e-05 19.934287 0.45975754 0.26757654
DILUPBiCGStab:  Solving for b, Initial residual = 3.7519099e-05, Final residual = 8.518557e-09, No Iterations 1
min(b) = 4.5543016e-05
Combustion progress = 0.01787308%
DILUPBiCGStab:  Solving for Xi, Initial residual = 3.8987244e-05, Final residual = 1.0828224e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00082575352, Final residual = 7.2245261e-10, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0045317828, Final residual = 1.3141798e-10, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0035846257, Final residual = 8.5101898e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0074677744, Final residual = 3.2974332e-08, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 3.865384e-05, global = 2.8649987e-07, cumulative = -0.00011721636
StCorr = 1
St courant Number mean: 1.141615e-06 max: 0.0077911402
Igniting cell 517 state : 4.5543016e-05 19.945259 0.45975466 0.2675036
DILUPBiCGStab:  Solving for b, Initial residual = 1.6136748e-06, Final residual = 1.0885254e-09, No Iterations 1
min(b) = 4.5587079e-05
Combustion progress = 0.017873494%
DILUPBiCGStab:  Solving for Xi, Initial residual = 1.875512e-06, Final residual = 1.3916935e-09, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.001022635, Final residual = 1.2122102e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00031975979, Final residual = 3.1138796e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00023780927, Final residual = 2.4293401e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.00020069947, Final residual = 1.4097524e-09, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 3.8228645e-05, global = 2.8649995e-07, cumulative = -0.00011692986
DILUPBiCGStab:  Solving for epsilon, Initial residual = 5.3186155e-05, Final residual = 3.792014e-09, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.00010980159, Final residual = 3.0742926e-08, No Iterations 1

ExecutionTime = 14.29 s

Courant Number mean: 9.9329201e-05 max: 0.20431755
deltaT = 6.5225718e-06


Time = 0.0125186
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 54919.489
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 1.0773547e-06 max: 0.0073449122
Igniting cell 517 state : 4.5587079e-05 19.945294 0.45975313 0.26740476
DILUPBiCGStab:  Solving for b, Initial residual = 3.6286155e-05, Final residual = 7.7890151e-09, No Iterations 1
min(b) = 4.5534691e-05
Combustion progress = 0.017898724%
DILUPBiCGStab:  Solving for Xi, Initial residual = 3.7790724e-05, Final residual = 9.806892e-09, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00078739131, Final residual = 7.2308569e-10, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0044103099, Final residual = 9.883016e-11, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0035041689, Final residual = 8.2652373e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0074111146, Final residual = 2.8394863e-08, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 3.9183873e-05, global = 2.71538e-07, cumulative = -0.00011665832
StCorr = 1
St courant Number mean: 1.0779454e-06 max: 0.007346969
Igniting cell 517 state : 4.5534691e-05 19.955615 0.45975025 0.26735761
DILUPBiCGStab:  Solving for b, Initial residual = 2.2570937e-06, Final residual = 6.5554837e-10, No Iterations 1
min(b) = 4.5640658e-05
Combustion progress = 0.017899188%
DILUPBiCGStab:  Solving for Xi, Initial residual = 3.0288746e-06, Final residual = 8.0853017e-10, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00097734641, Final residual = 1.5972407e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00030637208, Final residual = 2.4932544e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00022680175, Final residual = 1.8998034e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.00021371269, Final residual = 1.2897581e-09, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 3.8746533e-05, global = 2.7153807e-07, cumulative = -0.00011638678
DILUPBiCGStab:  Solving for epsilon, Initial residual = 5.2325512e-05, Final residual = 3.9677495e-09, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.00010862142, Final residual = 3.3958797e-08, No Iterations 1

ExecutionTime = 14.42 s

Courant Number mean: 9.9365917e-05 max: 0.20445818
deltaT = 6.1575225e-06


Time = 0.0125248
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 56348.873
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 1.0189447e-06 max: 0.0069373867
Igniting cell 517 state : 4.5640658e-05 19.955611 0.45974883 0.2673001
DILUPBiCGStab:  Solving for b, Initial residual = 3.5164952e-05, Final residual = 7.8742606e-09, No Iterations 1
min(b) = 4.5531892e-05
Combustion progress = 0.017923451%
DILUPBiCGStab:  Solving for Xi, Initial residual = 3.6682675e-05, Final residual = 1.0210829e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00078684376, Final residual = 9.2745306e-10, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0042798038, Final residual = 1.0271139e-10, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0034138623, Final residual = 8.8200958e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0073684088, Final residual = 2.4552364e-08, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 3.9785556e-05, global = 2.5768761e-07, cumulative = -0.00011612909
StCorr = 1
St courant Number mean: 1.0194525e-06 max: 0.0069391043
Igniting cell 517 state : 4.5531892e-05 19.965331 0.45974591 0.26720207
DILUPBiCGStab:  Solving for b, Initial residual = 2.0053881e-06, Final residual = 5.4949697e-10, No Iterations 1
min(b) = 4.5667803e-05
Combustion progress = 0.017923944%
DILUPBiCGStab:  Solving for Xi, Initial residual = 2.5603772e-06, Final residual = 5.8813308e-10, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00098354407, Final residual = 1.5788839e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00030253637, Final residual = 3.1267709e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00022239478, Final residual = 2.3729245e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.00022123178, Final residual = 1.1892707e-09, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 3.930541e-05, global = 2.5768767e-07, cumulative = -0.00011587141
DILUPBiCGStab:  Solving for epsilon, Initial residual = 5.1599653e-05, Final residual = 4.1183346e-09, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.00010761555, Final residual = 3.6929864e-08, No Iterations 1

ExecutionTime = 14.55 s

Courant Number mean: 9.9641732e-05 max: 0.20459399
deltaT = 5.8218321e-06


Time = 0.0125306
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 57800.55
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 9.6517414e-07 max: 0.0065623389
Igniting cell 517 state : 4.5667803e-05 19.965322 0.45974464 0.26718938
DILUPBiCGStab:  Solving for b, Initial residual = 3.4134252e-05, Final residual = 7.3606966e-09, No Iterations 1
min(b) = 4.5528189e-05
Combustion progress = 0.017947333%
DILUPBiCGStab:  Solving for Xi, Initial residual = 3.5692412e-05, Final residual = 9.7310428e-09, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00077407781, Final residual = 1.214255e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0041641072, Final residual = 5.6082157e-11, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0033345737, Final residual = 9.4943329e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.007321163, Final residual = 2.1322351e-08, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.039601e-05, global = 2.4484453e-07, cumulative = -0.00011562656
StCorr = 1
St courant Number mean: 9.6560417e-07 max: 0.0065638626
Igniting cell 517 state : 4.5528189e-05 19.974527 0.45974169 0.26713154
DILUPBiCGStab:  Solving for b, Initial residual = 1.7086279e-06, Final residual = 6.7600221e-10, No Iterations 1
min(b) = 4.5627876e-05
Combustion progress = 0.01794782%
DILUPBiCGStab:  Solving for Xi, Initial residual = 2.1766671e-06, Final residual = 8.3493178e-10, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00099635823, Final residual = 1.4013371e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00028700475, Final residual = 2.5488516e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00020832934, Final residual = 1.4721654e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.00024174119, Final residual = 1.0726366e-09, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 3.9852214e-05, global = 2.4484459e-07, cumulative = -0.00011538172
DILUPBiCGStab:  Solving for epsilon, Initial residual = 5.0948213e-05, Final residual = 4.2514077e-09, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.00010668569, Final residual = 3.9999747e-08, No Iterations 1

ExecutionTime = 14.67 s

Courant Number mean: 0.00010011924 max: 0.20465945
deltaT = 5.5124801e-06


Time = 0.0125361
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 59268.674
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 9.1557318e-07 max: 0.0062164726
Igniting cell 517 state : 4.5627876e-05 19.97453 0.45974055 0.26712643
DILUPBiCGStab:  Solving for b, Initial residual = 3.3224841e-05, Final residual = 7.7530399e-09, No Iterations 1
min(b) = 4.5553797e-05
Combustion progress = 0.017970424%
DILUPBiCGStab:  Solving for Xi, Initial residual = 3.486219e-05, Final residual = 1.0492903e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00075545003, Final residual = 7.3592462e-10, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0040644016, Final residual = 4.8803228e-11, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0032677287, Final residual = 4.4559708e-11, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0072565662, Final residual = 1.8601151e-08, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.0982839e-05, global = 2.3291612e-07, cumulative = -0.0001151488
StCorr = 1
St courant Number mean: 9.1594487e-07 max: 0.0062178157
Igniting cell 517 state : 4.5553797e-05 19.98324 0.45973764 0.26705849
DILUPBiCGStab:  Solving for b, Initial residual = 1.516816e-06, Final residual = 7.1880353e-10, No Iterations 1
min(b) = 4.5591671e-05
Combustion progress = 0.017970917%
DILUPBiCGStab:  Solving for Xi, Initial residual = 1.9376994e-06, Final residual = 9.6096437e-10, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00095364363, Final residual = 1.4988845e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00026832604, Final residual = 2.6700836e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00018915181, Final residual = 1.4277498e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.00024292976, Final residual = 9.870446e-10, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.0358238e-05, global = 2.3291617e-07, cumulative = -0.00011491589
DILUPBiCGStab:  Solving for epsilon, Initial residual = 5.0409712e-05, Final residual = 4.3183663e-09, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.00010579398, Final residual = 4.3159534e-08, No Iterations 1

ExecutionTime = 14.81 s

Courant Number mean: 0.00010078011 max: 0.20458779
deltaT = 5.2268194e-06


Time = 0.0125413
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 60739.843
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 8.6975719e-07 max: 0.0058968808
Igniting cell 517 state : 4.5591671e-05 19.983273 0.45973658 0.26701978
DILUPBiCGStab:  Solving for b, Initial residual = 3.2344903e-05, Final residual = 7.7309342e-09, No Iterations 1
min(b) = 4.5616997e-05
Combustion progress = 0.017992759%
DILUPBiCGStab:  Solving for Xi, Initial residual = 3.4040864e-05, Final residual = 1.0554553e-08, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00076899497, Final residual = 1.1209719e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0039432257, Final residual = 8.3961604e-11, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00318215, Final residual = 7.7283965e-11, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0071858009, Final residual = 1.6300616e-08, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.1513213e-05, global = 2.2181978e-07, cumulative = -0.00011469407
StCorr = 1
St courant Number mean: 8.7007491e-07 max: 0.0058980442
Igniting cell 517 state : 4.5616997e-05 19.991501 0.4597337 0.26693977
DILUPBiCGStab:  Solving for b, Initial residual = 1.9617785e-06, Final residual = 4.940793e-10, No Iterations 1
min(b) = 4.5657683e-05
Combustion progress = 0.017993267%
DILUPBiCGStab:  Solving for Xi, Initial residual = 2.6025031e-06, Final residual = 6.8839089e-10, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0009509594, Final residual = 1.4860918e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00025836029, Final residual = 2.4843415e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00018328602, Final residual = 1.2705896e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.00025732298, Final residual = 8.8592728e-10, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.0815643e-05, global = 2.2181982e-07, cumulative = -0.00011447225
DILUPBiCGStab:  Solving for epsilon, Initial residual = 4.9909935e-05, Final residual = 4.3853853e-09, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 0.0001049795, Final residual = 4.6358076e-08, No Iterations 1

ExecutionTime = 14.94 s

Courant Number mean: 0.00010162759 max: 0.21568141
deltaT = 4.7176921e-06


Time = 0.012546
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 62202.567
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 7.8650424e-07 max: 0.005324613
Igniting cell 517 state : 4.5657683e-05 19.991534 0.45973272 0.26694807
DILUPBiCGStab:  Solving for b, Initial residual = 3.0056807e-05, Final residual = 6.783441e-09, No Iterations 1
min(b) = 4.5622664e-05
Combustion progress = 0.018013401%
DILUPBiCGStab:  Solving for Xi, Initial residual = 3.1692992e-05, Final residual = 9.3709966e-09, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00074793354, Final residual = 1.2077924e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0036482257, Final residual = 7.7803575e-11, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.002953631, Final residual = 7.4939233e-11, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0067735075, Final residual = 1.2384874e-08, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.005325e-05, global = 2.010404e-07, cumulative = -0.00011427121
StCorr = 1
St courant Number mean: 7.8674915e-07 max: 0.005325532
Igniting cell 517 state : 4.5622664e-05 19.998964 0.45972993 0.2668672
DILUPBiCGStab:  Solving for b, Initial residual = 1.5686318e-06, Final residual = 5.1768079e-10, No Iterations 1
min(b) = 4.5651223e-05
Combustion progress = 0.018013857%
DILUPBiCGStab:  Solving for Xi, Initial residual = 1.9656896e-06, Final residual = 7.0003878e-10, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00098614828, Final residual = 1.1259354e-09, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00025301496, Final residual = 2.6231628e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00017816811, Final residual = 1.3147742e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.00024546577, Final residual = 6.6396312e-10, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 3.9360539e-05, global = 2.0104044e-07, cumulative = -0.00011407017
DILUPBiCGStab:  Solving for epsilon, Initial residual = 4.6848244e-05, Final residual = 3.2937634e-09, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 9.9189591e-05, Final residual = 2.699798e-08, No Iterations 1

ExecutionTime = 15.07 s

Courant Number mean: 9.7832116e-05 max: 0.22988094
deltaT = 4.0096576e-06


Time = 0.0125501
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 63608.031
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 6.696526e-07 max: 0.0045270573
Igniting cell 517 state : 4.5651223e-05 19.998995 0.45972914 0.26685887
DILUPBiCGStab:  Solving for b, Initial residual = 2.6367444e-05, Final residual = 5.1661204e-09, No Iterations 1
min(b) = 4.5592572e-05
Combustion progress = 0.018031341%
DILUPBiCGStab:  Solving for Xi, Initial residual = 2.7813523e-05, Final residual = 7.1244231e-09, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00080447405, Final residual = 8.4101307e-10, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0031979195, Final residual = 8.3539535e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0025956356, Final residual = 7.6754061e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0060451142, Final residual = 7.9453254e-09, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 3.6514062e-05, global = 1.7149729e-07, cumulative = -0.00011389867
StCorr = 1
St courant Number mean: 6.6981475e-07 max: 0.0045277065
Igniting cell 517 state : 4.5592572e-05 20.005325 0.45972661 0.26676589
DILUPBiCGStab:  Solving for b, Initial residual = 1.5224561e-06, Final residual = 3.9842068e-10, No Iterations 1
min(b) = 4.5557355e-05
Combustion progress = 0.018031739%
DILUPBiCGStab:  Solving for Xi, Initial residual = 1.9071678e-06, Final residual = 5.3467781e-10, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0010297786, Final residual = 9.9084705e-10, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00022940952, Final residual = 2.5414511e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00016511904, Final residual = 1.3153398e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.00020744805, Final residual = 4.0839179e-10, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 3.5886739e-05, global = 1.7149732e-07, cumulative = -0.00011372717
DILUPBiCGStab:  Solving for epsilon, Initial residual = 4.1385606e-05, Final residual = 1.9223945e-09, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 8.8427267e-05, Final residual = 2.1978697e-08, No Iterations 1

ExecutionTime = 15.2 s

Courant Number mean: 8.9107418e-05 max: 0.23289893
deltaT = 3.3771278e-06


Time = 0.0125534
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 64930.006
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 5.6496308e-07 max: 0.0038140015
Igniting cell 517 state : 4.5557355e-05 20.005362 0.45972602 0.26672686
DILUPBiCGStab:  Solving for b, Initial residual = 2.2926723e-05, Final residual = 4.0450757e-09, No Iterations 1
min(b) = 4.5618143e-05
Combustion progress = 0.018046786%
DILUPBiCGStab:  Solving for Xi, Initial residual = 2.4156055e-05, Final residual = 5.5496973e-09, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00080594441, Final residual = 3.8587907e-10, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0027965258, Final residual = 6.9422276e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0022751935, Final residual = 6.3215377e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0053770849, Final residual = 5.0496302e-09, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 3.3113983e-05, global = 1.4489369e-07, cumulative = -0.00011358228
StCorr = 1
St courant Number mean: 5.650655e-07 max: 0.0038144392
Igniting cell 517 state : 4.5618143e-05 20.010672 0.45972379 0.26662091
DILUPBiCGStab:  Solving for b, Initial residual = 1.242292e-06, Final residual = 4.0930202e-10, No Iterations 1
min(b) = 4.565395e-05
Combustion progress = 0.018047197%
DILUPBiCGStab:  Solving for Xi, Initial residual = 1.4888827e-06, Final residual = 4.8697706e-10, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0010120585, Final residual = 9.7652923e-10, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0002022418, Final residual = 1.4760514e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00014618471, Final residual = 6.8690741e-08, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.00017968017, Final residual = 2.4091661e-10, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 3.2581436e-05, global = 1.4489371e-07, cumulative = -0.00011343738
DILUPBiCGStab:  Solving for epsilon, Initial residual = 3.6324008e-05, Final residual = 1.2033656e-09, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 7.8317876e-05, Final residual = 1.7711767e-08, No Iterations 1

ExecutionTime = 15.32 s

Courant Number mean: 8.0795357e-05 max: 0.23334369
deltaT = 2.8476355e-06


Time = 0.0125563
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 66206.373
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 4.7715993e-07 max: 0.0032167892
Igniting cell 517 state : 4.565395e-05 20.010684 0.45972335 0.26661395
DILUPBiCGStab:  Solving for b, Initial residual = 2.000744e-05, Final residual = 3.0875356e-09, No Iterations 1
min(b) = 4.5635885e-05
Combustion progress = 0.018060165%
DILUPBiCGStab:  Solving for Xi, Initial residual = 2.1118919e-05, Final residual = 4.2575183e-09, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00077154879, Final residual = 5.2878765e-10, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0024546031, Final residual = 5.3506263e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0020004358, Final residual = 4.8249283e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0048141761, Final residual = 3.2452536e-09, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 3.0201942e-05, global = 1.2249644e-07, cumulative = -0.00011331489
StCorr = 1
St courant Number mean: 4.7721785e-07 max: 0.0032170899
Igniting cell 517 state : 4.5635885e-05 20.015158 0.45972134 0.26652291
DILUPBiCGStab:  Solving for b, Initial residual = 1.4427535e-06, Final residual = 3.1434216e-10, No Iterations 1
min(b) = 4.5657505e-05
Combustion progress = 0.018060538%
DILUPBiCGStab:  Solving for Xi, Initial residual = 1.7740362e-06, Final residual = 3.4505469e-10, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0010015728, Final residual = 8.149754e-10, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00019146123, Final residual = 1.1683126e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00014172704, Final residual = 8.1882792e-08, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.00015681017, Final residual = 1.4386696e-10, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 2.9721664e-05, global = 1.2249645e-07, cumulative = -0.00011319239
DILUPBiCGStab:  Solving for epsilon, Initial residual = 3.1997392e-05, Final residual = 8.4544886e-10, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 6.9764299e-05, Final residual = 1.449589e-08, No Iterations 1

ExecutionTime = 15.45 s

Courant Number mean: 7.3643571e-05 max: 0.23370862
deltaT = 2.4035257e-06


Time = 0.0125587
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 67468.753
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 4.0338086e-07 max: 0.0027156567
Igniting cell 517 state : 4.5657505e-05 20.015168 0.45972105 0.26652297
DILUPBiCGStab:  Solving for b, Initial residual = 1.7511537e-05, Final residual = 2.3717145e-09, No Iterations 1
min(b) = 4.5639808e-05
Combustion progress = 0.018071779%
DILUPBiCGStab:  Solving for Xi, Initial residual = 1.8540143e-05, Final residual = 3.2575017e-09, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00076057547, Final residual = 4.9536298e-10, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0021654362, Final residual = 3.2782953e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0017675572, Final residual = 3.0096225e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0043383723, Final residual = 2.1024701e-09, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 2.7664043e-05, global = 1.0362046e-07, cumulative = -0.00011308877
StCorr = 1
St courant Number mean: 4.0341296e-07 max: 0.0027158651
Igniting cell 517 state : 4.5639808e-05 20.018944 0.4597193 0.26644554
DILUPBiCGStab:  Solving for b, Initial residual = 1.0148448e-06, Final residual = 1.8203108e-10, No Iterations 1
min(b) = 4.5645328e-05
Combustion progress = 0.018072123%
DILUPBiCGStab:  Solving for Xi, Initial residual = 1.2170353e-06, Final residual = 2.4187967e-10, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0009578811, Final residual = 6.6560786e-10, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00015938441, Final residual = 8.1186635e-08, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00011713031, Final residual = 5.1490185e-08, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0001330703, Final residual = 8.8853307e-11, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 2.7218126e-05, global = 1.0362047e-07, cumulative = -0.00011298515
DILUPBiCGStab:  Solving for epsilon, Initial residual = 2.8290585e-05, Final residual = 6.8573936e-10, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 6.2381259e-05, Final residual = 1.1960831e-08, No Iterations 1

ExecutionTime = 15.57 s

Courant Number mean: 6.7445784e-05 max: 0.23425888
deltaT = 2.0281591e-06


Time = 0.0125607
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 68734.283
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 3.4092137e-07 max: 0.0022919343
Igniting cell 517 state : 4.5645328e-05 20.018953 0.45971908 0.26644634
DILUPBiCGStab:  Solving for b, Initial residual = 1.533778e-05, Final residual = 1.7552629e-09, No Iterations 1
min(b) = 4.5629248e-05
Combustion progress = 0.018081874%
DILUPBiCGStab:  Solving for Xi, Initial residual = 1.6276204e-05, Final residual = 2.4194799e-09, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00081808641, Final residual = 4.5613885e-10, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0019176868, Final residual = 3.375756e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0015676733, Final residual = 2.9697107e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0039238662, Final residual = 1.3679122e-09, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 2.5395999e-05, global = 8.7600405e-08, cumulative = -0.00011289755
StCorr = 1
St courant Number mean: 3.4093664e-07 max: 0.0022920804
Igniting cell 517 state : 4.5629248e-05 20.022141 0.45971755 0.2663809
DILUPBiCGStab:  Solving for b, Initial residual = 1.0246341e-06, Final residual = 1.5376472e-10, No Iterations 1
min(b) = 4.5657353e-05
Combustion progress = 0.018082197%
DILUPBiCGStab:  Solving for Xi, Initial residual = 1.2021284e-06, Final residual = 2.109742e-10, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0010078907, Final residual = 6.1234687e-10, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00014809075, Final residual = 8.8229136e-08, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00011053401, Final residual = 5.6259404e-08, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.00011387178, Final residual = 5.4803859e-11, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 2.4990226e-05, global = 8.7600412e-08, cumulative = -0.00011280995
DILUPBiCGStab:  Solving for epsilon, Initial residual = 2.5192253e-05, Final residual = 5.8525352e-10, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 5.5896401e-05, Final residual = 9.8778849e-09, No Iterations 1

ExecutionTime = 15.69 s

Courant Number mean: 6.1986759e-05 max: 0.23476009
deltaT = 1.7109677e-06


Time = 0.0125624
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 70009.791
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 2.8805948e-07 max: 0.0019337621
Igniting cell 517 state : 4.5657353e-05 20.022144 0.4597174 0.26638029
DILUPBiCGStab:  Solving for b, Initial residual = 1.3423132e-05, Final residual = 1.3580633e-09, No Iterations 1
min(b) = 4.5645815e-05
Combustion progress = 0.018090668%
DILUPBiCGStab:  Solving for Xi, Initial residual = 1.4279381e-05, Final residual = 1.8636215e-09, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00082113497, Final residual = 2.9759404e-10, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0017061134, Final residual = 2.9854471e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0013973743, Final residual = 2.6001451e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0035671742, Final residual = 8.9156013e-10, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 2.3388825e-05, global = 7.401615e-08, cumulative = -0.00011273593
StCorr = 1
St courant Number mean: 2.8806444e-07 max: 0.0019338689
Igniting cell 517 state : 4.5645815e-05 20.024831 0.45971607 0.26632521
DILUPBiCGStab:  Solving for b, Initial residual = 8.8098774e-07, Final residual = 8.8098774e-07, No Iterations 0
min(b) = 4.5645815e-05
Combustion progress = 0.018090668%
DILUPBiCGStab:  Solving for Xi, Initial residual = 1.0515656e-06, Final residual = 1.6474572e-10, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0010016086, Final residual = 5.0661795e-10, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00014138901, Final residual = 5.8827903e-08, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00010480408, Final residual = 3.6244928e-08, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.00010148681, Final residual = 3.3222544e-11, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 2.3018523e-05, global = 7.4016155e-08, cumulative = -0.00011266192
DILUPBiCGStab:  Solving for epsilon, Initial residual = 2.2569653e-05, Final residual = 5.4171814e-10, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 5.0213811e-05, Final residual = 8.2234157e-09, No Iterations 1

ExecutionTime = 15.81 s

Courant Number mean: 5.7186878e-05 max: 0.23520805
deltaT = 1.4427888e-06


Time = 0.0125639
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 71291.159
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 2.4330212e-07 max: 0.0016308577
Igniting cell 517 state : 4.5645815e-05 20.024835 0.45971596 0.26632521
DILUPBiCGStab:  Solving for b, Initial residual = 1.1778286e-05, Final residual = 1.082924e-09, No Iterations 1
min(b) = 4.5647203e-05
Combustion progress = 0.018098048%
DILUPBiCGStab:  Solving for Xi, Initial residual = 1.2568442e-05, Final residual = 1.4849328e-09, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00079272018, Final residual = 3.4280135e-10, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0015323179, Final residual = 2.4514337e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0012572807, Final residual = 2.129772e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0032591935, Final residual = 5.8183384e-10, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 2.1609958e-05, global = 6.2497277e-08, cumulative = -0.00011259942
StCorr = 1
St courant Number mean: 2.4330206e-07 max: 0.0016309309
Igniting cell 517 state : 4.5647203e-05 20.027101 0.45971482 0.26627702
DILUPBiCGStab:  Solving for b, Initial residual = 6.5920331e-07, Final residual = 6.5920331e-07, No Iterations 0
min(b) = 4.5647203e-05
Combustion progress = 0.018098048%
DILUPBiCGStab:  Solving for Xi, Initial residual = 8.0360313e-07, Final residual = 8.0360313e-07, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00098242812, Final residual = 4.923362e-10, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00012188303, Final residual = 4.820715e-08, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 9.1736551e-05, Final residual = 3.4759094e-08, No Iterations 1
DICPCG:  Solving for p, Initial residual = 8.7653833e-05, Final residual = 2.0864925e-11, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 2.1267521e-05, global = 6.2497281e-08, cumulative = -0.00011253692
DILUPBiCGStab:  Solving for epsilon, Initial residual = 2.0292743e-05, Final residual = 5.217679e-10, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 4.5232997e-05, Final residual = 6.8756464e-09, No Iterations 1

ExecutionTime = 15.94 s

Courant Number mean: 5.293313e-05 max: 0.23547035
deltaT = 1.216844e-06


Time = 0.0125651
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 72582.94
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 2.0554394e-07 max: 0.0013755996
Igniting cell 517 state : 4.5647203e-05 20.027101 0.45971474 0.26627702
DILUPBiCGStab:  Solving for b, Initial residual = 1.0362049e-05, Final residual = 8.4860798e-10, No Iterations 1
min(b) = 4.5649371e-05
Combustion progress = 0.018104489%
DILUPBiCGStab:  Solving for Xi, Initial residual = 1.1107548e-05, Final residual = 1.1629234e-09, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00077175918, Final residual = 3.2185174e-10, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0013743502, Final residual = 2.1151411e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0011298183, Final residual = 1.8144939e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0029859559, Final residual = 3.8070679e-10, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 2.0025048e-05, global = 5.2768729e-08, cumulative = -0.00011248415
StCorr = 1
St courant Number mean: 2.0553947e-07 max: 0.0013756513
Igniting cell 517 state : 4.5649371e-05 20.029012 0.45971375 0.26624913
DILUPBiCGStab:  Solving for b, Initial residual = 7.6623189e-07, Final residual = 7.6623189e-07, No Iterations 0
min(b) = 4.5649371e-05
Combustion progress = 0.018104489%
DILUPBiCGStab:  Solving for Xi, Initial residual = 8.502682e-07, Final residual = 8.502682e-07, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00096538818, Final residual = 4.4234543e-10, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00012543077, Final residual = 4.2349446e-08, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 9.5167782e-05, Final residual = 2.897597e-08, No Iterations 1
DICPCG:  Solving for p, Initial residual = 8.1538238e-05, Final residual = 1.786317e-11, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 1.970644e-05, global = 5.2768732e-08, cumulative = -0.00011243138
DILUPBiCGStab:  Solving for epsilon, Initial residual = 1.834008e-05, Final residual = 4.998852e-10, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 4.0928183e-05, Final residual = 5.6764089e-09, No Iterations 1

ExecutionTime = 16.06 s

Courant Number mean: 4.917013e-05 max: 0.23553625
deltaT = 1.027206e-06


Time = 0.0125661
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 73882.392
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 1.7381345e-07 max: 0.0011613179
Igniting cell 517 state : 4.5649371e-05 20.029012 0.4597137 0.26624913
DILUPBiCGStab:  Solving for b, Initial residual = 9.1366377e-06, Final residual = 6.8217004e-10, No Iterations 1
min(b) = 4.565129e-05
Combustion progress = 0.018110115%
DILUPBiCGStab:  Solving for Xi, Initial residual = 9.8457392e-06, Final residual = 9.3467081e-10, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00083472986, Final residual = 1.9460279e-10, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0012368135, Final residual = 1.8076799e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0010183179, Final residual = 1.5337477e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0027439274, Final residual = 2.5108966e-10, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 1.8610283e-05, global = 4.4586851e-08, cumulative = -0.0001123868
StCorr = 1
St courant Number mean: 1.7380633e-07 max: 0.0011613564
Igniting cell 517 state : 4.565129e-05 20.030625 0.45971285 0.26622621
DILUPBiCGStab:  Solving for b, Initial residual = 6.4066043e-07, Final residual = 6.4066043e-07, No Iterations 0
min(b) = 4.565129e-05
Combustion progress = 0.018110115%
DILUPBiCGStab:  Solving for Xi, Initial residual = 7.3648473e-07, Final residual = 7.3648473e-07, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0010192588, Final residual = 3.6996535e-10, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00010887769, Final residual = 3.6642163e-08, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 8.2182417e-05, Final residual = 2.3653435e-08, No Iterations 1
DICPCG:  Solving for p, Initial residual = 7.1224934e-05, Final residual = 7.6695106e-12, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 1.8314229e-05, global = 4.4586853e-08, cumulative = -0.00011234221
DILUPBiCGStab:  Solving for epsilon, Initial residual = 1.6682348e-05, Final residual = 4.757712e-10, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 3.7179427e-05, Final residual = 4.5657988e-09, No Iterations 1

ExecutionTime = 16.19 s

Courant Number mean: 4.584916e-05 max: 0.2354366
deltaT = 8.6824219e-07


Time = 0.012567
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 75187.031
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 1.4718245e-07 max: 0.00098167078
Igniting cell 517 state : 4.565129e-05 20.030625 0.45971281 0.26622621
DILUPBiCGStab:  Solving for b, Initial residual = 8.0879275e-06, Final residual = 5.4912876e-10, No Iterations 1
min(b) = 4.5652928e-05
Combustion progress = 0.018115041%
DILUPBiCGStab:  Solving for Xi, Initial residual = 8.7523116e-06, Final residual = 7.5018688e-10, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00077320488, Final residual = 1.8020967e-10, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0011208532, Final residual = 1.5729556e-07, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00092412321, Final residual = 1.3309037e-07, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0025328557, Final residual = 1.6542257e-10, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 1.7331144e-05, global = 3.7716734e-08, cumulative = -0.00011230449
StCorr = 1
St courant Number mean: 1.4717363e-07 max: 0.0009816982
Igniting cell 517 state : 4.5652928e-05 20.031989 0.45971209 0.26620711
DILUPBiCGStab:  Solving for b, Initial residual = 5.7444328e-07, Final residual = 5.7444328e-07, No Iterations 0
min(b) = 4.5652928e-05
Combustion progress = 0.018115041%
DILUPBiCGStab:  Solving for Xi, Initial residual = 6.5904035e-07, Final residual = 6.5904035e-07, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00098980717, Final residual = 3.4717772e-10, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00010130344, Final residual = 2.8589547e-08, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 7.6958909e-05, Final residual = 1.8723909e-08, No Iterations 1
DICPCG:  Solving for p, Initial residual = 6.5494441e-05, Final residual = 5.1686039e-12, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 1.7063265e-05, global = 3.7716735e-08, cumulative = -0.00011226678
DILUPBiCGStab:  Solving for epsilon, Initial residual = 1.5247958e-05, Final residual = 4.5165245e-10, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 3.3919739e-05, Final residual = 3.773898e-09, No Iterations 1

ExecutionTime = 16.32 s

Courant Number mean: 4.2917129e-05 max: 0.23512366
deltaT = 7.35433e-07


Time = 0.0125677
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 76493.864
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 1.2490594e-07 max: 0.00083156237
Igniting cell 517 state : 4.5652928e-05 20.031989 0.45971206 0.26620711
DILUPBiCGStab:  Solving for b, Initial residual = 7.1859824e-06, Final residual = 4.4398812e-10, No Iterations 1
min(b) = 4.5654369e-05
Combustion progress = 0.018119376%
DILUPBiCGStab:  Solving for Xi, Initial residual = 7.8104615e-06, Final residual = 6.0543566e-10, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00077265347, Final residual = 1.6496121e-10, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0010198015, Final residual = 9.79224e-08, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00084221585, Final residual = 8.4631039e-08, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0023461304, Final residual = 1.1150863e-10, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 1.6200639e-05, global = 3.1968849e-08, cumulative = -0.00011223481
StCorr = 1
St courant Number mean: 1.2489666e-07 max: 0.0008315815
Igniting cell 517 state : 4.5654369e-05 20.033144 0.45971145 0.26619157
DILUPBiCGStab:  Solving for b, Initial residual = 6.0342724e-07, Final residual = 6.0342724e-07, No Iterations 0
min(b) = 4.5654369e-05
Combustion progress = 0.018119376%
DILUPBiCGStab:  Solving for Xi, Initial residual = 6.8774019e-07, Final residual = 6.8774019e-07, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00098945686, Final residual = 2.4631493e-10, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 9.5360345e-05, Final residual = 2.0710237e-08, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 7.4157008e-05, Final residual = 1.5700873e-08, No Iterations 1
DICPCG:  Solving for p, Initial residual = 6.0764143e-05, Final residual = 3.0874762e-12, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 1.5953186e-05, global = 3.1968849e-08, cumulative = -0.00011220284
DILUPBiCGStab:  Solving for epsilon, Initial residual = 1.4019067e-05, Final residual = 4.2841938e-10, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 3.1140936e-05, Final residual = 3.1599167e-09, No Iterations 1

ExecutionTime = 16.45 s

Courant Number mean: 4.0349415e-05 max: 0.23466933
deltaT = 6.2456184e-07


Time = 0.0125683
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 77801.38
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 1.0628651e-07 max: 0.00070623569
Igniting cell 517 state : 4.5654369e-05 20.033144 0.45971142 0.26619157
DILUPBiCGStab:  Solving for b, Initial residual = 6.4074823e-06, Final residual = 3.6107772e-10, No Iterations 1
min(b) = 4.565551e-05
Combustion progress = 0.018123212%
DILUPBiCGStab:  Solving for Xi, Initial residual = 6.9993987e-06, Final residual = 4.8958316e-10, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00076818596, Final residual = 1.6101331e-10, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00093448949, Final residual = 8.0120528e-08, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00077286313, Final residual = 6.9669228e-08, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0021804033, Final residual = 7.408994e-11, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 1.5202337e-05, global = 2.7164741e-08, cumulative = -0.00011217567
StCorr = 1
St courant Number mean: 1.0627699e-07 max: 0.00070624975
Igniting cell 517 state : 4.565551e-05 20.034126 0.45971089 0.26617666
DILUPBiCGStab:  Solving for b, Initial residual = 5.3357359e-07, Final residual = 5.3357359e-07, No Iterations 0
min(b) = 4.565551e-05
Combustion progress = 0.018123212%
DILUPBiCGStab:  Solving for Xi, Initial residual = 5.9308819e-07, Final residual = 5.9308819e-07, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00095030555, Final residual = 2.1813663e-10, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 8.4050635e-05, Final residual = 1.4113191e-08, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 6.4279334e-05, Final residual = 1.1779396e-08, No Iterations 1
DICPCG:  Solving for p, Initial residual = 5.3717248e-05, Final residual = 2.1496471e-12, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 1.4970869e-05, global = 2.7164742e-08, cumulative = -0.00011214851
DILUPBiCGStab:  Solving for epsilon, Initial residual = 1.29641e-05, Final residual = 4.0661376e-10, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 2.8754403e-05, Final residual = 2.6730242e-09, No Iterations 1

ExecutionTime = 16.57 s

Courant Number mean: 3.8114153e-05 max: 0.23408246
deltaT = 5.3201098e-07


Time = 0.0125689
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 79107.293
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 9.0724283e-08 max: 0.00060160845
Igniting cell 517 state : 4.565551e-05 20.034126 0.45971088 0.26617666
DILUPBiCGStab:  Solving for b, Initial residual = 5.7491179e-06, Final residual = 3.0037507e-10, No Iterations 1
min(b) = 4.5656543e-05
Combustion progress = 0.018126617%
DILUPBiCGStab:  Solving for Xi, Initial residual = 6.309109e-06, Final residual = 4.0821106e-10, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00087449193, Final residual = 1.8520039e-10, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00086274439, Final residual = 9.823518e-08, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00071458863, Final residual = 8.3323613e-08, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0020396392, Final residual = 5.0314191e-11, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 1.4311176e-05, global = 2.3150474e-08, cumulative = -0.00011212536
StCorr = 1
St courant Number mean: 9.071512e-08 max: 0.00060161806
Igniting cell 517 state : 4.5656543e-05 20.034962 0.45971043 0.26615806
DILUPBiCGStab:  Solving for b, Initial residual = 4.8641194e-07, Final residual = 4.8641194e-07, No Iterations 0
min(b) = 4.5656543e-05
Combustion progress = 0.018126617%
DILUPBiCGStab:  Solving for Xi, Initial residual = 5.6177878e-07, Final residual = 5.6177878e-07, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00103614, Final residual = 2.3465395e-10, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 8.1214563e-05, Final residual = 1.9164064e-08, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 6.2930753e-05, Final residual = 1.6003807e-08, No Iterations 1
DICPCG:  Solving for p, Initial residual = 5.0426311e-05, Final residual = 1.453409e-12, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 1.4096157e-05, global = 2.3150475e-08, cumulative = -0.00011210221
DILUPBiCGStab:  Solving for epsilon, Initial residual = 1.2054556e-05, Final residual = 3.8635541e-10, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 2.6706632e-05, Final residual = 2.2906459e-09, No Iterations 1

ExecutionTime = 16.7 s

Courant Number mean: 3.6174788e-05 max: 0.23335818
deltaT = 4.5478148e-07


Time = 0.0125693
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 80411.586
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 7.772187e-08 max: 0.00051429508
Igniting cell 517 state : 4.5656543e-05 20.034962 0.45971041 0.26615806
DILUPBiCGStab:  Solving for b, Initial residual = 5.1871467e-06, Final residual = 2.5228228e-10, No Iterations 1
min(b) = 4.5657334e-05
Combustion progress = 0.018129658%
DILUPBiCGStab:  Solving for Xi, Initial residual = 5.7250383e-06, Final residual = 3.4408779e-10, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0008080133, Final residual = 1.1375181e-10, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0007949384, Final residual = 9.2269149e-08, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00065944783, Final residual = 7.8044701e-08, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0019138272, Final residual = 3.4570818e-11, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 1.3524351e-05, global = 1.9797954e-08, cumulative = -0.00011208241
StCorr = 1
St courant Number mean: 7.7713314e-08 max: 0.00051430209
Igniting cell 517 state : 4.5657334e-05 20.035677 0.45971002 0.26614869
DILUPBiCGStab:  Solving for b, Initial residual = 4.8344085e-07, Final residual = 4.8344085e-07, No Iterations 0
min(b) = 4.5657334e-05
Combustion progress = 0.018129658%
DILUPBiCGStab:  Solving for Xi, Initial residual = 5.5668477e-07, Final residual = 5.5668477e-07, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00099896282, Final residual = 1.7636119e-10, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 8.0663815e-05, Final residual = 1.5567442e-08, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 6.2045754e-05, Final residual = 1.1637723e-08, No Iterations 1
DICPCG:  Solving for p, Initial residual = 4.9407349e-05, Final residual = 1.5806875e-12, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 1.332447e-05, global = 1.9797954e-08, cumulative = -0.00011206261
DILUPBiCGStab:  Solving for epsilon, Initial residual = 1.1292988e-05, Final residual = 3.6913282e-10, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 2.4959122e-05, Final residual = 1.9907841e-09, No Iterations 1

ExecutionTime = 16.83 s

Courant Number mean: 3.4512573e-05 max: 0.23255171
deltaT = 3.9024603e-07


Time = 0.0125697
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 81713.453
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 6.6842495e-08 max: 0.00044132823
Igniting cell 517 state : 4.5657334e-05 20.035677 0.45971001 0.26614869
DILUPBiCGStab:  Solving for b, Initial residual = 4.702549e-06, Final residual = 2.2134769e-10, No Iterations 1
min(b) = 4.5658016e-05
Combustion progress = 0.018132383%
DILUPBiCGStab:  Solving for Xi, Initial residual = 5.2156899e-06, Final residual = 3.0236269e-10, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0007639037, Final residual = 1.055628e-10, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00074085086, Final residual = 8.1998523e-08, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00061548461, Final residual = 6.9472227e-08, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0018059323, Final residual = 2.415641e-11, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 1.2835888e-05, global = 1.6994502e-08, cumulative = -0.00011204562
StCorr = 1
St courant Number mean: 6.6833907e-08 max: 0.0004413335
Igniting cell 517 state : 4.5658016e-05 20.03629 0.45970968 0.26613585
DILUPBiCGStab:  Solving for b, Initial residual = 3.8017775e-07, Final residual = 3.8017775e-07, No Iterations 0
min(b) = 4.5658016e-05
Combustion progress = 0.018132383%
DILUPBiCGStab:  Solving for Xi, Initial residual = 4.5750638e-07, Final residual = 4.5750638e-07, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00097188613, Final residual = 1.7657044e-10, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 7.2368526e-05, Final residual = 1.2269151e-08, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 5.601816e-05, Final residual = 9.0486939e-09, No Iterations 1
DICPCG:  Solving for p, Initial residual = 4.4770742e-05, Final residual = 6.6847785e-13, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 1.2644832e-05, global = 1.6994503e-08, cumulative = -0.00011202862
DILUPBiCGStab:  Solving for epsilon, Initial residual = 1.0647882e-05, Final residual = 3.5481983e-10, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 2.3464746e-05, Final residual = 1.754814e-09, No Iterations 1

ExecutionTime = 16.95 s

Courant Number mean: 3.3097566e-05 max: 0.23165297
deltaT = 3.3627283e-07


Time = 0.0125701
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 83014.181
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 5.7730938e-08 max: 0.00038030054
Igniting cell 517 state : 4.5658016e-05 20.03629 0.45970967 0.26613585
DILUPBiCGStab:  Solving for b, Initial residual = 4.3064362e-06, Final residual = 1.7829265e-10, No Iterations 1
min(b) = 4.5658558e-05
Combustion progress = 0.018134837%
DILUPBiCGStab:  Solving for Xi, Initial residual = 4.798909e-06, Final residual = 2.4512622e-10, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00076570914, Final residual = 1.2049215e-10, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00069619781, Final residual = 7.3339085e-08, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00057910708, Final residual = 6.2140879e-08, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.001713176, Final residual = 1.7167824e-11, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 1.223934e-05, global = 1.4648482e-08, cumulative = -0.00011201398
StCorr = 1
St courant Number mean: 5.7721475e-08 max: 0.00038030437
Igniting cell 517 state : 4.5658558e-05 20.036819 0.45970938 0.26612891
DILUPBiCGStab:  Solving for b, Initial residual = 3.7352991e-07, Final residual = 3.7352991e-07, No Iterations 0
min(b) = 4.5658558e-05
Combustion progress = 0.018134837%
DILUPBiCGStab:  Solving for Xi, Initial residual = 4.420555e-07, Final residual = 4.420555e-07, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00091278847, Final residual = 1.2706041e-10, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 6.8129185e-05, Final residual = 1.0904238e-08, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 5.2493703e-05, Final residual = 8.2770128e-09, No Iterations 1
DICPCG:  Solving for p, Initial residual = 4.1739017e-05, Final residual = 5.1613066e-13, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 1.2059368e-05, global = 1.4648482e-08, cumulative = -0.00011199933
DILUPBiCGStab:  Solving for epsilon, Initial residual = 1.0100748e-05, Final residual = 3.4351621e-10, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 2.219049e-05, Final residual = 1.5704655e-09, No Iterations 1

ExecutionTime = 17.07 s

Courant Number mean: 3.1916151e-05 max: 0.23068953
deltaT = 2.9105093e-07


Time = 0.0125703
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 84314.692
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 5.0084849e-08 max: 0.00032916554
Igniting cell 517 state : 4.5658558e-05 20.036819 0.45970937 0.26612891
DILUPBiCGStab:  Solving for b, Initial residual = 3.9447321e-06, Final residual = 1.6166684e-10, No Iterations 1
min(b) = 4.5659016e-05
Combustion progress = 0.018137065%
DILUPBiCGStab:  Solving for Xi, Initial residual = 4.4151044e-06, Final residual = 2.220777e-10, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00073422534, Final residual = 1.1033952e-10, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00065673454, Final residual = 6.6129767e-08, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00054704426, Final residual = 5.6238913e-08, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0016336011, Final residual = 1.2302905e-11, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 1.1729942e-05, global = 1.2681851e-08, cumulative = -0.00011198665
StCorr = 1
St courant Number mean: 5.0075665e-08 max: 0.00032916842
Igniting cell 517 state : 4.5659016e-05 20.037276 0.45970912 0.26612049
DILUPBiCGStab:  Solving for b, Initial residual = 2.9984932e-07, Final residual = 2.9984932e-07, No Iterations 0
min(b) = 4.5659016e-05
Combustion progress = 0.018137065%
DILUPBiCGStab:  Solving for Xi, Initial residual = 3.6322315e-07, Final residual = 3.6322315e-07, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00087998367, Final residual = 1.5511845e-10, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 6.4070984e-05, Final residual = 8.6254302e-09, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 4.9790895e-05, Final residual = 7.153373e-09, No Iterations 1
DICPCG:  Solving for p, Initial residual = 3.8841567e-05, Final residual = 3.3140913e-13, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 1.1556791e-05, global = 1.2681852e-08, cumulative = -0.00011197396
DILUPBiCGStab:  Solving for epsilon, Initial residual = 9.6444941e-06, Final residual = 3.3500196e-10, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 2.1111717e-05, Final residual = 1.4324964e-09, No Iterations 1

ExecutionTime = 17.2 s

Courant Number mean: 3.0922925e-05 max: 0.22764526
deltaT = 2.5533222e-07


Time = 0.0125706
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 85616.865
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 4.4044428e-08 max: 0.00028877522
Igniting cell 517 state : 4.5659016e-05 20.037276 0.45970912 0.26612049
DILUPBiCGStab:  Solving for b, Initial residual = 3.6730242e-06, Final residual = 1.4468275e-10, No Iterations 1
min(b) = 4.5659369e-05
Combustion progress = 0.018139118%
DILUPBiCGStab:  Solving for Xi, Initial residual = 4.1322226e-06, Final residual = 1.9982759e-10, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0008421533, Final residual = 1.155555e-10, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00062672878, Final residual = 5.852104e-08, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.0005228102, Final residual = 5.0059952e-08, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0015785827, Final residual = 9.0270352e-12, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 1.1392183e-05, global = 1.1128002e-08, cumulative = -0.00011196284
StCorr = 1
St courant Number mean: 4.4035317e-08 max: 0.0002887774
Igniting cell 517 state : 4.5659369e-05 20.037678 0.45970889 0.26611309
DILUPBiCGStab:  Solving for b, Initial residual = 3.0084313e-07, Final residual = 3.0084313e-07, No Iterations 0
min(b) = 4.5659369e-05
Combustion progress = 0.018139118%
DILUPBiCGStab:  Solving for Xi, Initial residual = 3.6550685e-07, Final residual = 3.6550685e-07, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0010021901, Final residual = 2.1826831e-10, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 6.1953253e-05, Final residual = 8.3247746e-09, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 4.7885173e-05, Final residual = 6.9901771e-09, No Iterations 1
DICPCG:  Solving for p, Initial residual = 3.7603391e-05, Final residual = 2.3828723e-13, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 1.1221701e-05, global = 1.1128002e-08, cumulative = -0.00011195171
DILUPBiCGStab:  Solving for epsilon, Initial residual = 9.3456204e-06, Final residual = 3.3745942e-10, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 2.0382147e-05, Final residual = 1.3643472e-09, No Iterations 1

ExecutionTime = 17.32 s

Courant Number mean: 3.03578e-05 max: 0.22373635
deltaT = 2.279447e-07


Time = 0.0125708
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 86934.528
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 3.941814e-08 max: 0.0002578052
Igniting cell 517 state : 4.5659369e-05 20.037678 0.45970889 0.26611309
DILUPBiCGStab:  Solving for b, Initial residual = 3.4810273e-06, Final residual = 1.3283092e-10, No Iterations 1
min(b) = 4.5659634e-05
Combustion progress = 0.018141049%
DILUPBiCGStab:  Solving for Xi, Initial residual = 3.9318309e-06, Final residual = 1.8352193e-10, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00081394189, Final residual = 7.8844556e-11, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00061049066, Final residual = 5.4918698e-08, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00050992599, Final residual = 4.7218373e-08, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0015538548, Final residual = 7.0773605e-12, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 1.1252985e-05, global = 9.9363569e-09, cumulative = -0.00011194177
StCorr = 1
St courant Number mean: 3.9408944e-08 max: 0.00025780692
Igniting cell 517 state : 4.5659634e-05 20.038036 0.45970869 0.26610646
DILUPBiCGStab:  Solving for b, Initial residual = 3.9327835e-07, Final residual = 3.9327835e-07, No Iterations 0
min(b) = 4.5659634e-05
Combustion progress = 0.018141049%
DILUPBiCGStab:  Solving for Xi, Initial residual = 4.8667785e-07, Final residual = 4.8667785e-07, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00093986128, Final residual = 1.1606595e-10, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 6.2241008e-05, Final residual = 8.4393756e-09, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 4.805987e-05, Final residual = 6.4464733e-09, No Iterations 1
DICPCG:  Solving for p, Initial residual = 3.8632886e-05, Final residual = 1.8967876e-13, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 1.1079667e-05, global = 9.936357e-09, cumulative = -0.00011193183
DILUPBiCGStab:  Solving for epsilon, Initial residual = 9.2226933e-06, Final residual = 3.5501408e-10, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 2.0039217e-05, Final residual = 1.3636895e-09, No Iterations 1

ExecutionTime = 17.44 s

Courant Number mean: 3.0303395e-05 max: 0.21914806
deltaT = 2.0778e-07


Time = 0.012571
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 88286.073
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 3.6024621e-08 max: 0.00023500277
Igniting cell 517 state : 4.5659634e-05 20.038036 0.45970869 0.26610646
DILUPBiCGStab:  Solving for b, Initial residual = 3.3762198e-06, Final residual = 1.358467e-10, No Iterations 1
min(b) = 4.5659822e-05
Combustion progress = 0.018142905%
DILUPBiCGStab:  Solving for Xi, Initial residual = 3.8306753e-06, Final residual = 1.89416e-10, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0008077083, Final residual = 1.0961515e-10, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00060782321, Final residual = 5.5053144e-08, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00050852349, Final residual = 4.7676006e-08, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.001560361, Final residual = 5.9102412e-12, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 1.1342512e-05, global = 9.0589649e-09, cumulative = -0.00011192278
StCorr = 1
St courant Number mean: 3.6015816e-08 max: 0.00023500418
Igniting cell 517 state : 4.5659822e-05 20.038363 0.45970851 0.26610041
DILUPBiCGStab:  Solving for b, Initial residual = 2.9279056e-07, Final residual = 2.9279056e-07, No Iterations 0
min(b) = 4.5659822e-05
Combustion progress = 0.018142905%
DILUPBiCGStab:  Solving for Xi, Initial residual = 3.5358465e-07, Final residual = 3.5358465e-07, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00092196958, Final residual = 1.4326762e-10, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 6.119414e-05, Final residual = 7.0901881e-09, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 4.6957192e-05, Final residual = 5.8843625e-09, No Iterations 1
DICPCG:  Solving for p, Initial residual = 3.9129916e-05, Final residual = 1.5956318e-13, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 1.1157413e-05, global = 9.058965e-09, cumulative = -0.00011191372
DILUPBiCGStab:  Solving for epsilon, Initial residual = 9.2916851e-06, Final residual = 3.941829e-10, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 2.0116187e-05, Final residual = 1.4417528e-09, No Iterations 1

ExecutionTime = 17.56 s

Courant Number mean: 3.0881668e-05 max: 0.21695388
deltaT = 1.9133505e-07


Time = 0.0125712
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 89695.415
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 3.3265446e-08 max: 0.00021640648
Igniting cell 517 state : 4.5659822e-05 20.038363 0.4597085 0.26610041
DILUPBiCGStab:  Solving for b, Initial residual = 3.3133984e-06, Final residual = 1.3974533e-10, No Iterations 1
min(b) = 4.5659957e-05
Combustion progress = 0.018144704%
DILUPBiCGStab:  Solving for Xi, Initial residual = 3.7784313e-06, Final residual = 1.9635119e-10, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00078241123, Final residual = 9.3465757e-11, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00061428769, Final residual = 4.6889351e-08, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00051470031, Final residual = 4.1442704e-08, No Iterations 1
DICPCG:  Solving for p, Initial residual = 0.0015792458, Final residual = 5.0870691e-12, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 1.1533144e-05, global = 8.3433381e-09, cumulative = -0.00011190537
StCorr = 1
St courant Number mean: 3.3257403e-08 max: 0.00021640766
Igniting cell 517 state : 4.5659957e-05 20.038664 0.45970834 0.26609482
DILUPBiCGStab:  Solving for b, Initial residual = 3.0078979e-07, Final residual = 3.0078979e-07, No Iterations 0
min(b) = 4.5659957e-05
Combustion progress = 0.018144704%
DILUPBiCGStab:  Solving for Xi, Initial residual = 3.7012042e-07, Final residual = 3.7012042e-07, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00089280826, Final residual = 9.5712858e-11, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 6.1927364e-05, Final residual = 6.992518e-09, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 4.7233568e-05, Final residual = 5.8371101e-09, No Iterations 1
DICPCG:  Solving for p, Initial residual = 4.05256e-05, Final residual = 1.3749196e-13, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 1.133256e-05, global = 8.3433381e-09, cumulative = -0.00011189703
DILUPBiCGStab:  Solving for epsilon, Initial residual = 9.4517744e-06, Final residual = 4.4793028e-10, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 2.027677e-05, Final residual = 1.6460839e-09, No Iterations 1

ExecutionTime = 17.7 s

Courant Number mean: 3.1799054e-05 max: 0.21549285
deltaT = 1.7739934e-07


Time = 0.0125714
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 91173.619
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 3.0936024e-08 max: 0.00020064746
Igniting cell 517 state : 4.5659957e-05 20.038664 0.45970833 0.26609482
DILUPBiCGStab:  Solving for b, Initial residual = 3.2719139e-06, Final residual = 1.4790927e-10, No Iterations 1
min(b) = 4.5660056e-05
Combustion progress = 0.01814647%
DILUPBiCGStab:  Solving for Xi, Initial residual = 3.7454236e-06, Final residual = 2.0740332e-10, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00077604418, Final residual = 1.0362591e-10, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00062125574, Final residual = 5.5102678e-08, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00052144009, Final residual = 4.8561134e-08, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.86564
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.86552
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.86564
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.86552
DICPCG:  Solving for p, Initial residual = 0.0016049381, Final residual = 4.5170758e-12, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 1.1778161e-05, global = 7.7368159e-09, cumulative = -0.00011188929
StCorr = 1
St courant Number mean: 3.09285e-08 max: 0.00020064847
Igniting cell 517 state : 4.5660056e-05 20.038943 0.45970818 0.26608963
DILUPBiCGStab:  Solving for b, Initial residual = 3.3905638e-07, Final residual = 3.3905638e-07, No Iterations 0
min(b) = 4.5660056e-05
Combustion progress = 0.01814647%
DILUPBiCGStab:  Solving for Xi, Initial residual = 3.8054223e-07, Final residual = 3.8054223e-07, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00088628729, Final residual = 1.8638869e-10, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 6.1209509e-05, Final residual = 1.1720866e-08, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 4.6970641e-05, Final residual = 8.9387895e-09, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.68403
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.68403
DICPCG:  Solving for p, Initial residual = 4.2947755e-05, Final residual = 1.1233415e-13, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 1.1560131e-05, global = 7.736816e-09, cumulative = -0.00011188156
DILUPBiCGStab:  Solving for epsilon, Initial residual = 9.6711913e-06, Final residual = 5.1580571e-10, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 2.0498617e-05, Final residual = 1.9137944e-09, No Iterations 1

ExecutionTime = 17.82 s

Courant Number mean: 3.2971303e-05 max: 0.21409817
deltaT = 1.6556191e-07


Time = 0.0125716
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 92728.058
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 2.8970129e-08 max: 0.00018726112
Igniting cell 517 state : 4.5660056e-05 20.038943 0.45970818 0.26608963
DILUPBiCGStab:  Solving for b, Initial residual = 3.2625261e-06, Final residual = 1.5914378e-10, No Iterations 1
min(b) = 4.5660125e-05
Combustion progress = 0.018148207%
DILUPBiCGStab:  Solving for Xi, Initial residual = 3.7487082e-06, Final residual = 2.2432769e-10, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00076403924, Final residual = 1.0326732e-10, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00063159598, Final residual = 4.7286602e-08, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00053094289, Final residual = 4.2867807e-08, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.11963
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.11963
DICPCG:  Solving for p, Initial residual = 0.0016382421, Final residual = 4.0035095e-12, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 1.2078227e-05, global = 7.2215594e-09, cumulative = -0.00011187433
StCorr = 1
St courant Number mean: 2.8963901e-08 max: 0.00018726199
Igniting cell 517 state : 4.5660125e-05 20.039203 0.45970803 0.26608477
DILUPBiCGStab:  Solving for b, Initial residual = 2.7941359e-07, Final residual = 2.7941359e-07, No Iterations 0
min(b) = 4.5660125e-05
Combustion progress = 0.018148207%
DILUPBiCGStab:  Solving for Xi, Initial residual = 3.329864e-07, Final residual = 3.329864e-07, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00088028632, Final residual = 1.4049572e-10, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 6.4664647e-05, Final residual = 9.9117425e-09, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 4.930916e-05, Final residual = 8.3152231e-09, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 196.92041
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 196.92041
DICPCG:  Solving for p, Initial residual = 4.6554359e-05, Final residual = 1.0631186e-13, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 1.1839116e-05, global = 7.2215595e-09, cumulative = -0.00011186711
DILUPBiCGStab:  Solving for epsilon, Initial residual = 9.9493309e-06, Final residual = 6.0079767e-10, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 2.0826554e-05, Final residual = 2.2405559e-09, No Iterations 1

ExecutionTime = 17.94 s

Courant Number mean: 3.4423954e-05 max: 0.21270592
deltaT = 1.5553342e-07


Time = 0.0125717
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 94367.182
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 2.7324487e-08 max: 0.00017592034
Igniting cell 517 state : 4.5660125e-05 20.039203 0.45970803 0.26608477
DILUPBiCGStab:  Solving for b, Initial residual = 3.2749333e-06, Final residual = 1.6749922e-10, No Iterations 1
min(b) = 4.5660173e-05
Combustion progress = 0.018149947%
DILUPBiCGStab:  Solving for Xi, Initial residual = 3.7802987e-06, Final residual = 2.3631611e-10, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0007731568, Final residual = 1.2311222e-10, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.000648007, Final residual = 5.5235941e-08, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00054561175, Final residual = 4.3466073e-08, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.25533
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.25533
DICPCG:  Solving for p, Initial residual = 0.0016780063, Final residual = 3.6521615e-12, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 1.2434936e-05, global = 6.7850122e-09, cumulative = -0.00011186033
StCorr = 1
St courant Number mean: 2.7319395e-08 max: 0.00017592108
Igniting cell 517 state : 4.5660173e-05 20.039448 0.45970789 0.26607999
DILUPBiCGStab:  Solving for b, Initial residual = 3.2905109e-07, Final residual = 3.2905109e-07, No Iterations 0
min(b) = 4.5660173e-05
Combustion progress = 0.018149947%
DILUPBiCGStab:  Solving for Xi, Initial residual = 3.8490948e-07, Final residual = 3.8490948e-07, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00088245723, Final residual = 1.5490486e-10, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 6.7374367e-05, Final residual = 1.0483942e-08, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 5.1665826e-05, Final residual = 8.6245373e-09, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.01953
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.01953
DICPCG:  Solving for p, Initial residual = 5.1785417e-05, Final residual = 9.6860006e-14, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 1.2165798e-05, global = 6.7850122e-09, cumulative = -0.00011185354
DILUPBiCGStab:  Solving for epsilon, Initial residual = 1.0289706e-05, Final residual = 7.0745126e-10, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 2.125463e-05, Final residual = 2.6421227e-09, No Iterations 1

ExecutionTime = 18.06 s

Courant Number mean: 3.6187079e-05 max: 0.23395457
deltaT = 1.3285894e-07


Time = 0.0125719
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 96099.771
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 2.3442295e-08 max: 0.00015027531
Igniting cell 517 state : 4.5660173e-05 20.039448 0.45970789 0.26607999
DILUPBiCGStab:  Solving for b, Initial residual = 2.9909624e-06, Final residual = 1.4017369e-10, No Iterations 1
min(b) = 4.5660264e-05
Combustion progress = 0.018151553%
DILUPBiCGStab:  Solving for Xi, Initial residual = 3.4639912e-06, Final residual = 1.990356e-10, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00083857367, Final residual = 1.1429209e-10, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00060602531, Final residual = 5.0059349e-08, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00051059043, Final residual = 4.1696592e-08, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.70122
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.70106
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 193.37842
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.70122
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.70106
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 193.37842
DICPCG:  Solving for p, Initial residual = 0.0015560586, Final residual = 2.5111778e-12, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 1.1628197e-05, global = 5.7965518e-09, cumulative = -0.00011184775
StCorr = 1
St courant Number mean: 2.3439144e-08 max: 0.00015027584
Igniting cell 517 state : 4.5660264e-05 20.039657 0.45970777 0.26607595
DILUPBiCGStab:  Solving for b, Initial residual = 3.2029365e-07, Final residual = 3.2029365e-07, No Iterations 0
min(b) = 4.5660264e-05
Combustion progress = 0.018151553%
DILUPBiCGStab:  Solving for Xi, Initial residual = 3.7100346e-07, Final residual = 3.7100346e-07, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00093912602, Final residual = 1.8730969e-10, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 6.1531723e-05, Final residual = 1.9996836e-08, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 4.9376864e-05, Final residual = 1.5623924e-08, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.91944
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 193.54841
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.91944
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 193.54841
DICPCG:  Solving for p, Initial residual = 4.6548725e-05, Final residual = 6.2615703e-14, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 1.1382188e-05, global = 5.7965518e-09, cumulative = -0.00011184195
DILUPBiCGStab:  Solving for epsilon, Initial residual = 9.6891919e-06, Final residual = 6.3733544e-10, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 1.9747411e-05, Final residual = 2.3711334e-09, No Iterations 1

ExecutionTime = 18.19 s

Courant Number mean: 3.4676438e-05 max: 0.23847186
deltaT = 1.1135478e-07


Time = 0.012572
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 97766.335
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 1.9742526e-08 max: 0.00012595328
Igniting cell 517 state : 4.5660264e-05 20.039657 0.45970777 0.26607595
DILUPBiCGStab:  Solving for b, Initial residual = 2.6805586e-06, Final residual = 1.0864668e-10, No Iterations 1
min(b) = 4.5660366e-05
Combustion progress = 0.01815295%
DILUPBiCGStab:  Solving for Xi, Initial residual = 3.116075e-06, Final residual = 1.546664e-10, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00081608903, Final residual = 8.5234081e-11, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00054959034, Final residual = 3.9921156e-08, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00046345611, Final residual = 3.6069386e-08, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.68505
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 192.33443
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.68505
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 192.33443
DICPCG:  Solving for p, Initial residual = 0.0014231471, Final residual = 1.6327709e-12, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 1.0689731e-05, global = 4.8588345e-09, cumulative = -0.00011183709
StCorr = 1
St courant Number mean: 1.9741038e-08 max: 0.00012595362
Igniting cell 517 state : 4.5660366e-05 20.039832 0.45970767 0.26607199
DILUPBiCGStab:  Solving for b, Initial residual = 2.5687576e-07, Final residual = 2.5687576e-07, No Iterations 0
min(b) = 4.5660366e-05
Combustion progress = 0.01815295%
DILUPBiCGStab:  Solving for Xi, Initial residual = 2.9387826e-07, Final residual = 2.9387826e-07, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00090873273, Final residual = 9.6476672e-11, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 5.3378954e-05, Final residual = 8.1509068e-09, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 4.1491494e-05, Final residual = 6.3811969e-09, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.62754
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 192.24384
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.62754
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 192.24384
DICPCG:  Solving for p, Initial residual = 4.070157e-05, Final residual = 3.8286862e-14, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 1.0475721e-05, global = 4.8588345e-09, cumulative = -0.00011183223
DILUPBiCGStab:  Solving for epsilon, Initial residual = 8.9752608e-06, Final residual = 5.5140372e-10, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 1.8047299e-05, Final residual = 2.0140143e-09, No Iterations 1

ExecutionTime = 18.33 s

Courant Number mean: 3.2706778e-05 max: 0.23878887
deltaT = 9.3216273e-08


Time = 0.0125721
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 99342.337
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 1.661668e-08 max: 0.00010543758
Igniting cell 517 state : 4.5660366e-05 20.039832 0.45970767 0.26607199
DILUPBiCGStab:  Solving for b, Initial residual = 2.4178679e-06, Final residual = 8.995331e-11, No Iterations 1
min(b) = 4.5660449e-05
Combustion progress = 0.018154202%
DILUPBiCGStab:  Solving for Xi, Initial residual = 2.818897e-06, Final residual = 1.2786258e-10, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00079076337, Final residual = 5.5508374e-11, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00050176228, Final residual = 3.2549332e-08, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00042298258, Final residual = 2.9099125e-08, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 196.51992
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 191.15396
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 196.51992
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 191.15396
DICPCG:  Solving for p, Initial residual = 0.0013068652, Final residual = 1.0589246e-12, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 9.8390855e-06, global = 4.0677298e-09, cumulative = -0.00011182816
StCorr = 1
St courant Number mean: 1.6616139e-08 max: 0.00010543781
Igniting cell 517 state : 4.5660449e-05 20.039979 0.45970759 0.26606867
DILUPBiCGStab:  Solving for b, Initial residual = 2.1997757e-07, Final residual = 2.1997757e-07, No Iterations 0
min(b) = 4.5660449e-05
Combustion progress = 0.018154202%
DILUPBiCGStab:  Solving for Xi, Initial residual = 2.6595564e-07, Final residual = 2.6595564e-07, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00088169806, Final residual = 1.0058446e-10, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 5.2207431e-05, Final residual = 5.7354352e-09, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 4.0348816e-05, Final residual = 4.3787617e-09, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 196.3929
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 190.99852
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 196.3929
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 190.99852
DICPCG:  Solving for p, Initial residual = 3.7717428e-05, Final residual = 3.5289028e-14, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 9.6515658e-06, global = 4.0677298e-09, cumulative = -0.0001118241
DILUPBiCGStab:  Solving for epsilon, Initial residual = 8.3274015e-06, Final residual = 4.7557686e-10, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 1.6518422e-05, Final residual = 1.704187e-09, No Iterations 1

ExecutionTime = 18.46 s

Courant Number mean: 3.0906001e-05 max: 0.23912256
deltaT = 7.7930428e-08


Time = 0.0125721
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 100833.27
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 1.3979115e-08 max: 8.814816e-05
Igniting cell 517 state : 4.5660449e-05 20.039979 0.45970759 0.26606867
DILUPBiCGStab:  Solving for b, Initial residual = 2.1562228e-06, Final residual = 7.1575429e-11, No Iterations 1
min(b) = 4.5660507e-05
Combustion progress = 0.018155308%
DILUPBiCGStab:  Solving for Xi, Initial residual = 2.5219195e-06, Final residual = 1.0167642e-10, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00077323924, Final residual = 8.4454296e-11, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00045952091, Final residual = 2.6993849e-08, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00038740058, Final residual = 2.3269559e-08, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.35209
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 189.97252
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.35209
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 189.97252
DICPCG:  Solving for p, Initial residual = 0.0012025675, Final residual = 6.8659411e-13, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 9.0661043e-06, global = 3.4009363e-09, cumulative = -0.0001118207
StCorr = 1
St courant Number mean: 1.398085e-08 max: 8.8148322e-05
Igniting cell 517 state : 4.5660507e-05 20.040101 0.45970752 0.2660659
DILUPBiCGStab:  Solving for b, Initial residual = 1.9666623e-07, Final residual = 1.9666623e-07, No Iterations 0
min(b) = 4.5660507e-05
Combustion progress = 0.018155308%
DILUPBiCGStab:  Solving for Xi, Initial residual = 2.3235342e-07, Final residual = 2.3235342e-07, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00085867534, Final residual = 8.8555925e-11, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 5.2765313e-05, Final residual = 6.7851924e-09, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 4.1104825e-05, Final residual = 5.5529631e-09, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.21772
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 189.81239
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.21772
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 189.81239
DICPCG:  Solving for p, Initial residual = 3.4717891e-05, Final residual = 2.3188026e-14, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 8.9025339e-06, global = 3.4009363e-09, cumulative = -0.0001118173
DILUPBiCGStab:  Solving for epsilon, Initial residual = 7.7319785e-06, Final residual = 4.0937903e-10, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 1.5074967e-05, Final residual = 1.4469926e-09, No Iterations 1

ExecutionTime = 18.6 s

Courant Number mean: 2.9256225e-05 max: 0.23945228
deltaT = 6.5066494e-08


Time = 0.0125722
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 102244.37
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 1.1758719e-08 max: 7.3597946e-05
Igniting cell 517 state : 4.5660507e-05 20.040101 0.45970752 0.2660659
DILUPBiCGStab:  Solving for b, Initial residual = 1.937148e-06, Final residual = 5.6839151e-11, No Iterations 1
min(b) = 4.5660539e-05
Combustion progress = 0.018156307%
DILUPBiCGStab:  Solving for Xi, Initial residual = 2.2733605e-06, Final residual = 8.1241599e-11, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00083447078, Final residual = 6.9368779e-11, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00042127284, Final residual = 2.3023972e-08, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00035547278, Final residual = 1.831082e-08, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 194.21639
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 188.82509
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 194.21639
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 188.82509
DICPCG:  Solving for p, Initial residual = 0.0011086238, Final residual = 4.4311429e-13, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 8.3649455e-06, global = 2.8397153e-09, cumulative = -0.00011181446
StCorr = 1
St courant Number mean: 1.1761739e-08 max: 7.3598065e-05
Igniting cell 517 state : 4.5660539e-05 20.040204 0.45970746 0.26606432
DILUPBiCGStab:  Solving for b, Initial residual = 2.1086499e-07, Final residual = 2.1086499e-07, No Iterations 0
min(b) = 4.5660539e-05
Combustion progress = 0.018156307%
DILUPBiCGStab:  Solving for Xi, Initial residual = 2.4930221e-07, Final residual = 2.4930221e-07, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00092906762, Final residual = 9.2021164e-11, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 4.5695286e-05, Final residual = 5.0036469e-09, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 3.6023452e-05, Final residual = 4.0917213e-09, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 194.089
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 188.67431
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 194.089
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 188.67431
DICPCG:  Solving for p, Initial residual = 3.0567352e-05, Final residual = 7.8107871e-15, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 8.2182771e-06, global = 2.8397153e-09, cumulative = -0.00011181162
DILUPBiCGStab:  Solving for epsilon, Initial residual = 7.1847716e-06, Final residual = 3.5177929e-10, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 1.3777609e-05, Final residual = 1.2245712e-09, No Iterations 1

ExecutionTime = 18.73 s

Courant Number mean: 2.7735039e-05 max: 0.23976382
deltaT = 5.4258676e-08


Time = 0.0125723
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 103580.39
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 9.8930161e-09 max: 6.1373268e-05
Igniting cell 517 state : 4.5660539e-05 20.040204 0.45970746 0.26606432
DILUPBiCGStab:  Solving for b, Initial residual = 1.7425907e-06, Final residual = 4.1457979e-11, No Iterations 1
min(b) = 4.5660554e-05
Combustion progress = 0.018157197%
DILUPBiCGStab:  Solving for Xi, Initial residual = 2.0510915e-06, Final residual = 6.0293481e-11, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00080654983, Final residual = 5.1585728e-11, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00039023895, Final residual = 1.9913021e-08, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00032934819, Final residual = 1.59489e-08, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 193.14075
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 187.73833
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 193.14075
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 187.73833
DICPCG:  Solving for p, Initial residual = 0.0010241269, Final residual = 2.8755266e-13, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 7.7285995e-06, global = 2.3681449e-09, cumulative = -0.00011180925
StCorr = 1
St courant Number mean: 9.8970956e-09 max: 6.1373346e-05
Igniting cell 517 state : 4.5660554e-05 20.040289 0.45970741 0.26606238
DILUPBiCGStab:  Solving for b, Initial residual = 1.9824172e-07, Final residual = 1.9824172e-07, No Iterations 0
min(b) = 4.5660554e-05
Combustion progress = 0.018157197%
DILUPBiCGStab:  Solving for Xi, Initial residual = 2.3079589e-07, Final residual = 2.3079589e-07, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00086501454, Final residual = 6.933865e-11, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 3.9942765e-05, Final residual = 3.1827917e-09, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 3.126621e-05, Final residual = 2.538651e-09, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 193.01919
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 187.59563
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 193.01919
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 187.59563
DICPCG:  Solving for p, Initial residual = 2.6926145e-05, Final residual = 5.8853719e-15, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 7.5970043e-06, global = 2.3681449e-09, cumulative = -0.00011180688
DILUPBiCGStab:  Solving for epsilon, Initial residual = 6.6805345e-06, Final residual = 3.013325e-10, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 1.2619091e-05, Final residual = 1.0316207e-09, No Iterations 1

ExecutionTime = 18.85 s

Courant Number mean: 2.6321134e-05 max: 0.24006547
deltaT = 4.519163e-08


Time = 0.0125723
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 104845.06
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 8.3283605e-09 max: 5.1117492e-05
Igniting cell 517 state : 4.5660554e-05 20.040289 0.45970741 0.26606238
DILUPBiCGStab:  Solving for b, Initial residual = 1.576542e-06, Final residual = 3.3179839e-11, No Iterations 1
min(b) = 4.5660554e-05
Combustion progress = 0.018157982%
DILUPBiCGStab:  Solving for Xi, Initial residual = 1.8480927e-06, Final residual = 4.8018183e-11, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00077027097, Final residual = 6.913074e-11, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00035855308, Final residual = 1.648788e-08, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00030269245, Final residual = 1.3254087e-08, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.43345
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.43325
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 192.12214
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 186.70926
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.43345
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.43325
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 192.12214
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 186.70926
DICPCG:  Solving for p, Initial residual = 0.00094571509, Final residual = 1.8205891e-13, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 7.146688e-06, global = 1.9724915e-09, cumulative = -0.00011180491
StCorr = 1
St courant Number mean: 8.3336108e-09 max: 5.1117543e-05
Igniting cell 517 state : 4.5660554e-05 20.04036 0.45970737 0.26606077
DILUPBiCGStab:  Solving for b, Initial residual = 2.4515874e-07, Final residual = 2.4515874e-07, No Iterations 0
min(b) = 4.5660554e-05
Combustion progress = 0.018157982%
DILUPBiCGStab:  Solving for Xi, Initial residual = 3.0691124e-07, Final residual = 3.0691124e-07, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00084221958, Final residual = 7.744017e-11, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 3.9915805e-05, Final residual = 3.1571452e-09, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 3.1426221e-05, Final residual = 2.5602329e-09, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.18757
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 192.00665
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 186.5747
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.18757
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 192.00665
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 186.5747
DICPCG:  Solving for p, Initial residual = 2.5812957e-05, Final residual = 5.7303986e-15, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 7.0329395e-06, global = 1.9724915e-09, cumulative = -0.00011180293
DILUPBiCGStab:  Solving for epsilon, Initial residual = 6.2178513e-06, Final residual = 2.6470381e-10, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 1.1579506e-05, Final residual = 8.6561692e-10, No Iterations 1

ExecutionTime = 18.97 s

Courant Number mean: 2.5021482e-05 max: 0.24036903
deltaT = 3.7593741e-08


Time = 0.0125723
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 106042.01
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 7.0186307e-09 max: 4.2523428e-05
Igniting cell 517 state : 4.5660554e-05 20.04036 0.45970737 0.26606077
DILUPBiCGStab:  Solving for b, Initial residual = 1.4165646e-06, Final residual = 2.7372539e-11, No Iterations 1
min(b) = 4.566054e-05
Combustion progress = 0.018158682%
DILUPBiCGStab:  Solving for Xi, Initial residual = 1.6698131e-06, Final residual = 3.9699314e-11, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00076138021, Final residual = 2.4667472e-11, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00033145578, Final residual = 1.3702158e-08, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00028043115, Final residual = 1.1037317e-08, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.96856
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.81201
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.81171
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.32132
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.32116
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 191.16636
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 185.74317
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.96856
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.81201
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.81171
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.32132
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.32116
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 191.16636
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 185.74317
DICPCG:  Solving for p, Initial residual = 0.00087516806, Final residual = 1.1675834e-13, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 6.6152596e-06, global = 1.6409213e-09, cumulative = -0.00011180129
StCorr = 1
St courant Number mean: 7.0251039e-09 max: 4.2523465e-05
Igniting cell 517 state : 4.566054e-05 20.040419 0.45970734 0.26605984
DILUPBiCGStab:  Solving for b, Initial residual = 1.4169214e-07, Final residual = 1.4169214e-07, No Iterations 0
min(b) = 4.566054e-05
Combustion progress = 0.018158682%
DILUPBiCGStab:  Solving for Xi, Initial residual = 1.7153464e-07, Final residual = 1.7153464e-07, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00080226309, Final residual = 5.7430012e-11, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 3.5397081e-05, Final residual = 2.349967e-09, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 2.8382455e-05, Final residual = 1.8997411e-09, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.63659
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.87326
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.76421
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 191.05162
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 185.61135
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.63659
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.87326
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.76421
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 191.05162
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 185.61135
DICPCG:  Solving for p, Initial residual = 2.3250207e-05, Final residual = 1.7283967e-15, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 6.5191356e-06, global = 1.6409213e-09, cumulative = -0.00011179965
DILUPBiCGStab:  Solving for epsilon, Initial residual = 5.7983654e-06, Final residual = 2.2454265e-10, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 1.0640966e-05, Final residual = 7.2251454e-10, No Iterations 1

ExecutionTime = 19.11 s

Courant Number mean: 2.380004e-05 max: 0.24062662
deltaT = 3.1240941e-08


Time = 0.0125724
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 107174.76
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 5.9255857e-09 max: 3.6451847e-05
Igniting cell 517 state : 4.566054e-05 20.040419 0.45970734 0.26605984
DILUPBiCGStab:  Solving for b, Initial residual = 1.2727185e-06, Final residual = 2.1332734e-11, No Iterations 1
min(b) = 4.5660516e-05
Combustion progress = 0.018159308%
DILUPBiCGStab:  Solving for Xi, Initial residual = 1.5090168e-06, Final residual = 3.1112279e-11, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0008327812, Final residual = 2.3190056e-11, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00030368559, Final residual = 1.1381914e-08, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00025702049, Final residual = 9.197284e-09, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 196.50834
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.29902
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.80252
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 190.25789
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 184.82515
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 196.50834
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.29902
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.80252
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 190.25789
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 184.82515
DICPCG:  Solving for p, Initial residual = 0.00080954276, Final residual = 7.4252216e-14, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 6.128208e-06, global = 1.3636685e-09, cumulative = -0.00011179829
StCorr = 1
St courant Number mean: 5.9329254e-09 max: 3.7049875e-05
Igniting cell 517 state : 4.5660516e-05 20.040468 0.45970731 0.2660586
DILUPBiCGStab:  Solving for b, Initial residual = 1.4050773e-07, Final residual = 1.4050773e-07, No Iterations 0
min(b) = 4.5660516e-05
Combustion progress = 0.018159308%
DILUPBiCGStab:  Solving for Xi, Initial residual = 1.6947549e-07, Final residual = 1.6947549e-07, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00088905249, Final residual = 4.0489946e-11, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 3.3549646e-05, Final residual = 2.0353851e-09, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 2.7083714e-05, Final residual = 1.6563455e-09, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 196.23494
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.16714
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.06519
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 190.14921
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 184.70116
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 196.23494
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.16714
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.06519
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 190.14921
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 184.70116
DICPCG:  Solving for p, Initial residual = 2.1892965e-05, Final residual = 1.1608607e-15, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 6.0468646e-06, global = 1.3636685e-09, cumulative = -0.00011179693
DILUPBiCGStab:  Solving for epsilon, Initial residual = 5.413159e-06, Final residual = 1.9054259e-10, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 9.7907415e-06, Final residual = 6.0350689e-10, No Iterations 1

ExecutionTime = 19.25 s

Courant Number mean: 2.2669093e-05 max: 0.24086605
deltaT = 2.5936446e-08


Time = 0.0125724
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 108246.45
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 5.0152063e-09 max: 3.7308629e-05
Igniting cell 517 state : 4.5660516e-05 20.040468 0.45970731 0.2660586
DILUPBiCGStab:  Solving for b, Initial residual = 1.1444674e-06, Final residual = 1.7005203e-11, No Iterations 1
min(b) = 4.5660484e-05
Combustion progress = 0.018159873%
DILUPBiCGStab:  Solving for Xi, Initial residual = 1.3596051e-06, Final residual = 2.4859278e-11, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00077905593, Final residual = 2.4968425e-11, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.0002804809, Final residual = 9.570558e-09, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00023742742, Final residual = 7.7628055e-09, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.17706
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.69822
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 196.22006
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 189.39417
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 183.95292
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.17706
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.69822
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 196.22006
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 189.39417
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 183.95292
DICPCG:  Solving for p, Initial residual = 0.00075000842, Final residual = 4.7276284e-14, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 5.684319e-06, global = 1.1321541e-09, cumulative = -0.00011179579
StCorr = 1
St courant Number mean: 5.0234779e-09 max: 3.7962392e-05
Igniting cell 517 state : 4.5660484e-05 20.040509 0.45970728 0.26605769
DILUPBiCGStab:  Solving for b, Initial residual = 1.1096316e-07, Final residual = 1.1096316e-07, No Iterations 0
min(b) = 4.5660484e-05
Combustion progress = 0.018159873%
DILUPBiCGStab:  Solving for Xi, Initial residual = 1.3474701e-07, Final residual = 1.3474701e-07, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00085787247, Final residual = 4.0226676e-11, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 3.0079008e-05, Final residual = 1.7138499e-09, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 2.406393e-05, Final residual = 1.3964405e-09, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 194.89801
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.38643
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.2911
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 189.29739
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 183.84236
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 194.89801
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.38643
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.2911
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 189.29739
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 183.84236
DICPCG:  Solving for p, Initial residual = 1.9347879e-05, Final residual = 7.1294663e-16, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 5.6118377e-06, global = 1.1321541e-09, cumulative = -0.00011179466
DILUPBiCGStab:  Solving for epsilon, Initial residual = 5.0630217e-06, Final residual = 1.6181389e-10, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 9.0195782e-06, Final residual = 5.0340664e-10, No Iterations 1

ExecutionTime = 19.37 s

Courant Number mean: 2.1626926e-05 max: 0.24106716
deltaT = 2.1514625e-08


Time = 0.0125724
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 109260.09
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 4.2591531e-09 max: 3.8247064e-05
Igniting cell 517 state : 4.5660484e-05 20.040509 0.45970728 0.26605769
DILUPBiCGStab:  Solving for b, Initial residual = 1.0338533e-06, Final residual = 1.368371e-11, No Iterations 1
min(b) = 4.5660448e-05
Combustion progress = 0.018160388%
DILUPBiCGStab:  Solving for Xi, Initial residual = 1.2294277e-06, Final residual = 2.0187452e-11, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00077591425, Final residual = 2.9380675e-11, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00025885622, Final residual = 8.2885263e-09, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00021893296, Final residual = 6.7378976e-09, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 193.86366
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 193.85663
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 194.4169
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 188.58666
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 183.13733
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 193.86366
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 193.85663
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 194.4169
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 188.58666
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 183.13733
DICPCG:  Solving for p, Initial residual = 0.00069597569, Final residual = 3.0059465e-14, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 5.2757216e-06, global = 9.3915551e-10, cumulative = -0.00011179372
StCorr = 1
St courant Number mean: 4.2683948e-09 max: 3.8956629e-05
Igniting cell 517 state : 4.5660448e-05 20.040543 0.45970727 0.26605686
DILUPBiCGStab:  Solving for b, Initial residual = 1.2845659e-07, Final residual = 1.2845659e-07, No Iterations 0
min(b) = 4.5660448e-05
Combustion progress = 0.018160388%
DILUPBiCGStab:  Solving for Xi, Initial residual = 1.525402e-07, Final residual = 1.525402e-07, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0008061016, Final residual = 3.7824492e-11, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 2.8547411e-05, Final residual = 1.3924719e-09, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 2.2761299e-05, Final residual = 1.1297635e-09, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 193.61013
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 193.53473
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 193.44558
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 188.49948
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 183.03777
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 193.61013
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 193.53473
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 193.44558
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 188.49948
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 183.03777
DICPCG:  Solving for p, Initial residual = 1.7469935e-05, Final residual = 4.3405107e-16, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 5.2113848e-06, global = 9.3915551e-10, cumulative = -0.00011179278
DILUPBiCGStab:  Solving for epsilon, Initial residual = 4.742074e-06, Final residual = 1.3752565e-10, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 8.3182149e-06, Final residual = 4.1948566e-10, No Iterations 1

ExecutionTime = 19.5 s

Courant Number mean: 2.0664752e-05 max: 0.24122028
deltaT = 1.7835252e-08


Time = 0.0125724
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 110218.6
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 3.6333836e-09 max: 3.9277573e-05
Igniting cell 517 state : 4.5660448e-05 20.040543 0.45970727 0.26605686
DILUPBiCGStab:  Solving for b, Initial residual = 9.3354708e-07, Final residual = 9.3354708e-07, No Iterations 0
min(b) = 4.5660448e-05
Combustion progress = 0.018160388%
DILUPBiCGStab:  Solving for Xi, Initial residual = 1.1120675e-06, Final residual = 1.5690491e-11, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00079235466, Final residual = 2.5913462e-11, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00023824543, Final residual = 6.6978689e-09, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00020181862, Final residual = 5.4524051e-09, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 192.61822
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 191.9467
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 192.54802
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 187.83106
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 182.37855
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 192.61822
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 191.9467
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 192.54802
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 187.83106
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 182.37855
DICPCG:  Solving for p, Initial residual = 0.00064534907, Final residual = 1.902381e-14, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.9016114e-06, global = 7.7855652e-10, cumulative = -0.000111792
StCorr = 1
St courant Number mean: 3.6440283e-09 max: 4.0092766e-05
Igniting cell 517 state : 4.5660448e-05 20.040571 0.45970725 0.26605686
DILUPBiCGStab:  Solving for b, Initial residual = 1.0279828e-06, Final residual = 1.5306521e-11, No Iterations 1
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 1.6747963e-07, Final residual = 1.6747963e-07, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00086257547, Final residual = 3.004287e-11, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 2.7891157e-05, Final residual = 1.0981375e-09, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 2.2522775e-05, Final residual = 8.8761127e-10, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 192.3304
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 191.61693
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 191.53355
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 187.74236
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 182.27399
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 192.3304
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 191.61693
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 191.53355
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 187.74236
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 182.27399
DICPCG:  Solving for p, Initial residual = 1.7616034e-05, Final residual = 3.5155606e-16, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.8439464e-06, global = 7.7855652e-10, cumulative = -0.00011179123
DILUPBiCGStab:  Solving for epsilon, Initial residual = 4.4455349e-06, Final residual = 1.1694441e-10, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 7.6805716e-06, Final residual = 3.4954208e-10, No Iterations 1

ExecutionTime = 19.64 s

Courant Number mean: 1.9769669e-05 max: 0.24133941
deltaT = 1.4777748e-08


Time = 0.0125725
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 111123.89
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 3.1169187e-09 max: 4.03965e-05
Igniting cell 517 state : 4.5660415e-05 20.040571 0.45970725 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 8.4339241e-07, Final residual = 8.4339241e-07, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 1.0077344e-06, Final residual = 1.247401e-11, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00080935757, Final residual = 2.2056602e-11, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00022043093, Final residual = 5.6499198e-09, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00018660349, Final residual = 4.620368e-09, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 191.3958
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 189.97425
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 190.618
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 187.11398
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 181.65364
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 191.3958
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 189.97425
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 190.618
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 187.11398
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 181.65364
DICPCG:  Solving for p, Initial residual = 0.00060040827, Final residual = 1.2073755e-14, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.5613037e-06, global = 6.4509709e-10, cumulative = -0.00011179058
StCorr = 1
St courant Number mean: 3.1284417e-09 max: 4.1268888e-05
Igniting cell 517 state : 4.5660415e-05 20.040594 0.45970724 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 9.2509639e-07, Final residual = 9.2509639e-07, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 1.0507218e-07, Final residual = 1.0507218e-07, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00086107556, Final residual = 2.7111982e-11, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 2.507971e-05, Final residual = 9.4921832e-10, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 2.041613e-05, Final residual = 7.7121492e-10, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 191.16176
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 189.63842
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 189.56043
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 187.02491
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 181.55491
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 191.16176
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 189.63842
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 189.56043
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 187.02491
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 181.55491
DICPCG:  Solving for p, Initial residual = 1.5034392e-05, Final residual = 1.4890712e-16, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.5082512e-06, global = 6.4509709e-10, cumulative = -0.00011178994
DILUPBiCGStab:  Solving for epsilon, Initial residual = 4.1716302e-06, Final residual = 9.9544415e-11, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 7.1001709e-06, Final residual = 2.9117462e-10, No Iterations 1

ExecutionTime = 19.76 s

Courant Number mean: 1.8934866e-05 max: 0.24135319
deltaT = 1.2243647e-08


Time = 0.0125725
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 111973.29
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 2.6938896e-09 max: 4.1703763e-05
Igniting cell 517 state : 4.5660415e-05 20.040594 0.45970724 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 7.6397002e-07, Final residual = 7.6397002e-07, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 9.1400682e-07, Final residual = 9.1400682e-07, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00078206431, Final residual = 1.3583883e-11, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00020440853, Final residual = 4.6998983e-09, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00017318497, Final residual = 3.8494383e-09, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 190.28456
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 187.94451
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 188.63175
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 186.43434
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 180.97133
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 190.28456
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 187.94451
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 188.63175
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 186.43434
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 180.97133
DICPCG:  Solving for p, Initial residual = 0.00055911407, Final residual = 7.661376e-15, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.2522602e-06, global = 5.3448134e-10, cumulative = -0.0001117894
StCorr = 1
St courant Number mean: 2.7062353e-09 max: 4.2632442e-05
Igniting cell 517 state : 4.5660415e-05 20.040594 0.45970723 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 8.4267431e-07, Final residual = 8.4267431e-07, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 1.005341e-06, Final residual = 1.3711315e-11, No Iterations 1
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0008396979, Final residual = 2.2227367e-11, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 2.3798902e-05, Final residual = 7.0846793e-10, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 1.9215764e-05, Final residual = 5.7936977e-10, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 190.00839
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 187.60311
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 187.53015
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 186.35026
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 180.87866
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 190.00839
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 187.60311
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 187.53015
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 186.35026
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 180.87866
DICPCG:  Solving for p, Initial residual = 1.4242363e-05, Final residual = 9.72774e-17, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.2057034e-06, global = 5.3448134e-10, cumulative = -0.00011178887
DILUPBiCGStab:  Solving for epsilon, Initial residual = 3.9211735e-06, Final residual = 8.4942751e-11, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 6.5738717e-06, Final residual = 2.431595e-10, No Iterations 1

ExecutionTime = 19.89 s

Courant Number mean: 1.8166721e-05 max: 0.24130941
deltaT = 1.014588e-08


Time = 0.0125725
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 112776.53
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 2.3487181e-09 max: 4.3153196e-05
Igniting cell 517 state : 4.5660415e-05 20.040614 0.45970723 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 6.9424894e-07, Final residual = 6.9424894e-07, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 8.298443e-07, Final residual = 8.298443e-07, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00076854708, Final residual = 1.2154119e-11, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00018952922, Final residual = 3.8550804e-09, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00016062496, Final residual = 3.1619771e-09, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 189.14429
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 185.86057
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 186.59308
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 185.78962
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 180.32418
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 189.14429
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 185.86057
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 186.59308
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 185.78962
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 180.32418
DICPCG:  Solving for p, Initial residual = 0.00052200253, Final residual = 4.8730892e-15, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 3.9708986e-06, global = 4.4291006e-10, cumulative = -0.00011178842
StCorr = 1
St courant Number mean: 2.3619001e-09 max: 4.4138682e-05
Igniting cell 517 state : 4.5660415e-05 20.040614 0.45970722 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 7.7005563e-07, Final residual = 7.7005563e-07, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 9.1595746e-07, Final residual = 9.1595746e-07, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00080303054, Final residual = 1.6269542e-11, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 2.0833423e-05, Final residual = 5.9784252e-10, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 1.6794224e-05, Final residual = 4.8714026e-10, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 188.86442
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 185.51396
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 185.44571
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 185.71588
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 180.24271
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 188.86442
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 185.51396
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 185.44571
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 185.71588
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 180.24271
DICPCG:  Solving for p, Initial residual = 1.2519e-05, Final residual = 5.9973458e-17, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 3.9304399e-06, global = 4.4291006e-10, cumulative = -0.00011178798
DILUPBiCGStab:  Solving for epsilon, Initial residual = 3.6895175e-06, Final residual = 7.2649832e-11, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 6.0967454e-06, Final residual = 2.0327613e-10, No Iterations 1

ExecutionTime = 20.01 s

Courant Number mean: 1.7459811e-05 max: 0.24115591
deltaT = 8.4128268e-09


Time = 0.0125725
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 113536.86
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 2.0692631e-09 max: 4.4769424e-05
Igniting cell 517 state : 4.5660415e-05 20.040614 0.45970722 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 6.3209259e-07, Final residual = 6.3209259e-07, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 7.5508129e-07, Final residual = 7.5508129e-07, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00085398776, Final residual = 1.6803624e-11, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00017559111, Final residual = 3.2154899e-09, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00014886243, Final residual = 2.6428645e-09, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 188.02492
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 183.72419
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 184.50494
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 185.18871
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 179.72089
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 188.02492
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 183.72419
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 184.50494
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 185.18871
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 179.72089
DICPCG:  Solving for p, Initial residual = 0.00048815229, Final residual = 3.1085745e-15, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 3.7161247e-06, global = 3.672579e-10, cumulative = -0.00011178761
StCorr = 1
St courant Number mean: 2.0832247e-09 max: 4.580898e-05
Igniting cell 517 state : 4.5660415e-05 20.040614 0.45970721 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 6.9856538e-07, Final residual = 6.9856538e-07, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 8.3475658e-07, Final residual = 8.3475658e-07, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00091773021, Final residual = 2.6703435e-11, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 2.0674455e-05, Final residual = 6.4521587e-10, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 1.6789611e-05, Final residual = 5.2885579e-10, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 187.81316
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 183.37256
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 183.30871
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 185.11918
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 179.64447
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 187.81316
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 183.37256
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 183.30871
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 185.11918
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 179.64447
DICPCG:  Solving for p, Initial residual = 1.1968991e-05, Final residual = 3.6988046e-17, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 3.6801206e-06, global = 3.672579e-10, cumulative = -0.00011178725
DILUPBiCGStab:  Solving for epsilon, Initial residual = 3.4779657e-06, Final residual = 6.2379403e-11, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 5.6654109e-06, Final residual = 1.7040913e-10, No Iterations 1

ExecutionTime = 20.14 s

Courant Number mean: 1.6818262e-05 max: 0.24087
deltaT = 6.9840372e-09


Time = 0.0125725
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 114257.26
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 1.8454931e-09 max: 4.6586891e-05
Igniting cell 517 state : 4.5660415e-05 20.040614 0.45970721 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 5.7657936e-07, Final residual = 5.7657936e-07, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 6.9010018e-07, Final residual = 6.9010018e-07, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00079116428, Final residual = 1.2124834e-11, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00016367389, Final residual = 2.799782e-09, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00013875659, Final residual = 2.3037387e-09, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 187.02959
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 181.53553
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 182.36912
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 184.62818
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 179.15803
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.83857
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.83855
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 187.02959
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 181.53553
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 182.36912
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 184.62818
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 179.15803
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.83857
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.83855
DICPCG:  Solving for p, Initial residual = 0.00045789374, Final residual = 1.9915552e-15, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 3.4861185e-06, global = 3.0488674e-10, cumulative = -0.00011178694
StCorr = 1
St courant Number mean: 1.8601685e-09 max: 4.7676421e-05
Igniting cell 517 state : 4.5660415e-05 20.040614 0.4597072 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 6.3772381e-07, Final residual = 6.3772381e-07, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 7.6296562e-07, Final residual = 7.6296562e-07, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00087698051, Final residual = 1.7588824e-11, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 1.8706186e-05, Final residual = 5.3973641e-10, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 1.5388994e-05, Final residual = 4.4295417e-10, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 186.8176
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 181.17883
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 181.1191
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 184.56317
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 179.08685
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.79969
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 186.8176
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 181.17883
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 181.1191
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 184.56317
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 179.08685
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.79969
DICPCG:  Solving for p, Initial residual = 1.0914488e-05, Final residual = 2.2951069e-17, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 3.4538325e-06, global = 3.0488674e-10, cumulative = -0.00011178664
DILUPBiCGStab:  Solving for epsilon, Initial residual = 3.2881304e-06, Final residual = 5.388913e-11, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 5.277743e-06, Final residual = 1.4355492e-10, No Iterations 1

ExecutionTime = 20.26 s

Courant Number mean: 1.6228504e-05 max: 0.24041759
deltaT = 5.8087684e-09


Time = 0.0125725
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 114940.82
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 1.6691642e-09 max: 4.8648956e-05
Igniting cell 517 state : 4.5660415e-05 20.040614 0.4597072 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 5.3057626e-07, Final residual = 5.3057626e-07, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 6.3263513e-07, Final residual = 6.3263513e-07, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00080158606, Final residual = 9.1044827e-12, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00015355444, Final residual = 2.5034306e-09, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00013007905, Final residual = 2.0636972e-09, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 186.03146
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 179.29275
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 180.18603
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 184.10004
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 178.62768
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.44339
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 186.03146
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 179.29275
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 180.18603
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 184.10004
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 178.62768
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.44339
DICPCG:  Solving for p, Initial residual = 0.00043055178, Final residual = 1.2843162e-15, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 3.2801338e-06, global = 2.5358198e-10, cumulative = -0.00011178638
StCorr = 1
St courant Number mean: 1.6844566e-09 max: 4.9781958e-05
Igniting cell 517 state : 4.5660415e-05 20.040614 0.4597072 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 5.850215e-07, Final residual = 5.850215e-07, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 6.9991604e-07, Final residual = 6.9991604e-07, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00081370041, Final residual = 1.8870827e-11, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 1.7366993e-05, Final residual = 4.1226211e-10, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 1.4149168e-05, Final residual = 3.3855759e-10, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 185.85569
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 178.93067
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 178.8748
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 184.03863
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 178.56074
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.40671
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 185.85569
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 178.93067
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 178.8748
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 184.03863
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 178.56074
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.40671
DICPCG:  Solving for p, Initial residual = 9.7715947e-06, Final residual = 1.4354148e-17, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 3.2511959e-06, global = 2.5358198e-10, cumulative = -0.00011178613
DILUPBiCGStab:  Solving for epsilon, Initial residual = 3.1186947e-06, Final residual = 4.6891635e-11, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 4.9332685e-06, Final residual = 1.2176349e-10, No Iterations 1

ExecutionTime = 20.39 s

Courant Number mean: 1.5711676e-05 max: 0.23975402
deltaT = 4.8446003e-09


Time = 0.0125725
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 115590.76
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 1.533681e-09 max: 5.1013683e-05
Igniting cell 517 state : 4.5660415e-05 20.040614 0.4597072 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 4.8570252e-07, Final residual = 4.8570252e-07, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 5.8124788e-07, Final residual = 5.8124788e-07, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00077178011, Final residual = 8.6164328e-12, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00014407292, Final residual = 2.1561411e-09, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00012215039, Final residual = 1.7840608e-09, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 185.12791
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 176.9915
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 177.95456
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 183.59749
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 178.12312
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.07294
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 185.12791
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 176.9915
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 177.95456
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 183.59749
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 178.12312
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.07294
DICPCG:  Solving for p, Initial residual = 0.00040666777, Final residual = 8.3587214e-16, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 3.0984243e-06, global = 2.1149213e-10, cumulative = -0.00011178592
StCorr = 1
St courant Number mean: 1.5494498e-09 max: 5.2180149e-05
Igniting cell 517 state : 4.5660415e-05 20.040614 0.45970719 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 5.3548575e-07, Final residual = 5.3548575e-07, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 6.445794e-07, Final residual = 6.445794e-07, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00081873083, Final residual = 1.4026674e-11, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 1.7109894e-05, Final residual = 4.2827935e-10, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 1.4014475e-05, Final residual = 3.5189051e-10, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 184.97716
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 176.6234
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 176.57118
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 183.53699
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 178.05766
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.03861
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 184.97716
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 176.6234
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 176.57118
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 183.53699
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 178.05766
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.03861
DICPCG:  Solving for p, Initial residual = 9.8513661e-06, Final residual = 9.0665831e-18, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 3.0718876e-06, global = 2.1149213e-10, cumulative = -0.00011178571
DILUPBiCGStab:  Solving for epsilon, Initial residual = 2.969166e-06, Final residual = 4.1221095e-11, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 4.6293732e-06, Final residual = 1.043088e-10, No Iterations 1

ExecutionTime = 20.52 s

Courant Number mean: 1.5258331e-05 max: 0.23882389
deltaT = 4.0561604e-09


Time = 0.0125725
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 116210.53
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 1.4339462e-09 max: 5.3759486e-05
Igniting cell 517 state : 4.5660415e-05 20.040614 0.45970719 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 4.4850909e-07, Final residual = 4.4850909e-07, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 5.3776702e-07, Final residual = 5.3776702e-07, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00083436416, Final residual = 7.4904451e-12, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00013600813, Final residual = 1.9360595e-09, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00011534214, Final residual = 1.6023335e-09, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 184.29724
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 174.62422
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 175.67181
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 183.12141
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 177.64512
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.72469
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 184.29724
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 174.62422
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 175.67181
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 183.12141
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 177.64512
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.72469
DICPCG:  Solving for p, Initial residual = 0.00038596229, Final residual = 5.5073283e-16, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 2.9406896e-06, global = 1.7707326e-10, cumulative = -0.00011178553
StCorr = 1
St courant Number mean: 1.4500269e-09 max: 5.4947651e-05
Igniting cell 517 state : 4.5660415e-05 20.040614 0.45970719 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 4.9648982e-07, Final residual = 4.9648982e-07, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 5.9691144e-07, Final residual = 5.9691144e-07, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00087845394, Final residual = 1.0493923e-11, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 1.646453e-05, Final residual = 3.2092596e-10, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 1.344652e-05, Final residual = 2.6458832e-10, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 184.12431
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 174.24904
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 174.20025
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 183.0607
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 177.57996
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.69242
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 184.12431
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 174.24904
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 174.20025
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 183.0607
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 177.57996
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.69242
DICPCG:  Solving for p, Initial residual = 9.2424035e-06, Final residual = 5.8062597e-18, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 2.916774e-06, global = 1.7707326e-10, cumulative = -0.00011178535
DILUPBiCGStab:  Solving for epsilon, Initial residual = 2.8402223e-06, Final residual = 3.6704256e-11, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 4.3656064e-06, Final residual = 9.0481323e-11, No Iterations 1

ExecutionTime = 20.64 s

Courant Number mean: 1.4880752e-05 max: 0.2376007
deltaT = 3.4134759e-09


Time = 0.0125725
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 116803.91
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 1.3660896e-09 max: 5.6985802e-05
Igniting cell 517 state : 4.5660415e-05 20.040614 0.45970719 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 4.1639422e-07, Final residual = 4.1639422e-07, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 5.0043516e-07, Final residual = 5.0043516e-07, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00079945051, Final residual = 6.586323e-12, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00012912256, Final residual = 1.7218517e-09, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00010953442, Final residual = 1.4277995e-09, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 183.47679
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 172.17943
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 173.33289
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 182.66131
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 177.1833
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.39563
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 183.47679
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 172.17943
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 173.33289
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 182.66131
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 177.1833
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.39563
DICPCG:  Solving for p, Initial residual = 0.00036850691, Final residual = 3.6869179e-16, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 2.8081869e-06, global = 1.4901708e-10, cumulative = -0.0001117852
StCorr = 1
St courant Number mean: 1.3821776e-09 max: 5.8173593e-05
Igniting cell 517 state : 4.5660415e-05 20.040614 0.45970719 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 4.6239052e-07, Final residual = 4.6239052e-07, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 5.5607919e-07, Final residual = 5.5607919e-07, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00082829647, Final residual = 1.0229528e-11, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 1.4980751e-05, Final residual = 3.072779e-10, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 1.2396741e-05, Final residual = 2.5401167e-10, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 183.30275
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 171.79563
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 171.75009
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 182.60614
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 177.124
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.36511
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 183.30275
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 171.79563
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 171.75009
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 182.60614
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 177.124
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.36511
DICPCG:  Solving for p, Initial residual = 8.5103082e-06, Final residual = 3.7787547e-18, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 2.7856639e-06, global = 1.4901708e-10, cumulative = -0.00011178505
DILUPBiCGStab:  Solving for epsilon, Initial residual = 2.7327704e-06, Final residual = 3.3221889e-11, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 4.1415438e-06, Final residual = 7.9726067e-11, No Iterations 1

ExecutionTime = 20.77 s

Courant Number mean: 1.4578869e-05 max: 0.23596131
deltaT = 2.8925371e-09


Time = 0.0125725
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 117374.95
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 1.3279216e-09 max: 6.0839324e-05
Igniting cell 517 state : 4.5660415e-05 20.040614 0.45970719 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 3.8984811e-07, Final residual = 3.8984811e-07, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 4.6956882e-07, Final residual = 4.6956882e-07, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00078086695, Final residual = 6.1552661e-12, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00012331711, Final residual = 1.5572615e-09, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00010469184, Final residual = 1.2935279e-09, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 182.68698
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 169.64006
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.9313
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 182.2225
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 176.74283
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.08253
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 182.68698
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 169.64006
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.9313
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 182.2225
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 176.74283
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.08253
DICPCG:  Solving for p, Initial residual = 0.00035444274, Final residual = 2.5231324e-16, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 2.7019982e-06, global = 1.2627556e-10, cumulative = -0.00011178493
StCorr = 1
St courant Number mean: 1.3435331e-09 max: 6.1991385e-05
Igniting cell 517 state : 4.5660415e-05 20.040614 0.45970718 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 4.3410465e-07, Final residual = 4.3410465e-07, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 5.2234881e-07, Final residual = 5.2234881e-07, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00079350284, Final residual = 8.0318831e-12, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 1.4565529e-05, Final residual = 3.0490566e-10, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 1.204311e-05, Final residual = 2.5199183e-10, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 182.50729
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.83193
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.83041
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 169.24544
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 169.203
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 182.16933
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 176.6858
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.05344
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 182.50729
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.83193
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.83041
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 169.24544
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 169.203
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 182.16933
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 176.6858
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.05344
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.83193
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.83041
DICPCG:  Solving for p, Initial residual = 8.2658878e-06, Final residual = 2.5144125e-18, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 2.6805022e-06, global = 1.2627556e-10, cumulative = -0.0001117848
DILUPBiCGStab:  Solving for epsilon, Initial residual = 2.6491261e-06, Final residual = 3.0719702e-11, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 3.9590639e-06, Final residual = 7.1710027e-11, No Iterations 1

ExecutionTime = 20.9 s

Courant Number mean: 1.4372208e-05 max: 0.23377953
deltaT = 2.4739287e-09


Time = 0.0125725
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 117928.3
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 1.318935e-09 max: 6.5531801e-05
Igniting cell 517 state : 4.5660415e-05 20.040614 0.45970718 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 3.7014076e-07, Final residual = 3.7014076e-07, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 4.4623281e-07, Final residual = 4.4623281e-07, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00077282338, Final residual = 7.7825779e-12, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00011900897, Final residual = 1.4790598e-09, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00010101895, Final residual = 1.2308736e-09, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 181.90657
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 166.98112
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 168.45921
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 181.79581
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 176.31457
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.78186
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 181.90657
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 166.98112
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 168.45921
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 181.79581
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 176.31457
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.78186
DICPCG:  Solving for p, Initial residual = 0.00034429834, Final residual = 1.7746465e-16, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 2.6250894e-06, global = 1.0800118e-10, cumulative = -0.00011178469
StCorr = 1
St courant Number mean: 1.3333612e-09 max: 6.6596084e-05
Igniting cell 517 state : 4.5660415e-05 20.040614 0.45970718 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 4.1249051e-07, Final residual = 4.1249051e-07, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 4.9699279e-07, Final residual = 4.9699279e-07, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00079407901, Final residual = 1.1027034e-11, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 1.371254e-05, Final residual = 2.5763472e-10, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 1.1297878e-05, Final residual = 2.1288465e-10, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 181.74089
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.9063
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.90525
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 166.57256
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 166.53308
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 181.74565
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 176.26074
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.75386
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 181.74089
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.9063
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.90525
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 166.57256
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 166.53308
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 181.74565
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 176.26074
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.75386
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.9063
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.90525
DICPCG:  Solving for p, Initial residual = 7.7258581e-06, Final residual = 1.719725e-18, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 2.6047053e-06, global = 1.0800118e-10, cumulative = -0.00011178459
DILUPBiCGStab:  Solving for epsilon, Initial residual = 2.5930092e-06, Final residual = 2.9212782e-11, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 3.8219706e-06, Final residual = 6.6261695e-11, No Iterations 1

ExecutionTime = 21.02 s

Courant Number mean: 1.4285124e-05 max: 0.23092934
deltaT = 2.1419668e-09


Time = 0.0125725
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 118469.45
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 1.3405001e-09 max: 7.1365279e-05
Igniting cell 517 state : 4.5660415e-05 20.040614 0.45970718 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 3.5510629e-07, Final residual = 3.5510629e-07, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 4.2839373e-07, Final residual = 4.2839373e-07, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00083469516, Final residual = 6.9359903e-12, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00011667894, Final residual = 1.4566819e-09, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 9.9090296e-05, Final residual = 1.2136683e-09, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 181.15098
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.27052
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 164.16637
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 165.90916
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 181.37902
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 175.89627
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.48958
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 181.15098
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.27052
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 164.16637
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 165.90916
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 181.37902
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 175.89627
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.48958
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.27052
DICPCG:  Solving for p, Initial residual = 0.00033867699, Final residual = 1.2965435e-16, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 2.5828251e-06, global = 9.3509317e-11, cumulative = -0.00011178449
StCorr = 1
St courant Number mean: 1.3527494e-09 max: 7.2268904e-05
Igniting cell 517 state : 4.5660415e-05 20.040614 0.45970718 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 3.9605306e-07, Final residual = 3.9605306e-07, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 4.7799908e-07, Final residual = 4.7799908e-07, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00082507643, Final residual = 9.6952259e-12, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 1.3705006e-05, Final residual = 2.6303751e-10, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 1.1324461e-05, Final residual = 2.1792139e-10, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 180.98117
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.67781
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 163.73955
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 163.70292
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 181.32965
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 175.84332
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.46227
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 180.98117
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.67781
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 163.73955
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 163.70292
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 181.32965
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 175.84332
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.46227
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.67781
DICPCG:  Solving for p, Initial residual = 7.7092326e-06, Final residual = 1.220189e-18, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 2.5628244e-06, global = 9.3509317e-11, cumulative = -0.0001117844
DILUPBiCGStab:  Solving for epsilon, Initial residual = 2.5696839e-06, Final residual = 2.8764464e-11, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 3.7363216e-06, Final residual = 6.3421008e-11, No Iterations 1

ExecutionTime = 21.15 s

Courant Number mean: 1.4343752e-05 max: 0.22725941
deltaT = 1.8844418e-09


Time = 0.0125725
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 119005.09
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 1.3966731e-09 max: 7.8795105e-05
Igniting cell 517 state : 4.5660415e-05 20.040614 0.45970718 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 3.4706334e-07, Final residual = 3.4706334e-07, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 4.188502e-07, Final residual = 4.188502e-07, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00082183522, Final residual = 7.7117896e-12, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00011575615, Final residual = 1.524777e-09, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 9.8326093e-05, Final residual = 1.2722024e-09, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 180.39194
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 196.8551
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 161.14331
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 163.27949
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 180.96394
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 175.47975
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.20091
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 180.39194
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 196.8551
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 161.14331
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 163.27949
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 180.96394
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 175.47975
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.20091
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 196.8551
DICPCG:  Solving for p, Initial residual = 0.00033836167, Final residual = 9.9433497e-17, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 2.582315e-06, global = 8.2266989e-11, cumulative = -0.00011178432
StCorr = 1
St courant Number mean: 1.4049985e-09 max: 7.9409521e-05
Igniting cell 517 state : 4.5660415e-05 20.040614 0.45970718 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 3.8740659e-07, Final residual = 3.8740659e-07, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 4.6766331e-07, Final residual = 4.6766331e-07, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0007657134, Final residual = 1.2277668e-11, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 1.4043335e-05, Final residual = 2.1695518e-10, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 1.1539495e-05, Final residual = 1.8013272e-10, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 180.21587
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 192.96066
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 160.69237
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 160.6585
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 180.91453
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 175.42676
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.1738
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 180.21587
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 192.96066
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 160.69237
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 160.6585
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 180.91453
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 175.42676
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.1738
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 192.96066
DICPCG:  Solving for p, Initial residual = 7.8208962e-06, Final residual = 9.0656016e-19, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 2.5622814e-06, global = 8.2266989e-11, cumulative = -0.00011178423
DILUPBiCGStab:  Solving for epsilon, Initial residual = 2.5872928e-06, Final residual = 2.9709061e-11, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 3.7115858e-06, Final residual = 6.3512726e-11, No Iterations 1

ExecutionTime = 21.28 s

Courant Number mean: 1.4605763e-05 max: 0.22259386
deltaT = 1.6925621e-09


Time = 0.0125725
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 119543.62
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 1.4951914e-09 max: 8.8503905e-05
Igniting cell 517 state : 4.5660415e-05 20.040614 0.45970718 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 3.4658804e-07, Final residual = 3.4658804e-07, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 4.1840944e-07, Final residual = 4.1840944e-07, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00081102905, Final residual = 7.6337197e-12, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00011804596, Final residual = 1.6439737e-09, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00010033925, Final residual = 1.3751874e-09, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 179.61813
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 193.90543
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 157.8351
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 160.58906
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 180.54207
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 175.05652
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 196.90989
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 179.61813
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 193.90543
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 157.8351
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 160.58906
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 180.54207
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 175.05652
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 196.90989
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 193.90543
DICPCG:  Solving for p, Initial residual = 0.00034550783, Final residual = 8.1793436e-17, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 2.6352434e-06, global = 7.3890418e-11, cumulative = -0.00011178416
StCorr = 1
St courant Number mean: 1.4968566e-09 max: 8.8627709e-05
Igniting cell 517 state : 4.5660415e-05 20.040614 0.45970718 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 3.8716305e-07, Final residual = 3.8716305e-07, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 4.6754102e-07, Final residual = 4.6754102e-07, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00076627242, Final residual = 1.0978278e-11, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 1.4110761e-05, Final residual = 2.8478806e-10, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 1.1637155e-05, Final residual = 2.3646662e-10, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 179.42979
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 189.63992
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 157.35225
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 157.32103
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 180.49206
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 175.00275
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 196.88238
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 179.42979
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 189.63992
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 157.35225
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 157.32103
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 180.49206
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 175.00275
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 196.88238
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 189.63992
DICPCG:  Solving for p, Initial residual = 7.9546401e-06, Final residual = 9.5749914e-19, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 2.6138895e-06, global = 7.3890418e-11, cumulative = -0.00011178409
DILUPBiCGStab:  Solving for epsilon, Initial residual = 2.6580045e-06, Final residual = 3.2578491e-11, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 3.7626255e-06, Final residual = 6.7384641e-11, No Iterations 1

ExecutionTime = 21.41 s

Courant Number mean: 1.5147232e-05 max: 0.21673752
deltaT = 1.5612157e-09


Time = 0.0125725
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 120096.05
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 1.6494241e-09 max: 0.00010154199
Igniting cell 517 state : 4.5660415e-05 20.040614 0.45970718 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 3.5481677e-07, Final residual = 3.5481677e-07, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 4.2819385e-07, Final residual = 4.2819385e-07, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00080356313, Final residual = 7.2718189e-12, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00012310659, Final residual = 1.9475524e-09, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 0.00010470783, Final residual = 1.6319979e-09, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 178.81229
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 190.29504
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 154.1268
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 157.91683
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 180.10307
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 174.61622
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 196.60866
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 178.81229
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 190.29504
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 154.1268
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 157.91683
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 180.10307
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 174.61622
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 196.60866
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 190.29504
DICPCG:  Solving for p, Initial residual = 0.00036175289, Final residual = 7.2384931e-17, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 2.7590994e-06, global = 6.8156454e-11, cumulative = -0.00011178402
StCorr = 1
St courant Number mean: 1.6401028e-09 max: 0.00010085667
Igniting cell 517 state : 4.5660415e-05 20.040614 0.45970717 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 3.9764705e-07, Final residual = 3.9764705e-07, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 4.8041131e-07, Final residual = 4.8041131e-07, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00073365901, Final residual = 8.3754762e-12, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 1.4273561e-05, Final residual = 3.279072e-10, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 1.1746819e-05, Final residual = 2.7231682e-10, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 178.6021
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 185.57912
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 153.60194
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 153.57322
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 180.05174
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 174.56074
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 196.57994
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 178.6021
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 185.57912
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 153.60194
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 153.57322
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 180.05174
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 174.56074
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 196.57994
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 185.57912
DICPCG:  Solving for p, Initial residual = 8.0232634e-06, Final residual = 9.3897189e-19, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 2.7357267e-06, global = 6.8156454e-11, cumulative = -0.00011178395
DILUPBiCGStab:  Solving for epsilon, Initial residual = 2.8011194e-06, Final residual = 3.854834e-11, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 3.9136509e-06, Final residual = 7.6910519e-11, No Iterations 1

ExecutionTime = 21.54 s

Courant Number mean: 1.6102462e-05 max: 0.25294559
deltaT = 1.233936e-09


Time = 0.0125725
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 120677.65
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 1.4952082e-09 max: 9.436462e-05
Igniting cell 517 state : 4.5660415e-05 20.040614 0.45970717 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 3.1197272e-07, Final residual = 3.1197272e-07, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 3.7652524e-07, Final residual = 3.7652524e-07, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00076973779, Final residual = 4.9064e-12, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 0.00010961946, Final residual = 1.4690994e-09, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 9.3305612e-05, Final residual = 1.232885e-09, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 178.03682
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 185.28755
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 150.42903
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 154.38693
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 179.70421
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 174.21501
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.93939
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.93938
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 196.33637
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 178.03682
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 185.28755
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 150.42903
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 154.38693
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 179.70421
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 174.21501
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.93939
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.93938
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 196.33637
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 185.28755
DICPCG:  Solving for p, Initial residual = 0.00032458924, Final residual = 4.0217603e-17, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 2.4777131e-06, global = 5.386879e-11, cumulative = -0.0001117839
StCorr = 1
St courant Number mean: 1.480095e-09 max: 9.3252481e-05
Igniting cell 517 state : 4.5660415e-05 20.040614 0.45970717 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 3.5021676e-07, Final residual = 3.5021676e-07, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 4.2316932e-07, Final residual = 4.2316932e-07, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0006512802, Final residual = 1.0765438e-11, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 1.258565e-05, Final residual = 2.2643679e-10, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 1.0358328e-05, Final residual = 1.8842051e-10, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 177.85155
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 181.65871
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 149.91548
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 149.88868
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 179.65812
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 174.16553
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.93213
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 196.32775
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 177.85155
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 181.65871
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 149.91548
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 149.88868
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 179.65812
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 174.16553
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.93213
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 196.32775
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 181.65871
DICPCG:  Solving for p, Initial residual = 6.9343288e-06, Final residual = 4.2426371e-19, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 2.4595738e-06, global = 5.386879e-11, cumulative = -0.00011178384
DILUPBiCGStab:  Solving for epsilon, Initial residual = 2.5331256e-06, Final residual = 2.8913717e-11, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 3.4941145e-06, Final residual = 5.6175836e-11, No Iterations 1

ExecutionTime = 21.67 s

Courant Number mean: 1.4634743e-05 max: 0.25638523
deltaT = 9.6221394e-10


Time = 0.0125725
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 121202.67
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 1.293822e-09 max: 8.3003144e-05
Igniting cell 517 state : 4.5660415e-05 20.040614 0.45970717 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 2.7180587e-07, Final residual = 2.7180587e-07, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 3.2842716e-07, Final residual = 3.2842716e-07, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00082287397, Final residual = 2.9494712e-12, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 9.6447026e-05, Final residual = 1.0696868e-09, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 8.215863e-05, Final residual = 8.9892585e-10, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 177.34018
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 180.60349
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 146.82873
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 150.86294
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 179.35289
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 173.86151
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.7363
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 196.13219
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 177.34018
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 180.60349
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 146.82873
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 150.86294
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 179.35289
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 173.86151
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.7363
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 196.13219
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 180.60349
DICPCG:  Solving for p, Initial residual = 0.00028766087, Final residual = 2.1554409e-17, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 2.2010798e-06, global = 4.2006515e-11, cumulative = -0.0001117838
StCorr = 1
St courant Number mean: 1.2785276e-09 max: 8.1877411e-05
Igniting cell 517 state : 4.5660415e-05 20.040614 0.45970717 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 3.0469812e-07, Final residual = 3.0469812e-07, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 3.6820562e-07, Final residual = 3.6820562e-07, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00064083131, Final residual = 7.5123303e-12, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 1.1369715e-05, Final residual = 1.6892787e-10, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 9.4171279e-06, Final residual = 1.4101138e-10, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 177.18019
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 178.19945
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 146.33036
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 146.30483
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 179.31079
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 173.81673
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.75593
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 196.151
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 177.18019
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 178.19945
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 146.33036
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 146.30483
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 179.31079
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 173.81673
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.75593
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 196.151
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 178.19945
DICPCG:  Solving for p, Initial residual = 6.1505828e-06, Final residual = 2.6997129e-19, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 2.1865212e-06, global = 4.2006515e-11, cumulative = -0.00011178376
DILUPBiCGStab:  Solving for epsilon, Initial residual = 2.2644662e-06, Final residual = 2.09259e-11, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 3.0843349e-06, Final residual = 3.9661497e-11, No Iterations 1

ExecutionTime = 21.8 s

Courant Number mean: 1.3130422e-05 max: 0.25656908
deltaT = 7.4982291e-10


Time = 0.0125725
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 121670.74
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 1.0871869e-09 max: 7.0497165e-05
Igniting cell 517 state : 4.5660415e-05 20.040614 0.45970717 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 2.3569305e-07, Final residual = 2.3569305e-07, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 2.8449794e-07, Final residual = 2.8449794e-07, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00078854218, Final residual = 2.4178918e-12, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 8.4923338e-05, Final residual = 7.4973824e-10, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 7.2415722e-05, Final residual = 6.3118486e-10, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 176.71827
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 176.74586
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 143.32679
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 147.43348
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 179.04057
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 173.54731
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.61902
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 196.01413
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 176.71827
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 176.74586
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 143.32679
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 147.43348
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 179.04057
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 173.54731
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.61902
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 196.01413
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 176.74586
DICPCG:  Solving for p, Initial residual = 0.00025586654, Final residual = 1.1501537e-17, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 1.9581284e-06, global = 3.2734374e-11, cumulative = -0.00011178373
StCorr = 1
St courant Number mean: 1.0747702e-09 max: 6.9583167e-05
Igniting cell 517 state : 4.5660415e-05 20.040614 0.45970717 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 2.7579892e-07, Final residual = 2.7579892e-07, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 3.3783345e-07, Final residual = 3.3783345e-07, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00061479566, Final residual = 5.2034694e-12, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 1.0248785e-05, Final residual = 1.2735877e-10, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 8.5409184e-06, Final residual = 1.0627862e-10, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.95901
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 176.58032
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 175.39725
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 142.84315
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 142.81811
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 179.00401
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 173.50861
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.60137
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.99594
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.95901
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 176.58032
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 175.39725
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 142.84315
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 142.81811
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 179.00401
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 173.50861
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.60137
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.99594
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 175.39725
DICPCG:  Solving for p, Initial residual = 5.4165889e-06, Final residual = 1.2628018e-19, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 1.9463547e-06, global = 3.2734374e-11, cumulative = -0.00011178369
DILUPBiCGStab:  Solving for epsilon, Initial residual = 2.0264954e-06, Final residual = 1.5173294e-11, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 2.7260938e-06, Final residual = 2.8113021e-11, No Iterations 1

ExecutionTime = 21.95 s

Courant Number mean: 1.1818018e-05 max: 0.25675639
deltaT = 5.8391514e-10


Time = 0.0125725
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 122088.05
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 8.9191223e-10 max: 5.823412e-05
Igniting cell 517 state : 4.5660415e-05 20.040614 0.45970717 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 2.0519819e-07, Final residual = 2.0519819e-07, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 2.47721e-07, Final residual = 2.47721e-07, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00074837592, Final residual = 2.658697e-12, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 7.4853599e-05, Final residual = 5.4782885e-10, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 6.3869623e-05, Final residual = 4.6177615e-10, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.5578
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 176.17227
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 173.90968
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 139.92029
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 144.0955
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 178.76545
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 173.27053
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.48134
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.87589
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.5578
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 176.17227
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 173.90968
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 139.92029
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 144.0955
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 178.76545
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 173.27053
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.48134
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.87589
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 173.90968
DICPCG:  Solving for p, Initial residual = 0.0002276463, Final residual = 6.1063495e-18, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 1.7439802e-06, global = 2.5491495e-11, cumulative = -0.00011178367
StCorr = 1
St courant Number mean: 8.8338324e-10 max: 5.7606283e-05
Igniting cell 517 state : 4.5660415e-05 20.040614 0.45970717 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 2.4695868e-07, Final residual = 2.4695868e-07, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 3.0351814e-07, Final residual = 3.0351814e-07, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00055027666, Final residual = 4.0365222e-12, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 9.1279361e-06, Final residual = 9.5450258e-11, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 7.6980325e-06, Final residual = 8.0165905e-11, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.61538
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 176.15508
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 173.29944
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 139.45097
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 139.42553
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 178.73287
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 173.23625
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.46585
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.85998
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.61538
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 176.15508
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 173.29944
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 139.45097
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 139.42553
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 178.73287
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 173.23625
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.46585
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.85998
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 173.29944
DICPCG:  Solving for p, Initial residual = 4.8789531e-06, Final residual = 4.7188241e-20, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 1.7346769e-06, global = 2.5491495e-11, cumulative = -0.00011178364
DILUPBiCGStab:  Solving for epsilon, Initial residual = 1.8154672e-06, Final residual = 1.102033e-11, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 2.4130216e-06, Final residual = 1.9998867e-11, No Iterations 1

ExecutionTime = 22.08 s

Courant Number mean: 1.0695436e-05 max: 0.25693915
deltaT = 4.5441438e-10


Time = 0.0125725
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 122460.12
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 7.1874895e-10 max: 4.7134517e-05
Igniting cell 517 state : 4.5660415e-05 20.040614 0.45970717 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 1.9072501e-07, Final residual = 1.9072501e-07, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 2.3411053e-07, Final residual = 2.3411053e-07, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00080459668, Final residual = 2.7865137e-12, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 6.6208694e-05, Final residual = 3.9960538e-10, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 5.6506055e-05, Final residual = 3.3721728e-10, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.34409
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 175.8717
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 172.02281
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 136.60675
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 140.84644
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 178.52219
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 173.02583
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.36068
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.75474
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.34409
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 175.8717
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 172.02281
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 136.60675
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 140.84644
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 178.52219
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 173.02583
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.36068
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.75474
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 172.02281
DICPCG:  Solving for p, Initial residual = 0.00020305943, Final residual = 3.282885e-18, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 1.555159e-06, global = 1.9837997e-11, cumulative = -0.00011178362
StCorr = 1
St courant Number mean: 7.1340286e-10 max: 4.6740986e-05
Igniting cell 517 state : 4.5660415e-05 20.040614 0.45970717 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 2.1445845e-07, Final residual = 2.1445845e-07, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 2.631022e-07, Final residual = 2.631022e-07, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00048271685, Final residual = 3.260475e-12, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 8.0486306e-06, Final residual = 6.5059415e-11, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 6.732436e-06, Final residual = 5.4624018e-11, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.30433
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 175.77214
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 171.84341
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 136.15141
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 136.12442
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 178.49338
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 172.99567
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.34708
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.74081
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.30433
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 175.77214
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 171.84341
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 136.15141
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 136.12442
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 178.49338
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 172.99567
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.34708
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.74081
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 171.84341
DICPCG:  Solving for p, Initial residual = 4.2746372e-06, Final residual = 2.6408788e-20, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 1.5476723e-06, global = 1.9837997e-11, cumulative = -0.0001117836
DILUPBiCGStab:  Solving for epsilon, Initial residual = 1.6279507e-06, Final residual = 8.0155287e-12, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 2.1379327e-06, Final residual = 1.4212678e-11, No Iterations 1

ExecutionTime = 22.22 s

Courant Number mean: 9.7494319e-06 max: 0.25711176
deltaT = 3.534119e-10


Time = 0.0125725
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 122791.83
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 5.717823e-10 max: 3.7600258e-05
Igniting cell 517 state : 4.5660415e-05 20.040614 0.45970717 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 1.6688157e-07, Final residual = 1.6688157e-07, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 2.0498128e-07, Final residual = 2.0498128e-07, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00078020294, Final residual = 2.152784e-12, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 5.8741305e-05, Final residual = 2.9134329e-10, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 5.0151224e-05, Final residual = 2.4603113e-10, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.0594
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 175.51374
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.88083
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 133.38406
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 137.68399
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 178.30744
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 172.80982
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.25497
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.6486
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.0594
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 175.51374
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.88083
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 133.38406
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 137.68399
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 178.30744
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 172.80982
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.25497
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.6486
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.88083
DICPCG:  Solving for p, Initial residual = 0.00018131662, Final residual = 1.7527217e-18, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 1.3882275e-06, global = 1.542862e-11, cumulative = -0.00011178359
StCorr = 1
St courant Number mean: 5.6864567e-10 max: 3.7369377e-05
Igniting cell 517 state : 4.5660415e-05 20.040614 0.45970717 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 1.8790346e-07, Final residual = 1.8790346e-07, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 2.3071476e-07, Final residual = 2.3071476e-07, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00041376668, Final residual = 2.9706006e-12, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 7.1558185e-06, Final residual = 5.0239476e-11, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 6.0113716e-06, Final residual = 4.2288208e-11, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.02355
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 175.42788
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.90636
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 128.51976
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 128.48876
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 178.28199
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 172.7833
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.24304
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.63641
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.02355
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 175.42788
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.90636
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 128.51976
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 128.48876
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 178.28199
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 172.7833
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.24304
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.63641
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.90636
DICPCG:  Solving for p, Initial residual = 3.7892598e-06, Final residual = 1.4081659e-20, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 1.382144e-06, global = 1.542862e-11, cumulative = -0.00011178357
DILUPBiCGStab:  Solving for epsilon, Initial residual = 1.4610444e-06, Final residual = 5.8368859e-12, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 1.8958426e-06, Final residual = 1.0118231e-11, No Iterations 1

ExecutionTime = 22.37 s

Courant Number mean: 8.9510067e-06 max: 0.25727031
deltaT = 2.7469984e-10


Time = 0.0125725
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 123087.52
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 4.5080856e-10 max: 2.9695641e-05
Igniting cell 517 state : 4.5660415e-05 20.040614 0.45970717 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 1.4504129e-07, Final residual = 1.4504129e-07, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 1.7786429e-07, Final residual = 1.7786429e-07, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00082100793, Final residual = 1.0689141e-12, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 5.2040525e-05, Final residual = 2.1071533e-10, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 4.4447979e-05, Final residual = 1.7809178e-10, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.80294
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 175.19288
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.25408
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 126.22509
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 130.57982
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 178.11798
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 172.61924
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.16239
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.55565
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.80294
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 175.19288
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.25408
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 126.22509
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 130.57982
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 178.11798
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 172.61924
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.16239
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.55565
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.25408
DICPCG:  Solving for p, Initial residual = 0.00016199974, Final residual = 9.5691111e-19, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 1.2403291e-06, global = 1.1992354e-11, cumulative = -0.00011178356
StCorr = 1
St courant Number mean: 4.4905059e-10 max: 2.9566247e-05
Igniting cell 517 state : 4.5660415e-05 20.040614 0.45970717 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 1.5379033e-07, Final residual = 1.5379033e-07, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 1.8565098e-07, Final residual = 1.8565098e-07, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00036071522, Final residual = 1.7123188e-12, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 6.4546111e-06, Final residual = 3.499494e-11, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 5.4241924e-06, Final residual = 2.9465706e-11, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.77069
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 175.11888
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.35159
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 125.83865
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 125.80273
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 178.0955
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 172.59592
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.15193
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.54498
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.77069
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 175.11888
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.35159
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 125.83865
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 125.80273
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 178.0955
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 172.59592
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.15193
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.54498
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.35159
DICPCG:  Solving for p, Initial residual = 3.4084085e-06, Final residual = 7.9310447e-21, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 1.2354263e-06, global = 1.1992354e-11, cumulative = -0.00011178355
DILUPBiCGStab:  Solving for epsilon, Initial residual = 1.3122797e-06, Final residual = 4.2551073e-12, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 1.6827214e-06, Final residual = 7.2147815e-12, No Iterations 1

ExecutionTime = 22.51 s

Courant Number mean: 8.2733916e-06 max: 0.25741194
deltaT = 2.1340758e-10


Time = 0.0125725
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 123351.08
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 3.5327973e-10 max: 2.3295231e-05
Igniting cell 517 state : 4.5660415e-05 20.040614 0.45970717 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 1.1918766e-07, Final residual = 1.1918766e-07, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 1.4388955e-07, Final residual = 1.4388955e-07, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00081502477, Final residual = 1.5393394e-12, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 4.629267e-05, Final residual = 1.5256026e-10, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 3.9550165e-05, Final residual = 1.2912284e-10, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.57241
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 174.90564
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 169.95283
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 123.57698
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 127.98205
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 177.95089
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 172.45119
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.08135
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.47427
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.57241
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 174.90564
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 169.95283
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 123.57698
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 127.98205
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 177.95089
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 172.45119
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.08135
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.47427
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 169.95283
DICPCG:  Solving for p, Initial residual = 0.00014484413, Final residual = 5.0776376e-19, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 1.1092151e-06, global = 9.3165679e-12, cumulative = -0.00011178354
StCorr = 1
St courant Number mean: 3.5232432e-10 max: 2.3224914e-05
Igniting cell 517 state : 4.5660415e-05 20.040614 0.45970717 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 1.3509598e-07, Final residual = 1.3509598e-07, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 1.6440439e-07, Final residual = 1.6440439e-07, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00031145459, Final residual = 1.9678331e-12, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 5.8204501e-06, Final residual = 2.5339214e-11, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 4.899394e-06, Final residual = 2.1338786e-11, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.54344
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 174.84188
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.0585
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 123.19945
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 123.15591
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 177.93105
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 172.43067
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.07217
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.46493
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.54344
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 174.84188
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.0585
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 123.19945
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 123.15591
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 177.93105
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 172.43067
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.07217
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.46493
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.0585
DICPCG:  Solving for p, Initial residual = 3.0882575e-06, Final residual = 4.6099183e-21, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 1.105219e-06, global = 9.3165679e-12, cumulative = -0.00011178353
DILUPBiCGStab:  Solving for epsilon, Initial residual = 1.1794491e-06, Final residual = 3.10469e-12, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 1.4953145e-06, Final residual = 5.1551446e-12, No Iterations 1

ExecutionTime = 22.64 s

Courant Number mean: 7.6940195e-06 max: 0.2575339
deltaT = 1.6571669e-10


Time = 0.0125725
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 123585.99
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 2.7573787e-10 max: 1.8193139e-05
Igniting cell 517 state : 4.5660415e-05 20.040614 0.45970717 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 1.0431485e-07, Final residual = 1.0431485e-07, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 1.2592621e-07, Final residual = 1.2592621e-07, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00078812031, Final residual = 1.3606906e-12, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 4.0971253e-05, Final residual = 1.0977232e-10, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 3.5003965e-05, Final residual = 9.2961929e-11, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.36556
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 174.64882
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 169.84354
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 120.97456
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 125.42419
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 177.8036
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 172.30304
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.01041
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.40304
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.36556
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 174.64882
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 169.84354
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 120.97456
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 125.42419
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 177.8036
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 172.30304
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.01041
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.40304
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 169.84354
DICPCG:  Solving for p, Initial residual = 0.00012954395, Final residual = 2.8614773e-19, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 9.9313659e-07, global = 7.2345654e-12, cumulative = -0.00011178352
StCorr = 1
St courant Number mean: 2.7522897e-10 max: 1.8155688e-05
Igniting cell 517 state : 4.5660415e-05 20.040614 0.45970717 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 1.1797361e-07, Final residual = 1.1797361e-07, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 1.4240277e-07, Final residual = 1.4240277e-07, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00024618834, Final residual = 1.7191035e-12, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 5.0473346e-06, Final residual = 1.8972825e-11, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 4.2580086e-06, Final residual = 1.6017399e-11, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.33959
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 174.59387
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 169.93334
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 120.60612
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 120.55124
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 177.78609
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 172.28499
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.00236
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.39487
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.33959
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 174.59387
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 169.93334
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 120.60612
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 120.55124
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 177.78609
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 172.28499
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 199.00236
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.39487
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 169.93334
DICPCG:  Solving for p, Initial residual = 2.6846961e-06, Final residual = 2.2943791e-21, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 9.8984316e-07, global = 7.2345654e-12, cumulative = -0.00011178351
DILUPBiCGStab:  Solving for epsilon, Initial residual = 1.0607365e-06, Final residual = 2.2672499e-12, No Iterations 1
DILUPBiCGStab:  Solving for k, Initial residual = 1.3299015e-06, Final residual = 3.6888556e-12, No Iterations 1

ExecutionTime = 22.79 s

Courant Number mean: 7.1930349e-06 max: 0.25763361
deltaT = 1.2863617e-10


Time = 0.0125725
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 123795.33
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 2.1465215e-10 max: 1.4167533e-05
Igniting cell 517 state : 4.5660415e-05 20.040614 0.45970717 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 9.1391313e-08, Final residual = 9.1391313e-08, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 1.1032681e-07, Final residual = 1.1032681e-07, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00084616131, Final residual = 7.0031317e-13, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 3.6453294e-05, Final residual = 7.9269798e-11, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 3.1149122e-05, Final residual = 6.7156413e-11, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.18024
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 174.4194
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 169.84096
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 118.42107
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 122.9085
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 177.67379
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 172.17248
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.94832
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.3407
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.18024
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 174.4194
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 169.84096
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 118.42107
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 122.9085
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 177.67379
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 172.17248
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.94832
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.3407
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 169.84096
DICPCG:  Solving for p, Initial residual = 0.0001160596, Final residual = 1.5094064e-19, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 8.8997843e-07, global = 5.6157706e-12, cumulative = -0.00011178351
StCorr = 1
St courant Number mean: 2.1438451e-10 max: 1.4147838e-05
Igniting cell 517 state : 4.5660415e-05 20.040614 0.45970717 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 1.0348558e-07, Final residual = 1.0348558e-07, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 1.2490923e-07, Final residual = 1.2490923e-07, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00023421513, Final residual = 1.5299359e-12, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 4.8767061e-06, Final residual = 1.4619493e-11, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 4.1179124e-06, Final residual = 1.2337622e-11, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.15699
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 174.37203
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 169.90976
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 118.0619
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 117.99054
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 177.65834
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 172.1566
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.94127
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.33355
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.15699
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 174.37203
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 169.90976
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 118.0619
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 117.99054
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 177.65834
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 172.1566
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.94127
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.33355
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 169.90976
DICPCG:  Solving for p, Initial residual = 2.5887541e-06, Final residual = 1.4071174e-21, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 8.8747475e-07, global = 5.6157706e-12, cumulative = -0.0001117835
DILUPBiCGStab:  Solving for epsilon, Initial residual = 9.5458414e-07, Final residual = 9.5458414e-07, No Iterations 0
DILUPBiCGStab:  Solving for k, Initial residual = 1.183743e-06, Final residual = 2.6437525e-12, No Iterations 1

ExecutionTime = 22.94 s

Courant Number mean: 6.7572281e-06 max: 0.25770764
deltaT = 9.982561e-11


Time = 0.0125725
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 123981.9
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 1.6682204e-10 max: 1.1012596e-05
Igniting cell 517 state : 4.5660415e-05 20.040614 0.45970717 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 8.0167828e-08, Final residual = 8.0167828e-08, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 9.6770476e-08, Final residual = 9.6770476e-08, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0007944229, Final residual = 7.7311642e-13, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 3.2615317e-05, Final residual = 5.830649e-11, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 2.7870807e-05, Final residual = 4.9383227e-11, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.01443
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 174.21461
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 169.89322
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 115.91929
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 120.43627
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 177.5594
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 172.05743
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.89399
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.28615
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.01443
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 174.21461
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 169.89322
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 115.91929
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 120.43627
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 177.5594
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 172.05743
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.89399
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.28615
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 169.89322
DICPCG:  Solving for p, Initial residual = 0.00010413647, Final residual = 8.2793217e-20, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 7.9835286e-07, global = 4.3580104e-12, cumulative = -0.0001117835
StCorr = 1
St courant Number mean: 1.6668236e-10 max: 1.1002319e-05
Igniting cell 517 state : 4.5660415e-05 20.040614 0.45970717 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 9.0872125e-08, Final residual = 9.0872125e-08, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 1.0967967e-07, Final residual = 1.0967967e-07, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00020561928, Final residual = 6.9105649e-13, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 4.3291572e-06, Final residual = 1.038816e-11, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 3.6586811e-06, Final residual = 8.7814906e-12, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.99364
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 174.17375
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 169.94315
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 115.56955
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 115.47453
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 177.54578
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 172.04346
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.88781
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.27988
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.99364
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 174.17375
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 169.94315
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 115.56955
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 115.47453
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 177.54578
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 172.04346
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.88781
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.27988
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 169.94315
DICPCG:  Solving for p, Initial residual = 2.3083831e-06, Final residual = 1.2326379e-21, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 7.9633672e-07, global = 4.3580104e-12, cumulative = -0.00011178349
DILUPBiCGStab:  Solving for epsilon, Initial residual = 8.6022124e-07, Final residual = 8.6022124e-07, No Iterations 0
DILUPBiCGStab:  Solving for k, Initial residual = 1.0544847e-06, Final residual = 1.8976709e-12, No Iterations 1

ExecutionTime = 23.1 s

Courant Number mean: 6.374678e-06 max: 0.25775124
deltaT = 7.745557e-11


Time = 0.0125725
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 124148.16
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 1.2952185e-10 max: 8.550953e-06
Igniting cell 517 state : 4.5660415e-05 20.040614 0.45970717 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 7.0388396e-08, Final residual = 7.0388396e-08, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 8.496209e-08, Final residual = 8.496209e-08, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00077731456, Final residual = 5.0698166e-13, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 2.9381266e-05, Final residual = 4.2362088e-11, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 2.5107138e-05, Final residual = 3.589815e-11, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.86625
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 174.03194
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 169.96973
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 113.47155
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 118.00769
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 177.45861
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 171.95606
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.84644
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.2384
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.86625
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 174.03194
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 169.96973
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 113.47155
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 118.00769
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 177.45861
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 171.95606
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.84644
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.2384
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 169.96973
DICPCG:  Solving for p, Initial residual = 9.3621304e-05, Final residual = 4.9766284e-20, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 7.1685489e-07, global = 3.3814189e-12, cumulative = -0.00011178349
StCorr = 1
St courant Number mean: 1.2944909e-10 max: 8.5455999e-06
Igniting cell 517 state : 4.5660415e-05 20.040614 0.45970717 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 7.98781e-08, Final residual = 7.98781e-08, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 9.6436242e-08, Final residual = 9.6436242e-08, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00017383122, Final residual = 8.623021e-13, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 3.7590742e-06, Final residual = 6.940262e-12, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 3.1750022e-06, Final residual = 5.8775189e-12, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.84769
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 173.99667
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.00489
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 113.1314
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 113.00268
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 177.44659
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 171.94376
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.84103
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.23291
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.84769
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 173.99667
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.00489
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 113.1314
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 113.00268
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 177.44659
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 171.94376
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.84103
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.23291
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.00489
DICPCG:  Solving for p, Initial residual = 2.0094835e-06, Final residual = 5.0731068e-22, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 7.1516195e-07, global = 3.3814189e-12, cumulative = -0.00011178349
DILUPBiCGStab:  Solving for epsilon, Initial residual = 7.7564401e-07, Final residual = 7.7564401e-07, No Iterations 0
DILUPBiCGStab:  Solving for k, Initial residual = 9.4011803e-07, Final residual = 9.4011803e-07, No Iterations 0

ExecutionTime = 23.24 s

Courant Number mean: 6.0370141e-06 max: 0.25775769
deltaT = 6.0097529e-11


Time = 0.0125725
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 124296.36
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 1.0051199e-10 max: 6.6359031e-06
Igniting cell 517 state : 4.5660415e-05 20.040614 0.45970717 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 6.5413574e-08, Final residual = 6.5413574e-08, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 8.007331e-08, Final residual = 8.007331e-08, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00080764072, Final residual = 2.9230999e-13, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 2.6311152e-05, Final residual = 3.0703605e-11, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 2.248424e-05, Final residual = 2.6027332e-11, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.73395
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 173.86907
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.0531
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 111.07982
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 115.62159
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 177.36979
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 171.86672
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.80482
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.19659
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.73395
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 173.86907
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.0531
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 111.07982
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 115.62159
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 177.36979
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 171.86672
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.80482
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.19659
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.0531
DICPCG:  Solving for p, Initial residual = 8.4184745e-05, Final residual = 2.8573183e-20, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 6.4430191e-07, global = 2.6236323e-12, cumulative = -0.00011178348
StCorr = 1
St courant Number mean: 1.0047437e-10 max: 6.6331346e-06
Igniting cell 517 state : 4.5660415e-05 20.040614 0.45970717 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 7.2293292e-08, Final residual = 7.2293292e-08, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 8.8201796e-08, Final residual = 8.8201796e-08, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00017237943, Final residual = 6.2088511e-13, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 3.4026844e-06, Final residual = 4.9936057e-12, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 2.8790735e-06, Final residual = 4.2340807e-12, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.71738
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 173.83857
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.07742
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 110.74939
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 110.57288
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 177.35919
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 171.85589
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.80007
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.19179
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.71738
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 173.83857
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.07742
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 110.74939
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 110.57288
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 177.35919
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 171.85589
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.80007
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.19179
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.07742
DICPCG:  Solving for p, Initial residual = 1.8225408e-06, Final residual = 5.3214535e-22, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 6.4288354e-07, global = 2.6236323e-12, cumulative = -0.00011178348
DILUPBiCGStab:  Solving for epsilon, Initial residual = 6.9993605e-07, Final residual = 6.9993605e-07, No Iterations 0
DILUPBiCGStab:  Solving for k, Initial residual = 8.3966394e-07, Final residual = 8.3966394e-07, No Iterations 0

ExecutionTime = 23.38 s

Courant Number mean: 5.7370345e-06 max: 0.25771738
deltaT = 4.6637119e-11


Time = 0.0125725
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 124428.48
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 7.7992373e-11 max: 5.1491028e-06
Igniting cell 517 state : 4.5660415e-05 20.040614 0.45970717 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 5.7577255e-08, Final residual = 5.7577255e-08, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 7.0483331e-08, Final residual = 7.0483331e-08, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00078331253, Final residual = 2.221712e-13, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 2.3590569e-05, Final residual = 2.2230614e-11, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 2.0158198e-05, Final residual = 1.8852204e-11, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.61588
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 173.72387
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.13391
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 108.7457
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 113.27516
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 177.2915
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 171.78797
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.76837
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.15999
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.61588
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 173.72387
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.13391
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 108.7457
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 113.27516
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 177.2915
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 171.78797
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.76837
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.15999
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.13391
DICPCG:  Solving for p, Initial residual = 7.574509e-05, Final residual = 2.8079256e-20, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 5.797121e-07, global = 2.0360015e-12, cumulative = -0.00011178348
StCorr = 1
St courant Number mean: 7.7972863e-11 max: 5.1476662e-06
Igniting cell 517 state : 4.5660415e-05 20.040614 0.45970717 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 6.5852418e-08, Final residual = 6.5852418e-08, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 8.0672916e-08, Final residual = 8.0672916e-08, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00016357959, Final residual = 2.8230736e-13, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 3.0124682e-06, Final residual = 3.8152562e-12, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 2.5518631e-06, Final residual = 3.2341846e-12, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.60111
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 173.69747
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.15057
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 108.42517
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 108.18105
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 177.28213
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 171.77843
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.7642
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.15577
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.60111
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 173.69747
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.15057
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 108.42517
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 108.18105
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 177.28213
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 171.77843
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.7642
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.15577
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.15057
DICPCG:  Solving for p, Initial residual = 1.6192284e-06, Final residual = 2.0806235e-22, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 5.7851823e-07, global = 2.0360015e-12, cumulative = -0.00011178348
DILUPBiCGStab:  Solving for epsilon, Initial residual = 6.3210886e-07, Final residual = 6.3210886e-07, No Iterations 0
DILUPBiCGStab:  Solving for k, Initial residual = 7.5067667e-07, Final residual = 7.5067667e-07, No Iterations 0

ExecutionTime = 23.52 s

Courant Number mean: 5.4703635e-06 max: 0.25761668
deltaT = 3.6205876e-11


Time = 0.0125725
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 124546.32
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 6.0534593e-11 max: 3.9964404e-06
Igniting cell 517 state : 4.5660415e-05 20.040614 0.45970717 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 5.1046603e-08, Final residual = 5.1046603e-08, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 6.253375e-08, Final residual = 6.253375e-08, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00075347003, Final residual = 2.9911704e-13, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 2.1174428e-05, Final residual = 1.6240634e-11, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 1.8094447e-05, Final residual = 1.3776958e-11, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.51057
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 173.59443
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.20752
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 102.46626
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 107.0708
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 177.22244
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 171.71851
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.73643
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.1279
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.51057
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 173.59443
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.20752
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 102.46626
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 107.0708
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 177.22244
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 171.71851
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.73643
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.1279
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.20752
DICPCG:  Solving for p, Initial residual = 6.8240444e-05, Final residual = 3.0586645e-20, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 5.2225003e-07, global = 1.5806126e-12, cumulative = -0.00011178348
StCorr = 1
St courant Number mean: 6.0524474e-11 max: 3.9956942e-06
Igniting cell 517 state : 4.5660415e-05 20.040614 0.45970717 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 5.8128097e-08, Final residual = 5.8128097e-08, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 7.1214088e-08, Final residual = 7.1214088e-08, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00015325284, Final residual = 5.1484093e-13, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 2.7944189e-06, Final residual = 2.9387575e-12, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 2.3684563e-06, Final residual = 2.4917261e-12, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.4974
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 173.57153
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.21887
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 106.16006
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 105.82043
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 177.21417
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 171.71009
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.73277
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.12421
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.4974
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 173.57153
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.21887
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 106.16006
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 105.82043
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 177.21417
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 171.71009
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.73277
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.12421
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.21887
DICPCG:  Solving for p, Initial residual = 1.5109813e-06, Final residual = 3.1116789e-22, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 5.2124514e-07, global = 1.5806126e-12, cumulative = -0.00011178347
DILUPBiCGStab:  Solving for epsilon, Initial residual = 5.7140122e-07, Final residual = 5.7140122e-07, No Iterations 0
DILUPBiCGStab:  Solving for k, Initial residual = 6.7189927e-07, Final residual = 6.7189927e-07, No Iterations 0

ExecutionTime = 23.65 s

Courant Number mean: 5.2322764e-06 max: 0.25743628
deltaT = 2.8127593e-11


Time = 0.0125725
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 124651.48
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 4.7015409e-11 max: 3.1038235e-06
Igniting cell 517 state : 4.5660415e-05 20.040614 0.45970717 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 4.5099443e-08, Final residual = 4.5099443e-08, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 5.5252022e-08, Final residual = 5.5252022e-08, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0008190106, Final residual = 1.337668e-13, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 1.9039777e-05, Final residual = 1.2057039e-11, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 1.6269104e-05, Final residual = 1.0229329e-11, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.41662
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 173.47899
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.27208
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 104.2552
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 108.67835
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 177.16148
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 171.65719
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.70841
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.09976
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.41662
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 173.47899
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.27208
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 104.2552
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 108.67835
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 177.16148
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 171.65719
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.70841
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.09976
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.27208
DICPCG:  Solving for p, Initial residual = 6.1573464e-05, Final residual = 1.4528899e-20, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.7120158e-07, global = 1.2279451e-12, cumulative = -0.00011178347
StCorr = 1
St courant Number mean: 4.7010156e-11 max: 3.1034348e-06
Igniting cell 517 state : 4.5660415e-05 20.040614 0.45970717 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 4.8380169e-08, Final residual = 4.8380169e-08, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 5.8452729e-08, Final residual = 5.8452729e-08, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00015512832, Final residual = 2.8950111e-13, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 2.5372463e-06, Final residual = 1.947004e-12, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 2.1514368e-06, Final residual = 1.6539005e-12, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.40489
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 173.45909
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.28204
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 103.95522
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 103.48073
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 177.15417
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 171.64976
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.70519
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.09652
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.40489
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 173.45909
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.28204
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 103.95522
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 103.48073
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 177.15417
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 171.64976
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.70519
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.09652
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.28204
DICPCG:  Solving for p, Initial residual = 1.3711378e-06, Final residual = 1.5887006e-22, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.7035923e-07, global = 1.2279451e-12, cumulative = -0.00011178347
DILUPBiCGStab:  Solving for epsilon, Initial residual = 5.1715228e-07, Final residual = 5.1715228e-07, No Iterations 0
DILUPBiCGStab:  Solving for k, Initial residual = 6.0224711e-07, Final residual = 6.0224711e-07, No Iterations 0

ExecutionTime = 23.79 s

Courant Number mean: 5.0194319e-06 max: 0.25714912
deltaT = 2.187622e-11


Time = 0.0125725
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 124745.41
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 3.655621e-11 max: 2.4132583e-06
Igniting cell 517 state : 4.5660415e-05 20.040614 0.45970717 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 3.9951369e-08, Final residual = 3.9951369e-08, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 4.8946962e-08, Final residual = 4.8946962e-08, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00077379543, Final residual = 1.3225467e-13, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 1.7158731e-05, Final residual = 8.8158384e-12, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 1.4662238e-05, Final residual = 7.4823424e-12, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.33278
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 173.37596
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.3318
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 102.10085
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 106.40824
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 177.1076
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 171.60299
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.6838
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.07505
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.33278
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 173.37596
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.3318
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 102.10085
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 106.40824
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 177.1076
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 171.60299
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.6838
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.07505
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.3318
DICPCG:  Solving for p, Initial residual = 5.5668987e-05, Final residual = 4.8102312e-21, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.2596029e-07, global = 9.5503366e-13, cumulative = -0.00011178347
StCorr = 1
St courant Number mean: 3.6553482e-11 max: 2.413055e-06
Igniting cell 517 state : 4.5660415e-05 20.040614 0.45970717 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 4.2880154e-08, Final residual = 4.2880154e-08, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 5.181862e-08, Final residual = 5.181862e-08, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00014813536, Final residual = 2.0739209e-13, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 2.2983244e-06, Final residual = 1.4873781e-12, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 1.950067e-06, Final residual = 1.2639453e-12, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.32232
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 173.35862
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.3399
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 101.81175
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 101.1468
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 177.10113
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 171.59643
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.68097
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.07219
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.32232
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 173.35862
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.3399
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 101.81175
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 101.1468
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 177.10113
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 171.59643
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.68097
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.07219
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.3399
DICPCG:  Solving for p, Initial residual = 1.2459776e-06, Final residual = 7.9175699e-23, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.2524177e-07, global = 9.5503366e-13, cumulative = -0.00011178347
DILUPBiCGStab:  Solving for epsilon, Initial residual = 4.6878632e-07, Final residual = 4.6878632e-07, No Iterations 0
DILUPBiCGStab:  Solving for k, Initial residual = 5.407849e-07, Final residual = 5.407849e-07, No Iterations 0

ExecutionTime = 23.93 s

Courant Number mean: 4.8283925e-06 max: 0.25671729
deltaT = 1.7042884e-11


Time = 0.0125725
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 124829.42
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 2.8472233e-11 max: 1.8795319e-06
Igniting cell 517 state : 4.5660415e-05 20.040614 0.45970717 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 3.5470718e-08, Final residual = 3.5470718e-08, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 4.3464997e-08, Final residual = 4.3464997e-08, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00083448397, Final residual = 1.2019123e-13, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 1.5506799e-05, Final residual = 6.52788e-12, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 1.3249619e-05, Final residual = 5.5415881e-12, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.25789
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 173.28389
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.3857
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 100.00818
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 104.13571
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 177.05989
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 171.555
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.66215
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.0533
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.25789
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 173.28389
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.3857
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 100.00818
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 104.13571
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 177.05989
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 171.555
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.66215
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.0533
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.3857
DICPCG:  Solving for p, Initial residual = 5.0451872e-05, Final residual = 3.9016619e-21, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 3.859962e-07, global = 7.4402836e-13, cumulative = -0.00011178347
StCorr = 1
St courant Number mean: 2.847082e-11 max: 1.8794248e-06
Igniting cell 517 state : 4.5660415e-05 20.040614 0.45970717 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 4.0518979e-08, Final residual = 4.0518979e-08, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 4.9656188e-08, Final residual = 4.9656188e-08, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00015077997, Final residual = 2.0317331e-13, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 2.0326289e-06, Final residual = 1.1017227e-12, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 1.7236854e-06, Final residual = 9.3601124e-13, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.24855
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 173.26873
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.39332
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 99.730586
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 98.796583
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 177.05415
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 171.54919
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.65965
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.05078
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.24855
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 173.26873
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.39332
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 99.730586
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 98.796583
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 177.05415
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 171.54919
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.65965
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.05078
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.39332
DICPCG:  Solving for p, Initial residual = 1.1018157e-06, Final residual = 9.7711395e-23, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 3.8538201e-07, global = 7.4402836e-13, cumulative = -0.00011178347
DILUPBiCGStab:  Solving for epsilon, Initial residual = 4.2582267e-07, Final residual = 4.2582267e-07, No Iterations 0
DILUPBiCGStab:  Solving for k, Initial residual = 4.867227e-07, Final residual = 4.867227e-07, No Iterations 0

ExecutionTime = 24.08 s

Courant Number mean: 4.6564729e-06 max: 0.25608802
deltaT = 1.3310079e-11


Time = 0.0125725
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 124904.68
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 2.2231149e-11 max: 1.4674906e-06
Igniting cell 517 state : 4.5660415e-05 20.040614 0.45970717 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 2.9730404e-08, Final residual = 2.9730404e-08, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 3.5938044e-08, Final residual = 3.5938044e-08, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00077638689, Final residual = 1.474256e-13, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 1.4059393e-05, Final residual = 4.8660775e-12, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 1.2011706e-05, Final residual = 4.1323315e-12, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.19086
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 173.20144
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.43588
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 97.977815
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 101.83564
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 177.01754
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 171.5124
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.64305
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.03411
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.19086
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 173.20144
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.43588
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 97.977815
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 101.83564
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 177.01754
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 171.5124
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.64305
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.03411
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.43588
DICPCG:  Solving for p, Initial residual = 4.5854241e-05, Final residual = 4.1004661e-21, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 3.5089132e-07, global = 5.8106811e-13, cumulative = -0.00011178347
StCorr = 1
St courant Number mean: 2.2230423e-11 max: 1.4674338e-06
Igniting cell 517 state : 4.5660415e-05 20.040614 0.45970717 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 3.613149e-08, Final residual = 3.613149e-08, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 4.4293718e-08, Final residual = 4.4293718e-08, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00015140529, Final residual = 2.5190269e-13, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 1.8779365e-06, Final residual = 8.5383584e-13, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 1.592894e-06, Final residual = 7.249372e-13, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.18251
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 173.18813
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.44104
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 97.712611
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 96.398247
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 177.01243
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 171.50723
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.64084
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.03188
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.18251
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 173.18813
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.44104
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 97.712611
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 96.398247
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 177.01243
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 171.50723
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.64084
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.03188
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.44104
DICPCG:  Solving for p, Initial residual = 1.0216431e-06, Final residual = 7.8512369e-23, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 3.5036165e-07, global = 5.8106811e-13, cumulative = -0.00011178347
DILUPBiCGStab:  Solving for epsilon, Initial residual = 3.8787267e-07, Final residual = 3.8787267e-07, No Iterations 0
DILUPBiCGStab:  Solving for k, Initial residual = 4.3944937e-07, Final residual = 4.3944937e-07, No Iterations 0

ExecutionTime = 24.22 s

Courant Number mean: 4.5007998e-06 max: 0.25518834
deltaT = 1.0431513e-11


Time = 0.0125725
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 124972.29
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 1.7419937e-11 max: 1.1498591e-06
Igniting cell 517 state : 4.5660415e-05 20.040614 0.45970717 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 2.8289137e-08, Final residual = 2.8289137e-08, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 3.4679861e-08, Final residual = 3.4679861e-08, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00078698512, Final residual = 1.0633499e-13, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 1.280191e-05, Final residual = 3.7070384e-12, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 1.0936155e-05, Final residual = 3.1481775e-12, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.13071
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 173.12737
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.47901
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 92.048124
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 95.589525
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 176.9798
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 171.47445
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.62613
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.01711
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.13071
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 173.12737
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.47901
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 92.048124
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 95.589525
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 176.9798
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 171.47445
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.62613
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.01711
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.47901
DICPCG:  Solving for p, Initial residual = 4.187584e-05, Final residual = 2.5209506e-21, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 3.2031966e-07, global = 4.5540073e-13, cumulative = -0.00011178347
StCorr = 1
St courant Number mean: 1.7419573e-11 max: 1.1498286e-06
Igniting cell 517 state : 4.5660415e-05 20.040614 0.45970717 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 3.2372164e-08, Final residual = 3.2372164e-08, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 3.9692408e-08, Final residual = 3.9692408e-08, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00014783717, Final residual = 1.1850727e-13, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 1.6450781e-06, Final residual = 5.9167033e-13, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 1.3958455e-06, Final residual = 5.0279284e-13, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.12322
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 173.11563
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.48248
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 91.512217
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 89.613789
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 176.97525
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 171.46984
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.62418
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.01514
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.12322
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 173.11563
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.48248
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 91.512217
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 89.613789
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 176.97525
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 171.46984
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.62418
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.01514
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.48248
DICPCG:  Solving for p, Initial residual = 8.9831894e-07, Final residual = 8.9831894e-07, No Iterations 0
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 3.1986072e-07, global = 4.5540073e-13, cumulative = -0.00011178347
DILUPBiCGStab:  Solving for epsilon, Initial residual = 3.5463772e-07, Final residual = 3.5463772e-07, No Iterations 0
DILUPBiCGStab:  Solving for k, Initial residual = 3.9845776e-07, Final residual = 3.9845776e-07, No Iterations 0

ExecutionTime = 24.35 s

Courant Number mean: 4.3590336e-06 max: 0.25391802
deltaT = 8.2164045e-12


Time = 0.0125725
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 125032.89
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 1.3718755e-11 max: 9.0551553e-07
Igniting cell 517 state : 4.5660415e-05 20.040614 0.45970717 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 2.3944449e-08, Final residual = 2.3944449e-08, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 2.8961988e-08, Final residual = 2.8961988e-08, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00082566924, Final residual = 8.9736634e-14, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 1.1413331e-05, Final residual = 2.7123982e-12, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 9.7505299e-06, Final residual = 2.3045891e-12, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.07521
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 173.05926
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.51514
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 82.769154
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 85.322374
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 176.946
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 171.44044
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.61108
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.00198
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.07521
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 173.05926
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.51514
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 82.769154
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 85.322374
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 176.946
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 171.44044
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.61108
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.00198
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.51514
DICPCG:  Solving for p, Initial residual = 3.827484e-05, Final residual = 3.1880861e-21, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 2.9408526e-07, global = 3.586974e-13, cumulative = -0.00011178347
StCorr = 1
St courant Number mean: 1.3718555e-11 max: 9.0549886e-07
Igniting cell 517 state : 4.5660415e-05 20.040614 0.45970717 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 2.741414e-08, Final residual = 2.741414e-08, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 3.3165286e-08, Final residual = 3.3165286e-08, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00015079901, Final residual = 1.3484579e-13, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 1.8114725e-06, Final residual = 5.5182051e-13, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 1.5408663e-06, Final residual = 4.6967124e-13, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.06974
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 173.0501
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.51796
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 86.091997
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 80.638857
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 176.94194
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 171.43633
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.60934
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.00023
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.06974
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 173.0501
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.51796
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 86.091997
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 80.638857
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 176.94194
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 171.43633
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.60934
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 195.00023
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.51796
DICPCG:  Solving for p, Initial residual = 9.9818511e-07, Final residual = 9.9818511e-07, No Iterations 0
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 2.9368255e-07, global = 3.586974e-13, cumulative = -0.00011178347
DILUPBiCGStab:  Solving for epsilon, Initial residual = 3.2584949e-07, Final residual = 3.2584949e-07, No Iterations 0
DILUPBiCGStab:  Solving for k, Initial residual = 3.6332181e-07, Final residual = 3.6332181e-07, No Iterations 0

ExecutionTime = 24.49 s

Courant Number mean: 4.0459011e-06 max: 0.2367475
deltaT = 6.9410432e-12


Time = 0.0125725
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 125087.71
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 1.1587831e-11 max: 7.6482892e-07
Igniting cell 517 state : 4.5660415e-05 20.040614 0.45970717 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 2.4627718e-08, Final residual = 2.4627718e-08, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 3.0203137e-08, Final residual = 3.0203137e-08, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.0008088535, Final residual = 5.5456113e-14, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 1.1038777e-05, Final residual = 2.5938591e-12, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 9.4359173e-06, Final residual = 2.2056298e-12, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.02343
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 172.99555
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.54794
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 77.750067
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 74.460455
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 176.91383
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 171.40808
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.59682
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 194.98766
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.02343
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 172.99555
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.54794
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 77.750067
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 74.460455
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 176.91383
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 171.40808
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.59682
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 194.98766
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.54794
DICPCG:  Solving for p, Initial residual = 3.7631856e-05, Final residual = 2.2450797e-21, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 2.8976542e-07, global = 3.0301992e-13, cumulative = -0.00011178347
StCorr = 1
St courant Number mean: 1.1587675e-11 max: 7.6481837e-07
Igniting cell 517 state : 4.5660415e-05 20.040614 0.45970717 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 2.6515224e-08, Final residual = 2.6515224e-08, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 3.208659e-08, Final residual = 3.208659e-08, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00016262547, Final residual = 6.6778664e-14, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 1.82711e-06, Final residual = 5.3301631e-13, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 1.5567428e-06, Final residual = 4.5440257e-13, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.01806
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 172.98662
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.55057
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 84.465881
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 70.886853
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 176.90991
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 171.40412
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.59516
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 194.98598
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 197.01806
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 172.98662
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.55057
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 84.465881
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 70.886853
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 176.90991
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 171.40412
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.59516
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 194.98598
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.55057
DICPCG:  Solving for p, Initial residual = 1.0094334e-06, Final residual = 4.9941284e-23, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 2.8935239e-07, global = 3.0301992e-13, cumulative = -0.00011178347
DILUPBiCGStab:  Solving for epsilon, Initial residual = 3.2092948e-07, Final residual = 3.2092948e-07, No Iterations 0
DILUPBiCGStab:  Solving for k, Initial residual = 3.5545056e-07, Final residual = 3.5545056e-07, No Iterations 0

ExecutionTime = 24.63 s

Courant Number mean: 3.7728933e-06 max: 0.21525932
deltaT = 6.4489831e-12


Time = 0.0125725
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 125141.38
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 1.0765097e-11 max: 7.1049034e-07
Igniting cell 517 state : 4.5660415e-05 20.040614 0.45970717 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 2.461483e-08, Final residual = 2.461483e-08, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 2.9786754e-08, Final residual = 2.9786754e-08, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00079233333, Final residual = 1.0090239e-13, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 1.2318912e-05, Final residual = 3.3541606e-12, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 1.0546919e-05, Final residual = 2.8573824e-12, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 196.97006
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 172.92992
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.5813
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 79.823842
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 66.813385
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 176.88022
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 171.37428
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.58202
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 194.97279
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 196.97006
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 172.92992
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.5813
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 79.823842
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 66.813385
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 176.88022
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 171.37428
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.58202
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 194.97279
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.5813
DICPCG:  Solving for p, Initial residual = 4.0999378e-05, Final residual = 2.479056e-21, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 3.1407587e-07, global = 2.8153842e-13, cumulative = -0.00011178347
StCorr = 1
St courant Number mean: 1.0764939e-11 max: 7.1048223e-07
Igniting cell 517 state : 4.5660415e-05 20.040614 0.45970717 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 2.8225345e-08, Final residual = 2.8225345e-08, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 3.4164632e-08, Final residual = 3.4164632e-08, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00014976506, Final residual = 1.2904741e-13, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 1.663759e-06, Final residual = 5.6640154e-13, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 1.4166802e-06, Final residual = 4.8416569e-13, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 196.96317
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 172.91904
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.58319
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 80.109624
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 54.207998
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 176.87605
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 171.37006
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.58025
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 194.97101
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 196.96317
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 172.91904
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.58319
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 80.109624
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 54.207998
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 176.87605
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 171.37006
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.58025
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 194.97101
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.58319
DICPCG:  Solving for p, Initial residual = 9.0825432e-07, Final residual = 9.0825432e-07, No Iterations 0
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 3.135625e-07, global = 2.8153842e-13, cumulative = -0.00011178346
DILUPBiCGStab:  Solving for epsilon, Initial residual = 3.473441e-07, Final residual = 3.473441e-07, No Iterations 0
DILUPBiCGStab:  Solving for k, Initial residual = 3.8250362e-07, Final residual = 3.8250362e-07, No Iterations 0

ExecutionTime = 24.76 s

Courant Number mean: 3.7125331e-06 max: 0.20156939
deltaT = 6.3987497e-12


Time = 0.0125725
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 125198.41
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 1.0680038e-11 max: 7.0483418e-07
Igniting cell 517 state : 4.5660415e-05 20.040614 0.45970717 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 2.7977276e-08, Final residual = 2.7977276e-08, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 3.3867138e-08, Final residual = 3.3867138e-08, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00077618881, Final residual = 8.1506124e-14, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 1.3795257e-05, Final residual = 4.9209731e-12, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 1.1840626e-05, Final residual = 4.2037117e-12, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 196.90724
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 172.85351
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.6156
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 72.38259
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 40.839799
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 176.84251
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 171.33635
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.5655
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 194.95619
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 196.90724
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 172.85351
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.6156
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 72.38259
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 40.839799
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 176.84251
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 171.33635
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.5655
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 194.95619
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.6156
DICPCG:  Solving for p, Initial residual = 4.7237417e-05, Final residual = 6.8036171e-21, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 3.63492e-07, global = 2.7934542e-13, cumulative = -0.00011178346
StCorr = 1
St courant Number mean: 1.067979e-11 max: 7.0482699e-07
Igniting cell 517 state : 4.5660415e-05 20.040614 0.45970717 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 3.2095459e-08, Final residual = 3.2095459e-08, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 3.88583e-08, Final residual = 3.88583e-08, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00014782477, Final residual = 1.6113793e-13, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 2.2085139e-06, Final residual = 1.0191142e-12, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 1.8895325e-06, Final residual = 8.7478915e-13, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 196.90091
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 172.84224
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.61744
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 76.695861
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 23.274846
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 176.83781
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 171.33159
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.56352
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 194.9542
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 196.90091
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 172.84224
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.61744
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 76.695861
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 23.274846
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 176.83781
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 171.33159
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.56352
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 194.9542
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.61744
DICPCG:  Solving for p, Initial residual = 1.2128051e-06, Final residual = 2.1684114e-22, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 3.6277481e-07, global = 2.7934542e-13, cumulative = -0.00011178346
DILUPBiCGStab:  Solving for epsilon, Initial residual = 3.9941771e-07, Final residual = 3.9941771e-07, No Iterations 0
DILUPBiCGStab:  Solving for k, Initial residual = 4.3953146e-07, Final residual = 4.3953146e-07, No Iterations 0

ExecutionTime = 24.91 s

Courant Number mean: 3.5975827e-06 max: 0.17439441
deltaT = 7.1325718e-12


Time = 0.0125725
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 125263.89
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 1.1903244e-11 max: 7.8550956e-07
Igniting cell 517 state : 4.5660415e-05 20.040614 0.45970717 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 3.5738225e-08, Final residual = 3.5738225e-08, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 4.3271879e-08, Final residual = 4.3271879e-08, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00079565103, Final residual = 1.4325196e-13, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 1.8386308e-05, Final residual = 1.0813856e-11, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 1.5873859e-05, Final residual = 9.2900987e-12, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 196.83156
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 172.76163
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.65598
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 73.187286
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 8.7654234
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 176.7953
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 171.28887
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.54493
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 194.93552
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 196.83156
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 172.76163
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.65598
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 73.187286
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 8.7654234
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 176.7953
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 171.28887
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.54493
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 194.93552
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.65598
DICPCG:  Solving for p, Initial residual = 6.1695642e-05, Final residual = 1.1927114e-20, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.7220081e-07, global = 3.1138134e-13, cumulative = -0.00011178346
StCorr = 1
St courant Number mean: 1.1902846e-11 max: 7.8550142e-07
Igniting cell 517 state : 4.5660415e-05 20.040614 0.45970717 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 4.3658463e-08, Final residual = 4.3658463e-08, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 5.3576525e-08, Final residual = 5.3576525e-08, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00015549666, Final residual = 2.9568802e-13, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 2.3564125e-06, Final residual = 1.7143808e-12, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 2.0222483e-06, Final residual = 1.4813174e-12, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 196.82166
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 172.74428
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.65752
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 74.089871
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = -36.501729
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 176.78929
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 171.28277
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.54241
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 194.93298
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 196.82166
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 172.74428
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.65752
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 74.089871
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = -36.501729
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 176.78929
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 171.28277
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.54241
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 194.93298
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.65752
DICPCG:  Solving for p, Initial residual = 1.2695121e-06, Final residual = 2.4775465e-22, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 4.7091865e-07, global = 3.1138134e-13, cumulative = -0.00011178346
DILUPBiCGStab:  Solving for epsilon, Initial residual = 5.0996468e-07, Final residual = 5.0996468e-07, No Iterations 0
DILUPBiCGStab:  Solving for k, Initial residual = 5.6702232e-07, Final residual = 5.6702232e-07, No Iterations 0

ExecutionTime = 25.05 s

Courant Number mean: 3.7652044e-06 max: 0.14993751
deltaT = 8.0839728e-12


Time = 0.0125725
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 125347.84
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 1.3488617e-11 max: 8.9007958e-07
Igniting cell 517 state : 4.5660415e-05 20.040614 0.45970717 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 4.6407227e-08, Final residual = 4.6407227e-08, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 5.6203646e-08, Final residual = 5.6203646e-08, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00085069924, Final residual = 2.6929078e-13, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 2.3798736e-05, Final residual = 2.4469785e-11, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 2.0789125e-05, Final residual = 2.1259187e-11, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 196.73182
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 172.6418
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.70324
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 73.781365
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = -63.039509
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 176.73448
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 171.22771
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.51858
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 194.90904
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 196.73182
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 172.6418
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.70324
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 73.781365
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = -63.039509
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 176.73448
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 171.22771
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.51858
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 194.90904
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.70324
DICPCG:  Solving for p, Initial residual = 8.1287006e-05, Final residual = 5.1987874e-21, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 6.2265771e-07, global = 3.5291594e-13, cumulative = -0.00011178346
StCorr = 1
St courant Number mean: 1.3488064e-11 max: 8.9006995e-07
Igniting cell 517 state : 4.5660415e-05 20.040614 0.45970717 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 5.3249143e-08, Final residual = 5.3249143e-08, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 6.4505056e-08, Final residual = 6.4505056e-08, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00016200575, Final residual = 4.9596006e-13, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 3.146084e-06, Final residual = 4.0628989e-12, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 2.7317557e-06, Final residual = 3.5796807e-12, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 196.71904
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 172.61732
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.70473
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 73.904846
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = -267.65014
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 176.72669
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 171.21978
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.51533
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 194.90576
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 196.71904
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 172.61732
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.70473
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 73.904846
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = -267.65014
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 176.72669
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 171.21978
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.51533
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 194.90576
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.70473
DICPCG:  Solving for p, Initial residual = 1.6865934e-06, Final residual = 3.3844458e-22, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 6.2032352e-07, global = 3.5291594e-13, cumulative = -0.00011178346
DILUPBiCGStab:  Solving for epsilon, Initial residual = 5.9686639e-07, Final residual = 5.9686639e-07, No Iterations 0
DILUPBiCGStab:  Solving for k, Initial residual = 7.4297432e-07, Final residual = 7.4297432e-07, No Iterations 0

ExecutionTime = 25.18 s

Courant Number mean: 3.9718339e-06 max: 0.11363824
deltaT = 9.5067173e-12


Time = 0.0125725
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
Pressure difference = 125457.19
Open fraction = 0.999999
StCorr = 1
St courant Number mean: 1.5858766e-11 max: 1.0464349e-06
Igniting cell 517 state : 4.5660415e-05 20.040614 0.45970717 0.26605631
DILUPBiCGStab:  Solving for b, Initial residual = 6.2494175e-08, Final residual = 6.2494175e-08, No Iterations 0
min(b) = 4.5660415e-05
Combustion progress = 0.018160891%
DILUPBiCGStab:  Solving for Xi, Initial residual = 7.5709405e-08, Final residual = 7.5709405e-08, No Iterations 0
DILUPBiCGStab:  Solving for ft, Initial residual = 0.00073991376, Final residual = 6.4498553e-13, No Iterations 1
DILUPBiCGStab:  Solving for hau, Initial residual = 3.0971612e-05, Final residual = 5.9012916e-11, No Iterations 1
DILUPBiCGStab:  Solving for ha, Initial residual = 2.8317738e-05, Final residual = 5.3610381e-11, No Iterations 1
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 196.59827
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 172.48374
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.76054
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 73.717805
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = -360.92202
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 176.65337
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 171.14617
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.48363
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 194.87393
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 196.59827
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 172.48374
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.76054
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 73.717805
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = -360.92202
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 176.65337
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 171.14617
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 198.48363
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 194.87393
--> FOAM Warning : 
    From function Foam::scalar Foam::janafThermo<EquationOfState>::limit(Foam::scalar) const [with EquationOfState = Foam::perfectGas<Foam::specie>; Foam::scalar = double]
    in file /home/ubuntu/OpenFOAM/OpenFOAM-6/src/thermophysicalModels/specie/lnInclude/janafThermoI.H at line 117
    attempt to use janafThermo<EquationOfState> out of temperature range 200 -> 5000;  T = 170.76054
DICPCG:  Solving for p, Initial residual = 0.000110897, Final residual = 1.8627374e-20, No Iterations 1
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 8.4961449e-07, global = 4.1502764e-13, cumulative = -0.00011178346
#0  Foam::error::printStack(Foam::Ostream&) at ??:?
#1  Foam::sigFpe::sigHandler(int) at ??:?
#2  ? in "/lib/x86_64-linux-gnu/libc.so.6"
#3  ? in "/lib/x86_64-linux-gnu/libm.so.6"
#4  pow in "/lib/x86_64-linux-gnu/libm.so.6"
#5  ? at ??:?
#6  ? at ??:?
#7  ? at ??:?
#8  __libc_start_main in "/lib/x86_64-linux-gnu/libc.so.6"
#9  ? at ??:?
Floating point exception (core dumped)