/*---------------------------------------------------------------------------*\ | ========= | | | \\ / F ield | OpenFOAM: The Open Source CFD Toolbox | | \\ / O peration | Version: dev | | \\ / A nd | Web: www.OpenFOAM.org | | \\/ M anipulation | | \*---------------------------------------------------------------------------*/ Build : dev-1888b122cc34 Exec : reactingParcelFilmFoam Date : Jul 09 2017 Time : 19:26:45 Host : "test-VirtualBox" PID : 2962 I/O : uncollated Case : /home/test/OpenFOAM/test-dev/run/hotBoxes 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: Operating solver in PISO mode Creating combustion model Selecting combustion model laminar Selecting chemistry type { chemistrySolver noChemistrySolver; chemistryThermo psi; } Selecting thermodynamics package { type hePsiThermo; mixture reactingMixture; transport sutherland; thermo janaf; energy sensibleEnthalpy; equationOfState perfectGas; specie specie; } Selecting chemistryReader foamChemistryReader elements not defined in "/home/test/OpenFOAM/test-dev/run/hotBoxes/constant/foam.inp" chemistryModel: Number of species = 3 and reactions = 0 using integrated reaction rate Creating component thermo properties: multi-component carrier - 3 species liquids - 1 components solids - 0 components Creating field rho Reading field U Reading/calculating face flux field phi Creating turbulence model Selecting turbulence model type RAS Selecting RAS turbulence model kEpsilon Creating field dpdt Creating field kinetic energy K Reading g Reading hRef Calculating field g.h No MRF models present Constructing reacting cloud Constructing particle forces Selecting particle force sphereDrag Selecting particle force gravity Constructing cloud functions none Constructing particle injection models Creating injector: model1 Selecting injection model coneInjection Constructing 3-D injection Selecting distribution model RosinRammler Selecting dispersion model none Selecting patch interaction model standardWallInteraction Selecting stochastic collision model none Selecting surface film model thermoSurfaceFilm Applying splashBai interaction model Selecting U integration scheme Euler Selecting heat transfer model none Selecting T integration scheme analytical Selecting composition model singlePhaseMixture Selecting phase change model none Selecting radiationModel none Constructing surface film model Selecting surfaceFilmModel thermoSingleLayer Selecting region model functions none Selecting filmThermoModel liquid Selecting film injection models curvatureSeparation drippingInjection Selecting distribution model RosinRammler Selecting film transfer models none Selecting filmTurbulenceModel laminar Selecting film force models thermocapillary distributionContactAngle Selecting distribution model normal Selecting filmViscosityModel liquid Selecting heatTransferModel mappedConvectiveHeatTransfer Selecting heatTransferModel constant Selecting phaseChangeModel standardPhaseChange Selecting radiationModel none No finite volume options present Courant Number mean: 0 max: 0 Starting time loop Courant Number mean: 0 max: 0 Film max Courant number: 0 deltaT = 0.0001436781609 Time = 0.000143678 Solving 3-D cloud reactingCloud1 Cloud: reactingCloud1 Current number of parcels = 0 Current mass in system = 0 Linear momentum = (0 0 0) |Linear momentum| = 0 Linear kinetic energy = 0 model1: number of parcels added = 0 mass introduced = 0 Parcels absorbed into film = 0 New film detached parcels = 0 New film splash parcels = 0 Parcel fate (number, mass) - escape = 0, 0 - stick = 0, 0 Temperature min/max = 0, 0 Mass transfer phase change = 0 Evolving thermoSingleLayer for region wallFilmRegion diagonal: Solving for deltaf*rhof, Initial residual = 0, Final residual = 0, No Iterations 0 smoothSolver: Solving for Ufx, Initial residual = 0.9912919068, Final residual = 1.793914086e-17, No Iterations 1 smoothSolver: Solving for Ufy, Initial residual = 0.9904653317, Final residual = 1.986328704e-17, No Iterations 1 smoothSolver: Solving for Ufz, Initial residual = 0.9973363737, Final residual = 1.832228392e-17, No Iterations 1 smoothSolver: Solving for hf, Initial residual = 0.000125581383, Final residual = 6.782269813e-07, No Iterations 100 smoothSolver: Solving for deltaf, Initial residual = 0, Final residual = 0, No Iterations 0 diagonal: Solving for deltaf*rhof, Initial residual = 0, Final residual = 0, No Iterations 0 Surface film: thermoSingleLayer added mass = 0 current mass = 0 min/max(mag(U)) = 0, 3.286543803e-19 min/max(delta) = 0, 0 coverage = 0 injected mass = 0 - patch: region0_to_wallFilmRegion_cubeFaces: 0 - patch: region0_to_wallFilmRegion_floorFaces: 0 transferred mass = 0 - patch: region0_to_wallFilmRegion_cubeFaces: 0 - patch: region0_to_wallFilmRegion_floorFaces: 0 min/mean/max(T) = 300, 300, 300 mass phase change = 0 vapourisation rate = 0 diagonal: Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0 PIMPLE: iteration 1 DILUPBiCGStab: Solving for Ux, Initial residual = 0.999999712, Final residual = 3.010999246e-08, No Iterations 1 DILUPBiCGStab: Solving for Uy, Initial residual = 0.9999997108, Final residual = 3.029136101e-08, No Iterations 1 DILUPBiCGStab: Solving for Uz, Initial residual = 1, Final residual = 2.355493116e-09, No Iterations 1 DILUPBiCGStab: Solving for O2, Initial residual = 4.387856388e-05, Final residual = 6.518119935e-13, No Iterations 1 DILUPBiCGStab: Solving for H2O, Initial residual = 0, Final residual = 0, No Iterations 0 DILUPBiCGStab: Solving for h, Initial residual = 0.9851939041, Final residual = 2.635852857e-09, No Iterations 1 T gas min/max = 300, 300 GAMG: Solving for p_rgh, Initial residual = 0.003766716204, Final residual = 0.0002246622948, No Iterations 2 diagonal: Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0 time step continuity errors : sum local = 1.908922321e-08, global = -1.507838742e-11, cumulative = -1.507838742e-11 GAMG: Solving for p_rgh, Initial residual = 0.0002243899932, Final residual = 4.088293376e-07, No Iterations 4 diagonal: Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0 time step continuity errors : sum local = 3.462470582e-11, global = -2.39276453e-14, cumulative = -1.510231506e-11 DILUPBiCGStab: Solving for epsilon, Initial residual = 2.161907638e-05, Final residual = 3.153210653e-13, No Iterations 1 DILUPBiCGStab: Solving for k, Initial residual = 0.9999999395, Final residual = 2.261030041e-08, No Iterations 1 ExecutionTime = 31.48 s ClockTime = 33 s Courant Number mean: 1.524538238e-05 max: 2.745249783e-05 Film max Courant number: 0 deltaT = 0.0002063147145 Time = 0.000349993 Solving 3-D cloud reactingCloud1 Cloud: reactingCloud1 Current number of parcels = 0 Current mass in system = 0 Linear momentum = (0 0 0) |Linear momentum| = 0 Linear kinetic energy = 0 model1: number of parcels added = 0 mass introduced = 0 Parcels absorbed into film = 0 New film detached parcels = 0 New film splash parcels = 0 Parcel fate (number, mass) - escape = 0, 0 - stick = 0, 0 Temperature min/max = 0, 0 Mass transfer phase change = 0 Evolving thermoSingleLayer for region wallFilmRegion diagonal: Solving for deltaf*rhof, Initial residual = 0, Final residual = 0, No Iterations 0 smoothSolver: Solving for Ufx, Initial residual = 0.9999997751, Final residual = 1.730429965e-17, No Iterations 1 smoothSolver: Solving for Ufy, Initial residual = 0.9999997479, Final residual = 1.573065806e-17, No Iterations 1 smoothSolver: Solving for Ufz, Initial residual = 0.9999999928, Final residual = 3.80081344e-18, No Iterations 1 smoothSolver: Solving for hf, Initial residual = 0.0002007270347, Final residual = 1.004836608e-06, No Iterations 100 smoothSolver: Solving for deltaf, Initial residual = 0, Final residual = 0, No Iterations 0 diagonal: Solving for deltaf*rhof, Initial residual = 0, Final residual = 0, No Iterations 0 Surface film: thermoSingleLayer added mass = 0 current mass = 0 min/max(mag(U)) = 1.860799133e-20, 3.571948712e-12 min/max(delta) = 0, 0 coverage = 0 injected mass = 0 - patch: region0_to_wallFilmRegion_cubeFaces: 0 - patch: region0_to_wallFilmRegion_floorFaces: 0 transferred mass = 0 - patch: region0_to_wallFilmRegion_cubeFaces: 0 - patch: region0_to_wallFilmRegion_floorFaces: 0 min/mean/max(T) = 300, 300, 300 mass phase change = 0 vapourisation rate = 0 diagonal: Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0 PIMPLE: iteration 1 DILUPBiCGStab: Solving for Ux, Initial residual = 0.4179561026, Final residual = 2.270798364e-08, No Iterations 1 DILUPBiCGStab: Solving for Uy, Initial residual = 0.4178584889, Final residual = 2.267262541e-08, No Iterations 1 DILUPBiCGStab: Solving for Uz, Initial residual = 0.9131622376, Final residual = 1.280773484e-08, No Iterations 1 DILUPBiCGStab: Solving for O2, Initial residual = 1.751449989e-05, Final residual = 1.009220634e-12, No Iterations 1 DILUPBiCGStab: Solving for H2O, Initial residual = 0, Final residual = 0, No Iterations 0 DILUPBiCGStab: Solving for h, Initial residual = 0.9999531508, Final residual = 4.656763504e-08, No Iterations 1 T gas min/max = 299.9999882, 300.0000115 GAMG: Solving for p_rgh, Initial residual = 0.01209393665, Final residual = 0.0008557312455, No Iterations 2 diagonal: Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0 time step continuity errors : sum local = 7.215045997e-08, global = 1.971139215e-11, cumulative = 4.609077086e-12 GAMG: Solving for p_rgh, Initial residual = 0.0008617705561, Final residual = 3.407065647e-07, No Iterations 6 diagonal: Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0 time step continuity errors : sum local = 2.909864338e-11, global = -4.857900982e-16, cumulative = 4.608591296e-12 DILUPBiCGStab: Solving for epsilon, Initial residual = 1.881621782e-05, Final residual = 6.25164579e-13, No Iterations 1 DILUPBiCGStab: Solving for k, Initial residual = 0.340644112, Final residual = 1.024222128e-08, No Iterations 1 ExecutionTime = 41.88 s ClockTime = 53 s Courant Number mean: 5.083992092e-05 max: 0.0001141046605 Film max Courant number: 0 deltaT = 0.0002965774022 Time = 0.00064657 Solving 3-D cloud reactingCloud1 Cloud: reactingCloud1 Current number of parcels = 0 Current mass in system = 0 Linear momentum = (0 0 0) |Linear momentum| = 0 Linear kinetic energy = 0 model1: number of parcels added = 0 mass introduced = 0 Parcels absorbed into film = 0 New film detached parcels = 0 New film splash parcels = 0 Parcel fate (number, mass) - escape = 0, 0 - stick = 0, 0 Temperature min/max = 0, 0 Mass transfer phase change = 0 Evolving thermoSingleLayer for region wallFilmRegion diagonal: Solving for deltaf*rhof, Initial residual = 0, Final residual = 0, No Iterations 0 smoothSolver: Solving for Ufx, Initial residual = 0.853064311, Final residual = 1.577545174e-17, No Iterations 1 smoothSolver: Solving for Ufy, Initial residual = 0.845556154, Final residual = 1.625203592e-17, No Iterations 1 smoothSolver: Solving for Ufz, Initial residual = 0.7120700499, Final residual = 2.158519236e-17, No Iterations 1 smoothSolver: Solving for hf, Initial residual = 0.0002086864523, Final residual = 1.069739111e-06, No Iterations 100 smoothSolver: Solving for deltaf, Initial residual = 0, Final residual = 0, No Iterations 0 diagonal: Solving for deltaf*rhof, Initial residual = 0, Final residual = 0, No Iterations 0 Surface film: thermoSingleLayer added mass = 0 current mass = 0 min/max(mag(U)) = 2.930842408e-18, 3.002108484e-11 min/max(delta) = 0, 0 coverage = 0 injected mass = 0 - patch: region0_to_wallFilmRegion_cubeFaces: 0 - patch: region0_to_wallFilmRegion_floorFaces: 0 transferred mass = 0 - patch: region0_to_wallFilmRegion_cubeFaces: 0 - patch: region0_to_wallFilmRegion_floorFaces: 0 min/mean/max(T) = 300, 300, 300 mass phase change = 0 vapourisation rate = 0 diagonal: Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0 PIMPLE: iteration 1 DILUPBiCGStab: Solving for Ux, Initial residual = 0.3654801555, Final residual = 3.462562813e-08, No Iterations 1 DILUPBiCGStab: Solving for Uy, Initial residual = 0.3557411888, Final residual = 3.618928438e-08, No Iterations 1 DILUPBiCGStab: Solving for Uz, Initial residual = 0.7432654016, Final residual = 2.27566734e-08, No Iterations 1 DILUPBiCGStab: Solving for O2, Initial residual = 1.288750158e-05, Final residual = 1.65323269e-12, No Iterations 1 DILUPBiCGStab: Solving for H2O, Initial residual = 0, Final residual = 0, No Iterations 0 DILUPBiCGStab: Solving for h, Initial residual = 0.9904586946, Final residual = 8.905303121e-08, No Iterations 1 T gas min/max = 299.9991509, 300.0008496 GAMG: Solving for p_rgh, Initial residual = 0.03632635406, Final residual = 0.002477847607, No Iterations 2 diagonal: Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0 time step continuity errors : sum local = 2.022394361e-07, global = 1.615295688e-10, cumulative = 1.6613816e-10 GAMG: Solving for p_rgh, Initial residual = 0.002558362649, Final residual = 6.251797752e-07, No Iterations 7 diagonal: Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0 time step continuity errors : sum local = 5.218177075e-11, global = -1.42025442e-13, cumulative = 1.659961346e-10 DILUPBiCGStab: Solving for epsilon, Initial residual = 2.715939298e-05, Final residual = 2.079673225e-12, No Iterations 1 DILUPBiCGStab: Solving for k, Initial residual = 0.2300674946, Final residual = 1.666429968e-08, No Iterations 1 ExecutionTime = 52.22 s ClockTime = 76 s Courant Number mean: 0.000124275936 max: 0.0003372829596 Film max Courant number: 0 deltaT = 0.0004245873065 Time = 0.00107116 Solving 3-D cloud reactingCloud1 Cloud: reactingCloud1 injector: model1 Added 2 new parcels Cloud: reactingCloud1 Current number of parcels = 2 Current mass in system = 0.0005355787921 Linear momentum = (0.0003164004759 -0.0004857027585 -0.001450756416) |Linear momentum| = 0.001562277379 Linear kinetic energy = 0.002402968041 model1: number of parcels added = 2 mass introduced = 0.0005355787921 Parcels absorbed into film = 0 New film detached parcels = 0 New film splash parcels = 0 Parcel fate (number, mass) - escape = 0, 0 - stick = 0, 0 Temperature min/max = 300, 300 Mass transfer phase change = 0 Evolving thermoSingleLayer for region wallFilmRegion diagonal: Solving for deltaf*rhof, Initial residual = 0, Final residual = 0, No Iterations 0 smoothSolver: Solving for Ufx, Initial residual = 0.6771630271, Final residual = 1.342035268e-17, No Iterations 1 smoothSolver: Solving for Ufy, Initial residual = 0.6601497499, Final residual = 1.350425899e-17, No Iterations 1 smoothSolver: Solving for Ufz, Initial residual = 0.5117201214, Final residual = 1.144018566e-17, No Iterations 1 smoothSolver: Solving for hf, Initial residual = 0.0001937301813, Final residual = 1.374591894e-06, No Iterations 100 smoothSolver: Solving for deltaf, Initial residual = 0, Final residual = 0, No Iterations 0 diagonal: Solving for deltaf*rhof, Initial residual = 0, Final residual = 0, No Iterations 0 Surface film: thermoSingleLayer added mass = 0 current mass = 0 min/max(mag(U)) = 3.035133984e-18, 1.35208614e-10 min/max(delta) = 0, 0 coverage = 0 injected mass = 0 - patch: region0_to_wallFilmRegion_cubeFaces: 0 - patch: region0_to_wallFilmRegion_floorFaces: 0 transferred mass = 0 - patch: region0_to_wallFilmRegion_cubeFaces: 0 - patch: region0_to_wallFilmRegion_floorFaces: 0 min/mean/max(T) = 300, 300, 300 mass phase change = 0 vapourisation rate = 0 diagonal: Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0 PIMPLE: iteration 1 DILUPBiCGStab: Solving for Ux, Initial residual = 0.3266887609, Final residual = 1.518173882e-07, No Iterations 1 DILUPBiCGStab: Solving for Uy, Initial residual = 0.3078447775, Final residual = 1.555738102e-07, No Iterations 1 DILUPBiCGStab: Solving for Uz, Initial residual = 0.5532380832, Final residual = 9.727082612e-08, No Iterations 1 DILUPBiCGStab: Solving for O2, Initial residual = 1.767973301e-05, Final residual = 5.078108947e-12, No Iterations 1 DILUPBiCGStab: Solving for H2O, Initial residual = 0, Final residual = 0, No Iterations 0 DILUPBiCGStab: Solving for h, Initial residual = 0.6017018428, Final residual = 9.23124487e-08, No Iterations 1 T gas min/max = 299.9971475, 300.0022663 GAMG: Solving for p_rgh, Initial residual = 0.09972176151, Final residual = 0.006699941019, No Iterations 2 diagonal: Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0 time step continuity errors : sum local = 4.96729416e-07, global = 2.159394746e-09, cumulative = 2.32539088e-09 GAMG: Solving for p_rgh, Initial residual = 0.007370393307, Final residual = 8.602005625e-07, No Iterations 8 diagonal: Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0 time step continuity errors : sum local = 6.403166964e-11, global = 2.665988243e-12, cumulative = 2.328056869e-09 DILUPBiCGStab: Solving for epsilon, Initial residual = 4.76390648e-05, Final residual = 6.100029229e-10, No Iterations 1 DILUPBiCGStab: Solving for k, Initial residual = 0.5467419413, Final residual = 7.385612475e-11, No Iterations 1 ExecutionTime = 62.89 s ClockTime = 99 s Courant Number mean: 0.0002571648565 max: 0.02723408886 Film max Courant number: 0 deltaT = 0.0006069254136 Time = 0.00167808 Solving 3-D cloud reactingCloud1 Cloud: reactingCloud1 Current number of parcels = 2 Current mass in system = 0.0005355787921 Linear momentum = (0.0003154366317 -0.0004844374015 -0.001449733857) |Linear momentum| = 0.001560739607 Linear kinetic energy = 0.00239776779 model1: number of parcels added = 2 mass introduced = 0.0005355787921 Parcels absorbed into film = 0 New film detached parcels = 0 New film splash parcels = 0 Parcel fate (number, mass) - escape = 0, 0 - stick = 0, 0 Temperature min/max = 300, 300 Mass transfer phase change = 0 Evolving thermoSingleLayer for region wallFilmRegion diagonal: Solving for deltaf*rhof, Initial residual = 0, Final residual = 0, No Iterations 0 smoothSolver: Solving for Ufx, Initial residual = 0.5167803697, Final residual = 1.202437035e-17, No Iterations 1 smoothSolver: Solving for Ufy, Initial residual = 0.5058052084, Final residual = 1.54346951e-17, No Iterations 1 smoothSolver: Solving for Ufz, Initial residual = 0.3799194506, Final residual = 8.574946698e-18, No Iterations 1 smoothSolver: Solving for hf, Initial residual = 0.0001912458769, Final residual = 1.483033371e-06, No Iterations 100 smoothSolver: Solving for deltaf, Initial residual = 0, Final residual = 0, No Iterations 0 diagonal: Solving for deltaf*rhof, Initial residual = 0, Final residual = 0, No Iterations 0 Surface film: thermoSingleLayer added mass = 0 current mass = 0 min/max(mag(U)) = 1.781356341e-16, 4.259605346e-10 min/max(delta) = 0, 0 coverage = 0 injected mass = 0 - patch: region0_to_wallFilmRegion_cubeFaces: 0 - patch: region0_to_wallFilmRegion_floorFaces: 0 transferred mass = 0 - patch: region0_to_wallFilmRegion_cubeFaces: 0 - patch: region0_to_wallFilmRegion_floorFaces: 0 min/mean/max(T) = 300, 300, 300 mass phase change = 0 vapourisation rate = 0 diagonal: Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0 PIMPLE: iteration 1 DILUPBiCGStab: Solving for Ux, Initial residual = 0.2866046139, Final residual = 4.196626304e-06, No Iterations 1 DILUPBiCGStab: Solving for Uy, Initial residual = 0.2781591761, Final residual = 5.656293095e-10, No Iterations 1 DILUPBiCGStab: Solving for Uz, Initial residual = 0.3893171839, Final residual = 4.505135113e-07, No Iterations 1 DILUPBiCGStab: Solving for O2, Initial residual = 1.318873363e-05, Final residual = 8.320296031e-12, No Iterations 1 DILUPBiCGStab: Solving for H2O, Initial residual = 0, Final residual = 0, No Iterations 0 DILUPBiCGStab: Solving for h, Initial residual = 0.4723370681, Final residual = 1.373500842e-07, No Iterations 1 T gas min/max = 299.990842, 300.0042705 GAMG: Solving for p_rgh, Initial residual = 0.2786317296, Final residual = 0.01299865219, No Iterations 2 diagonal: Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0 time step continuity errors : sum local = 7.358531006e-07, global = 1.501288462e-08, cumulative = 1.734094149e-08 GAMG: Solving for p_rgh, Initial residual = 0.01780210003, Final residual = 6.923372135e-07, No Iterations 12 diagonal: Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0 time step continuity errors : sum local = 4.359023717e-11, global = 6.151874981e-12, cumulative = 1.734709337e-08 DILUPBiCGStab: Solving for epsilon, Initial residual = 0.0003684006135, Final residual = 5.180936195e-08, No Iterations 1 DILUPBiCGStab: Solving for k, Initial residual = 0.8680268641, Final residual = 5.401165254e-09, No Iterations 1 ExecutionTime = 74.49 s ClockTime = 116 s Courant Number mean: 0.0004494954439 max: 0.05882150995 Film max Courant number: 0 deltaT = 0.0008701054602 Time = 0.00254819 Solving 3-D cloud reactingCloud1 Cloud: reactingCloud1 injector: model1 Added 2 new parcels Cloud: reactingCloud1 Current number of parcels = 4 Current mass in system = 0.001274094229 Linear momentum = (-0.0006356994802 -0.000442263073 -0.0031742132) |Linear momentum| = 0.003267313865 Linear kinetic energy = 0.005695832398 model1: number of parcels added = 4 mass introduced = 0.001274094229 Parcels absorbed into film = 0 New film detached parcels = 0 New film splash parcels = 0 Parcel fate (number, mass) - escape = 0, 0 - stick = 0, 0 Temperature min/max = 300, 300 Mass transfer phase change = 0 Evolving thermoSingleLayer for region wallFilmRegion diagonal: Solving for deltaf*rhof, Initial residual = 0, Final residual = 0, No Iterations 0 smoothSolver: Solving for Ufx, Initial residual = 0.3743465194, Final residual = 8.033617082e-18, No Iterations 1 smoothSolver: Solving for Ufy, Initial residual = 0.3709747016, Final residual = 1.182570289e-17, No Iterations 1 smoothSolver: Solving for Ufz, Initial residual = 0.2663496403, Final residual = 9.526895854e-18, No Iterations 1 smoothSolver: Solving for hf, Initial residual = 0.0001912677875, Final residual = 1.722740304e-06, No Iterations 100 smoothSolver: Solving for deltaf, Initial residual = 0, Final residual = 0, No Iterations 0 diagonal: Solving for deltaf*rhof, Initial residual = 0, Final residual = 0, No Iterations 0 Surface film: thermoSingleLayer added mass = 0 current mass = 0 min/max(mag(U)) = 7.032790538e-16, 9.63641482e-10 min/max(delta) = 0, 0 coverage = 0 injected mass = 0 - patch: region0_to_wallFilmRegion_cubeFaces: 0 - patch: region0_to_wallFilmRegion_floorFaces: 0 transferred mass = 0 - patch: region0_to_wallFilmRegion_cubeFaces: 0 - patch: region0_to_wallFilmRegion_floorFaces: 0 min/mean/max(T) = 300, 300, 300 mass phase change = 0 vapourisation rate = 0 diagonal: Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0 PIMPLE: iteration 1 DILUPBiCGStab: Solving for Ux, Initial residual = 0.2184096655, Final residual = 3.786899622e-08, No Iterations 1 DILUPBiCGStab: Solving for Uy, Initial residual = 0.2457234271, Final residual = 1.000283553e-07, No Iterations 1 DILUPBiCGStab: Solving for Uz, Initial residual = 0.2317827989, Final residual = 3.640388859e-08, No Iterations 1 DILUPBiCGStab: Solving for O2, Initial residual = 1.821380058e-05, Final residual = 2.704289121e-11, No Iterations 1 DILUPBiCGStab: Solving for H2O, Initial residual = 0, Final residual = 0, No Iterations 0 DILUPBiCGStab: Solving for h, Initial residual = 0.3942902936, Final residual = 3.054617149e-07, No Iterations 1 T gas min/max = 299.9862001, 300.0071402 GAMG: Solving for p_rgh, Initial residual = 0.9416154982, Final residual = 0.05055889382, No Iterations 2 diagonal: Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0 time step continuity errors : sum local = 1.575094562e-06, global = 1.217028726e-07, cumulative = 1.39049966e-07 GAMG: Solving for p_rgh, Initial residual = 0.1137086347, Final residual = 9.494671855e-07, No Iterations 18 diagonal: Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0 time step continuity errors : sum local = 2.215854705e-11, global = -3.885717525e-12, cumulative = 1.390460802e-07 DILUPBiCGStab: Solving for epsilon, Initial residual = 0.02170932406, Final residual = 7.124762374e-08, No Iterations 1 DILUPBiCGStab: Solving for k, Initial residual = 0.9156937898, Final residual = 5.814984233e-06, No Iterations 1 ExecutionTime = 87.78 s ClockTime = 132 s Courant Number mean: 0.0005950820354 max: 0.1652498025 Film max Courant number: 0 deltaT = 0.001233567235 Time = 0.00378176 Solving 3-D cloud reactingCloud1 Cloud: reactingCloud1 injector: model1 Added 2 new parcels Cloud: reactingCloud1 Current number of parcels = 6 Current mass in system = 0.001890877846 Linear momentum = (-0.0009194844489 -0.0006004942013 -0.004725088832) |Linear momentum| = 0.004851031788 Linear kinetic energy = 0.008467733285 model1: number of parcels added = 6 mass introduced = 0.001890877846 Parcels absorbed into film = 0 New film detached parcels = 0 New film splash parcels = 0 Parcel fate (number, mass) - escape = 0, 0 - stick = 0, 0 Temperature min/max = 300, 300 Mass transfer phase change = 0 Evolving thermoSingleLayer for region wallFilmRegion diagonal: Solving for deltaf*rhof, Initial residual = 0, Final residual = 0, No Iterations 0 smoothSolver: Solving for Ufx, Initial residual = 0.2016375836, Final residual = 1.056986874e-17, No Iterations 1 smoothSolver: Solving for Ufy, Initial residual = 0.1992194727, Final residual = 1.153646267e-17, No Iterations 1 smoothSolver: Solving for Ufz, Initial residual = 0.1357433112, Final residual = 4.658988095e-18, No Iterations 1 smoothSolver: Solving for hf, Initial residual = 0.0001908415269, Final residual = 1.199849563e-06, No Iterations 100 smoothSolver: Solving for deltaf, Initial residual = 0, Final residual = 0, No Iterations 0 diagonal: Solving for deltaf*rhof, Initial residual = 0, Final residual = 0, No Iterations 0 Surface film: thermoSingleLayer added mass = 0 current mass = 0 min/max(mag(U)) = 1.074222246e-15, 1.455326632e-09 min/max(delta) = 0, 0 coverage = 0 injected mass = 0 - patch: region0_to_wallFilmRegion_cubeFaces: 0 - patch: region0_to_wallFilmRegion_floorFaces: 0 transferred mass = 0 - patch: region0_to_wallFilmRegion_cubeFaces: 0 - patch: region0_to_wallFilmRegion_floorFaces: 0 min/mean/max(T) = 300, 300, 300 mass phase change = 0 vapourisation rate = 0 diagonal: Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0 PIMPLE: iteration 1 DILUPBiCGStab: Solving for Ux, Initial residual = 0.2207326822, Final residual = 3.229329252e-06, No Iterations 3 DILUPBiCGStab: Solving for Uy, Initial residual = 0.3304007722, Final residual = 1.17503265e-06, No Iterations 3 DILUPBiCGStab: Solving for Uz, Initial residual = 0.1652203261, Final residual = 8.078769707e-06, No Iterations 2 DILUPBiCGStab: Solving for O2, Initial residual = 1.338029602e-05, Final residual = 1.13110927e-09, No Iterations 1 DILUPBiCGStab: Solving for H2O, Initial residual = 0, Final residual = 0, No Iterations 0 DILUPBiCGStab: Solving for h, Initial residual = 0.2975589734, Final residual = 5.244055867e-06, No Iterations 1 T gas min/max = 299.9852851, 300.0109699 GAMG: Solving for p_rgh, Initial residual = 0.7017982406, Final residual = 0.05358238757, No Iterations 2 diagonal: Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0 time step continuity errors : sum local = 2.468345257e-06, global = 1.989094897e-07, cumulative = 3.3795557e-07 GAMG: Solving for p_rgh, Initial residual = 0.03626031201, Final residual = 5.680620663e-07, No Iterations 21 diagonal: Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0 time step continuity errors : sum local = 9.126720868e-11, global = -3.147579283e-11, cumulative = 3.379240942e-07 DILUPBiCGStab: Solving for epsilon, Initial residual = 0.177289353, Final residual = 2.630929777e-06, No Iterations 3 DILUPBiCGStab: Solving for k, Initial residual = 0.6676722838, Final residual = 4.067290019e-06, No Iterations 3 ExecutionTime = 102.33 s ClockTime = 149 s Courant Number mean: 0.0003630463357 max: 0.1020527478 Film max Courant number: 0 deltaT = 0.001718182934 Time = 0.00549994 Solving 3-D cloud reactingCloud1 Cloud: reactingCloud1 injector: model1 Added 4 new parcels Cloud: reactingCloud1 Current number of parcels = 10 Current mass in system = 0.002749969313 Linear momentum = (0.0001238453605 -0.0005202793152 -0.006827845738) |Linear momentum| = 0.006848759425 Linear kinetic energy = 0.01226637279 model1: number of parcels added = 10 mass introduced = 0.002749969313 Parcels absorbed into film = 0 New film detached parcels = 0 New film splash parcels = 0 Parcel fate (number, mass) - escape = 0, 0 - stick = 0, 0 Temperature min/max = 300, 300 Mass transfer phase change = 0 Evolving thermoSingleLayer for region wallFilmRegion diagonal: Solving for deltaf*rhof, Initial residual = 0, Final residual = 0, No Iterations 0 smoothSolver: Solving for Ufx, Initial residual = 0.02960168823, Final residual = 8.929440322e-18, No Iterations 1 smoothSolver: Solving for Ufy, Initial residual = 0.03001242313, Final residual = 8.596503971e-18, No Iterations 1 smoothSolver: Solving for Ufz, Initial residual = 0.01876854453, Final residual = 3.789202812e-18, No Iterations 1 smoothSolver: Solving for hf, Initial residual = 0.0001931329698, Final residual = 1.398247745e-06, No Iterations 100 smoothSolver: Solving for deltaf, Initial residual = 0, Final residual = 0, No Iterations 0 diagonal: Solving for deltaf*rhof, Initial residual = 0, Final residual = 0, No Iterations 0 Surface film: thermoSingleLayer added mass = 0 current mass = 0 min/max(mag(U)) = 1.025362006e-15, 1.538927607e-09 min/max(delta) = 0, 0 coverage = 0 injected mass = 0 - patch: region0_to_wallFilmRegion_cubeFaces: 0 - patch: region0_to_wallFilmRegion_floorFaces: 0 transferred mass = 0 - patch: region0_to_wallFilmRegion_cubeFaces: 0 - patch: region0_to_wallFilmRegion_floorFaces: 0 min/mean/max(T) = 300, 300, 300 mass phase change = 0 vapourisation rate = 0 diagonal: Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0 PIMPLE: iteration 1 DILUPBiCGStab: Solving for Ux, Initial residual = 0.7063234912, Final residual = 1.898172439e-06, No Iterations 4 DILUPBiCGStab: Solving for Uy, Initial residual = 0.5523807914, Final residual = 7.650142041e-06, No Iterations 3 DILUPBiCGStab: Solving for Uz, Initial residual = 0.8075216818, Final residual = 2.755654e-06, No Iterations 3 DILUPBiCGStab: Solving for O2, Initial residual = 1.797637276e-05, Final residual = 3.547962454e-09, No Iterations 1 DILUPBiCGStab: Solving for H2O, Initial residual = 0, Final residual = 0, No Iterations 0 DILUPBiCGStab: Solving for h, Initial residual = 0.1568392338, Final residual = 3.162840351e-06, No Iterations 2 T gas min/max = 299.9852535, 300.0142316 GAMG: Solving for p_rgh, Initial residual = 0.1092976544, Final residual = 0.005376141373, No Iterations 3 diagonal: Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0 time step continuity errors : sum local = 5.034328402e-07, global = 8.325786448e-09, cumulative = 3.462498806e-07 GAMG: Solving for p_rgh, Initial residual = 0.01133531387, Final residual = 9.749352355e-07, No Iterations 21 diagonal: Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0 time step continuity errors : sum local = 6.727358483e-11, global = -6.722949517e-11, cumulative = 3.461826511e-07 DILUPBiCGStab: Solving for epsilon, Initial residual = 0.2053350499, Final residual = 7.638619578e-06, No Iterations 3 DILUPBiCGStab: Solving for k, Initial residual = 0.4374804583, Final residual = 6.558653358e-06, No Iterations 4 ExecutionTime = 117.38 s ClockTime = 165 s Courant Number mean: 0.0004003326454 max: 0.1209326295 Film max Courant number: 0 deltaT = 0.001968751279 Time = 0.00746869 Solving 3-D cloud reactingCloud1 Cloud: reactingCloud1 injector: model1 Added 4 new parcels Cloud: reactingCloud1 Current number of parcels = 14 Current mass in system = 0.003734344953 Linear momentum = (0.0004782709281 -0.001496928448 -0.009409415578) |Linear momentum| = 0.009539740006 Linear kinetic energy = 0.01659357267 model1: number of parcels added = 14 mass introduced = 0.003734344953 Parcels absorbed into film = 0 New film detached parcels = 0 New film splash parcels = 0 Parcel fate (number, mass) - escape = 0, 0 - stick = 0, 0 Temperature min/max = 300, 300 Mass transfer phase change = 0 Evolving thermoSingleLayer for region wallFilmRegion diagonal: Solving for deltaf*rhof, Initial residual = 0, Final residual = 0, No Iterations 0 smoothSolver: Solving for Ufx, Initial residual = 0.01628035342, Final residual = 8.508540245e-18, No Iterations 1 smoothSolver: Solving for Ufy, Initial residual = 0.01534590802, Final residual = 8.322771625e-18, No Iterations 1 smoothSolver: Solving for Ufz, Initial residual = 0.01031921346, Final residual = 3.822908842e-18, No Iterations 1 smoothSolver: Solving for hf, Initial residual = 0.0001944748044, Final residual = 9.180557252e-07, No Iterations 100 smoothSolver: Solving for deltaf, Initial residual = 0, Final residual = 0, No Iterations 0 diagonal: Solving for deltaf*rhof, Initial residual = 0, Final residual = 0, No Iterations 0 Surface film: thermoSingleLayer added mass = 0 current mass = 0 min/max(mag(U)) = 9.475311507e-16, 1.492811515e-09 min/max(delta) = 0, 0 coverage = 0 injected mass = 0 - patch: region0_to_wallFilmRegion_cubeFaces: 0 - patch: region0_to_wallFilmRegion_floorFaces: 0 transferred mass = 0 - patch: region0_to_wallFilmRegion_cubeFaces: 0 - patch: region0_to_wallFilmRegion_floorFaces: 0 min/mean/max(T) = 300, 300, 300 mass phase change = 0 vapourisation rate = 0 diagonal: Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0 PIMPLE: iteration 1 DILUPBiCGStab: Solving for Ux, Initial residual = 0.4323204804, Final residual = 8.345363091e-06, No Iterations 3 DILUPBiCGStab: Solving for Uy, Initial residual = 0.459363298, Final residual = 7.435280613e-06, No Iterations 4 DILUPBiCGStab: Solving for Uz, Initial residual = 0.8116034889, Final residual = 5.128385326e-06, No Iterations 4 DILUPBiCGStab: Solving for O2, Initial residual = 1.56341456e-05, Final residual = 4.379710537e-09, No Iterations 1 DILUPBiCGStab: Solving for H2O, Initial residual = 0, Final residual = 0, No Iterations 0 DILUPBiCGStab: Solving for h, Initial residual = 0.0160919992, Final residual = 1.062637011e-06, No Iterations 2 T gas min/max = 299.9855401, 300.013905 GAMG: Solving for p_rgh, Initial residual = 0.7139985876, Final residual = 0.03419010994, No Iterations 3 diagonal: Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0 time step continuity errors : sum local = 2.149008028e-06, global = 7.799035168e-08, cumulative = 4.241730028e-07 GAMG: Solving for p_rgh, Initial residual = 0.1094455548, Final residual = 8.511017492e-07, No Iterations 34 diagonal: Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0 time step continuity errors : sum local = 3.517846981e-11, global = 1.32790135e-11, cumulative = 4.241862818e-07 DILUPBiCGStab: Solving for epsilon, Initial residual = 0.1876173135, Final residual = 2.799151792e-06, No Iterations 4 DILUPBiCGStab: Solving for k, Initial residual = 0.2415347191, Final residual = 8.007128523e-06, No Iterations 4 ExecutionTime = 136.01 s ClockTime = 184 s Courant Number mean: 0.0006771370084 max: 0.1771335188 Film max Courant number: 0 deltaT = 0.001968751279 Time = 0.00943744 Solving 3-D cloud reactingCloud1 Cloud: reactingCloud1 injector: model1 Added 4 new parcels Cloud: reactingCloud1 Current number of parcels = 18 Current mass in system = 0.004718720592 Linear momentum = (0.0007108337238 -0.001856449729 -0.01197241308) |Linear momentum| = 0.0121363242 Linear kinetic energy = 0.02092610733 model1: number of parcels added = 18 mass introduced = 0.004718720592 Parcels absorbed into film = 0 New film detached parcels = 0 New film splash parcels = 0 Parcel fate (number, mass) - escape = 0, 0 - stick = 0, 0 Temperature min/max = 300, 300 Mass transfer phase change = 0 Evolving thermoSingleLayer for region wallFilmRegion diagonal: Solving for deltaf*rhof, Initial residual = 0, Final residual = 0, No Iterations 0 smoothSolver: Solving for Ufx, Initial residual = 0.03574893192, Final residual = 9.730905859e-18, No Iterations 1 smoothSolver: Solving for Ufy, Initial residual = 0.03420715854, Final residual = 8.377491508e-18, No Iterations 1 smoothSolver: Solving for Ufz, Initial residual = 0.02262464733, Final residual = 4.808408907e-18, No Iterations 1 smoothSolver: Solving for hf, Initial residual = 0.0001955047204, Final residual = 1.267382786e-06, No Iterations 100 smoothSolver: Solving for deltaf, Initial residual = 0, Final residual = 0, No Iterations 0 diagonal: Solving for deltaf*rhof, Initial residual = 0, Final residual = 0, No Iterations 0 Surface film: thermoSingleLayer added mass = 0 current mass = 0 min/max(mag(U)) = 8.892371221e-16, 1.398943581e-09 min/max(delta) = 0, 0 coverage = 0 injected mass = 0 - patch: region0_to_wallFilmRegion_cubeFaces: 0 - patch: region0_to_wallFilmRegion_floorFaces: 0 transferred mass = 0 - patch: region0_to_wallFilmRegion_cubeFaces: 0 - patch: region0_to_wallFilmRegion_floorFaces: 0 min/mean/max(T) = 300, 300, 300 mass phase change = 0 vapourisation rate = 0 diagonal: Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0 PIMPLE: iteration 1 DILUPBiCGStab: Solving for Ux, Initial residual = 0.214837119, Final residual = 3.117352949e-06, No Iterations 4 DILUPBiCGStab: Solving for Uy, Initial residual = 0.2689653003, Final residual = 5.650176939e-06, No Iterations 4 DILUPBiCGStab: Solving for Uz, Initial residual = 0.3118950253, Final residual = 2.734786004e-06, No Iterations 4 DILUPBiCGStab: Solving for O2, Initial residual = 1.570758351e-05, Final residual = 2.784293583e-08, No Iterations 1 DILUPBiCGStab: Solving for H2O, Initial residual = 0, Final residual = 0, No Iterations 0 DILUPBiCGStab: Solving for h, Initial residual = 0.1014844272, Final residual = 1.023929514e-06, No Iterations 2 T gas min/max = 299.9879522, 300.0116033 GAMG: Solving for p_rgh, Initial residual = 0.8792101132, Final residual = 0.03838567975, No Iterations 3 diagonal: Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0 time step continuity errors : sum local = 1.277461879e-06, global = 4.846273154e-08, cumulative = 4.726490134e-07 GAMG: Solving for p_rgh, Initial residual = 0.05256280098, Final residual = 8.679862221e-07, No Iterations 31 diagonal: Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0 time step continuity errors : sum local = 1.03596089e-10, global = 3.791173844e-11, cumulative = 4.726869251e-07 DILUPBiCGStab: Solving for epsilon, Initial residual = 0.08273113257, Final residual = 1.245751872e-06, No Iterations 4 DILUPBiCGStab: Solving for k, Initial residual = 0.1867730679, Final residual = 9.531053723e-06, No Iterations 4 ExecutionTime = 154.17 s ClockTime = 203 s Courant Number mean: 0.0003127922614 max: 0.1535993523 Film max Courant number: 0 deltaT = 0.001968751279 Time = 0.0114062 Solving 3-D cloud reactingCloud1 Cloud: reactingCloud1 injector: model1 Added 4 new parcels Cloud: reactingCloud1 Current number of parcels = 22 Current mass in system = 0.005703096231 Linear momentum = (0.0007795546931 -0.001307647942 -0.0147449412) |Linear momentum| = 0.01482332418 Linear kinetic energy = 0.02524631132 model1: number of parcels added = 22 mass introduced = 0.005703096231 Parcels absorbed into film = 0 New film detached parcels = 0 New film splash parcels = 0 Parcel fate (number, mass) - escape = 0, 0 - stick = 0, 0 Temperature min/max = 300, 300 Mass transfer phase change = 0 Evolving thermoSingleLayer for region wallFilmRegion diagonal: Solving for deltaf*rhof, Initial residual = 0, Final residual = 0, No Iterations 0 smoothSolver: Solving for Ufx, Initial residual = 0.004764941147, Final residual = 1.00052226e-17, No Iterations 1 smoothSolver: Solving for Ufy, Initial residual = 0.00464327307, Final residual = 8.987383096e-18, No Iterations 1 smoothSolver: Solving for Ufz, Initial residual = 0.002945199598, Final residual = 4.91186358e-18, No Iterations 1 smoothSolver: Solving for hf, Initial residual = 0.0001981299824, Final residual = 8.313758097e-07, No Iterations 100 smoothSolver: Solving for deltaf, Initial residual = 0, Final residual = 0, No Iterations 0 diagonal: Solving for deltaf*rhof, Initial residual = 0, Final residual = 0, No Iterations 0 Surface film: thermoSingleLayer added mass = 0 current mass = 0 min/max(mag(U)) = 8.846262043e-16, 1.387673319e-09 min/max(delta) = 0, 0 coverage = 0 injected mass = 0 - patch: region0_to_wallFilmRegion_cubeFaces: 0 - patch: region0_to_wallFilmRegion_floorFaces: 0 transferred mass = 0 - patch: region0_to_wallFilmRegion_cubeFaces: 0 - patch: region0_to_wallFilmRegion_floorFaces: 0 min/mean/max(T) = 300, 300, 300 mass phase change = 0 vapourisation rate = 0 diagonal: Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0 PIMPLE: iteration 1 DILUPBiCGStab: Solving for Ux, Initial residual = 0.4393719856, Final residual = 2.934842393e-06, No Iterations 7 DILUPBiCGStab: Solving for Uy, Initial residual = 0.4033347183, Final residual = 1.410795316e-06, No Iterations 7 DILUPBiCGStab: Solving for Uz, Initial residual = 0.738394929, Final residual = 9.291964057e-06, No Iterations 6 DILUPBiCGStab: Solving for O2, Initial residual = 1.577808676e-05, Final residual = 1.785714971e-07, No Iterations 1 DILUPBiCGStab: Solving for H2O, Initial residual = 0, Final residual = 0, No Iterations 0 DILUPBiCGStab: Solving for h, Initial residual = 0.07500484785, Final residual = 4.970899758e-06, No Iterations 2 T gas min/max = 299.9859934, 300.0101506 GAMG: Solving for p_rgh, Initial residual = 0.2066373205, Final residual = 0.01352917403, No Iterations 2 diagonal: Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0 time step continuity errors : sum local = 5.784229325e-07, global = -6.887242966e-09, cumulative = 4.657996821e-07 GAMG: Solving for p_rgh, Initial residual = 0.04555389435, Final residual = 8.295865495e-07, No Iterations 27 diagonal: Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0 time step continuity errors : sum local = 3.812567447e-11, global = 3.809574032e-11, cumulative = 4.658377779e-07 DILUPBiCGStab: Solving for epsilon, Initial residual = 0.06368126834, Final residual = 6.772523588e-06, No Iterations 3 DILUPBiCGStab: Solving for k, Initial residual = 0.2736861211, Final residual = 4.598812498e-06, No Iterations 7 ExecutionTime = 172.71 s ClockTime = 226 s Courant Number mean: 0.0002683984753 max: 0.186715495 Film max Courant number: 0 deltaT = 0.001968751279 Time = 0.0133749 Solving 3-D cloud reactingCloud1 Cloud: reactingCloud1 injector: model1 Added 4 new parcels Cloud: reactingCloud1 Current number of parcels = 26 Current mass in system = 0.006687471871 Linear momentum = (0.001441432611 -0.0007975278285 -0.01746003534) |Linear momentum| = 0.01753757716 Linear kinetic energy = 0.02958050067 model1: number of parcels added = 26 mass introduced = 0.006687471871 Parcels absorbed into film = 0 New film detached parcels = 0 New film splash parcels = 0 Parcel fate (number, mass) - escape = 0, 0 - stick = 0, 0 Temperature min/max = 300, 300 Mass transfer phase change = 0 Evolving thermoSingleLayer for region wallFilmRegion diagonal: Solving for deltaf*rhof, Initial residual = 0, Final residual = 0, No Iterations 0 smoothSolver: Solving for Ufx, Initial residual = 0.001858599765, Final residual = 9.895607892e-18, No Iterations 1 smoothSolver: Solving for Ufy, Initial residual = 0.001847191566, Final residual = 8.499616814e-18, No Iterations 1 smoothSolver: Solving for Ufz, Initial residual = 0.001260126205, Final residual = 5.115656128e-18, No Iterations 1 smoothSolver: Solving for hf, Initial residual = 0.0001960784919, Final residual = 1.07254366e-06, No Iterations 100 smoothSolver: Solving for deltaf, Initial residual = 0, Final residual = 0, No Iterations 0 diagonal: Solving for deltaf*rhof, Initial residual = 0, Final residual = 0, No Iterations 0 Surface film: thermoSingleLayer added mass = 0 current mass = 0 min/max(mag(U)) = 8.817350071e-16, 1.392951418e-09 min/max(delta) = 0, 0 coverage = 0 injected mass = 0 - patch: region0_to_wallFilmRegion_cubeFaces: 0 - patch: region0_to_wallFilmRegion_floorFaces: 0 transferred mass = 0 - patch: region0_to_wallFilmRegion_cubeFaces: 0 - patch: region0_to_wallFilmRegion_floorFaces: 0 min/mean/max(T) = 300, 300, 300 mass phase change = 0 vapourisation rate = 0 diagonal: Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0 PIMPLE: iteration 1 DILUPBiCGStab: Solving for Ux, Initial residual = 0.4319352657, Final residual = 3.503566308e-06, No Iterations 8 DILUPBiCGStab: Solving for Uy, Initial residual = 0.4169593406, Final residual = 3.72562284e-06, No Iterations 8 DILUPBiCGStab: Solving for Uz, Initial residual = 0.6601804208, Final residual = 7.663666336e-07, No Iterations 8 DILUPBiCGStab: Solving for O2, Initial residual = 1.582359533e-05, Final residual = 2.484976279e-07, No Iterations 1 DILUPBiCGStab: Solving for H2O, Initial residual = 0, Final residual = 0, No Iterations 0 DILUPBiCGStab: Solving for h, Initial residual = 0.005734836191, Final residual = 7.856249973e-06, No Iterations 2 T gas min/max = 299.9858623, 300.0102451 GAMG: Solving for p_rgh, Initial residual = 0.6884617283, Final residual = 0.06257313158, No Iterations 2 diagonal: Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0 time step continuity errors : sum local = 2.208157059e-06, global = 1.233555493e-08, cumulative = 4.781733328e-07