/*--------------------------------*- C++ -*----------------------------------*\ ========= | \\ / F ield | OpenFOAM: The Open Source CFD Toolbox \\ / O peration | Website: https://openfoam.org \\ / A nd | Version: dev \\/ M anipulation | \*---------------------------------------------------------------------------*/ FoamFile { format ascii; class dictionary; location "constant"; object phaseProperties; } // * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * // type populationBalanceMultiphaseSystem; phases (particles vapour); populationBalances (aggregates); particles { type multicomponentPhaseModel; diameterModel velocityGroup; velocityGroupCoeffs { populationBalance aggregates; shapeModel fractal; fractalCoeffs { sinteringModel KochFriedlander; KochFriedlanderCoeffs { Cs 8.3e24; n 4.0; m 1.0; Ta 3700.0; } } sizeGroups ( f01{dSph 4.000E-10; value 1.0; kappa 1.5E+10; Df 1.8; alphaC 1;} f02{dSph 5.769E-10; value 0.0; kappa 1.5E+10; Df 1.8; alphaC 1;} f03{dSph 8.320E-10; value 0.0; kappa 1.5E+10; Df 1.8; alphaC 1;} f04{dSph 1.200E-09; value 0.0; kappa 1.5E+10; Df 1.8; alphaC 1;} f05{dSph 1.731E-09; value 0.0; kappa 1.5E+10; Df 1.8; alphaC 1;} f06{dSph 2.496E-09; value 0.0; kappa 1.5E+10; Df 1.8; alphaC 1;} f07{dSph 3.600E-09; value 0.0; kappa 1.5E+10; Df 1.8; alphaC 1;} f08{dSph 5.192E-09; value 0.0; kappa 1.5E+10; Df 1.8; alphaC 1;} f09{dSph 7.488E-09; value 0.0; kappa 1.5E+10; Df 1.8; alphaC 1;} f10{dSph 1.080E-08; value 0.0; kappa 1.5E+10; Df 1.8; alphaC 1;} f11{dSph 1.558E-08; value 0.0; kappa 1.5E+10; Df 1.8; alphaC 1;} f12{dSph 2.246E-08; value 0.0; kappa 1.5E+10; Df 1.8; alphaC 1;} f13{dSph 3.240E-08; value 0.0; kappa 1.5E+10; Df 1.8; alphaC 1;} f14{dSph 4.673E-08; value 0.0; kappa 1.5E+10; Df 1.8; alphaC 1;} f15{dSph 6.739E-08; value 0.0; kappa 1.5E+10; Df 1.8; alphaC 1;} f16{dSph 9.720E-08; value 0.0; kappa 1.5E+10; Df 1.8; alphaC 1;} f17{dSph 1.402E-07; value 0.0; kappa 1.5E+10; Df 1.8; alphaC 1;} f18{dSph 2.022E-07; value 0.0; kappa 1.5E+10; Df 1.8; alphaC 1;} f19{dSph 2.916E-07; value 0.0; kappa 1.5E+10; Df 1.8; alphaC 1;} f20{dSph 4.206E-07; value 0.0; kappa 1.5E+10; Df 1.8; alphaC 1;} f21{dSph 6.066E-07; value 0.0; kappa 1.5E+10; Df 1.8; alphaC 1;} f22{dSph 8.748E-07; value 0.0; kappa 1.5E+10; Df 1.8; alphaC 1;} f23{dSph 1.262E-06; value 0.0; kappa 1.5E+10; Df 1.8; alphaC 1;} f24{dSph 1.820E-06; value 0.0; kappa 1.5E+10; Df 1.8; alphaC 1;} f25{dSph 2.624E-06; value 0.0; kappa 1.5E+10; Df 1.8; alphaC 1;} f26{dSph 3.785E-06; value 0.0; kappa 1.5E+10; Df 1.8; alphaC 1;} f27{dSph 5.459E-06; value 0.0; kappa 1.5E+10; Df 1.8; alphaC 1;} f28{dSph 7.873E-06; value 0.0; kappa 1.5E+10; Df 1.8; alphaC 1;} f29{dSph 1.136E-05; value 0.0; kappa 1.5E+10; Df 1.8; alphaC 1;} ); } residualAlpha 1e-15; } vapour { type reactingPhaseModel; diameterModel none; residualAlpha 1e-5; } populationBalanceCoeffs { aggregates { continuousPhase vapour; coalescenceModels ( DahnekeInterpolation { sigma 340e-12; } ); binaryBreakupModels (); breakupModels (); driftModels (); nucleationModels ( reactionDriven { nucleationDiameter 4E-10; velocityGroup particles; reactingPhase vapour; dmdtf phaseTransfer:dmidtf; specie TiO2; } ); } } blending { default { type continuous; phase vapour; } } interfaceCompression {} surfaceTension {} drag { particles_dispersedIn_vapour { type timeScaleFiltered; minRelaxTime 1e-4; dragModel { type aerosolDrag; sigma 340e-12; } } } virtualMass {} heatTransfer { particles_dispersedIn_vapour { type timeScaleFiltered; minRelaxTime 1e-4; heatTransferModel { type constantNu; Nu 1; } } } phaseTransfer { particles_dispersedIn_vapour { type reactionDriven; reactingPhase vapour; targetPhase particles; species (TiO2); } } lift {} wallLubrication {} turbulentDispersion {} interfaceCompression {} // ************************************************************************* //