/*--------------------------------*- C++ -*----------------------------------*\ | ========= | | | \\ / F ield | OpenFOAM: The Open Source CFD Toolbox | | \\ / O peration | Version: 2.3.x | | \\ / A nd | Web: www.OpenFOAM.org | | \\/ M anipulation | | \*---------------------------------------------------------------------------*/ FoamFile { version 2.0; format ascii; class dictionary; location "constant"; object particleProperties; } // * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * // solution { active true; coupled true; transient yes; cellValueSourceCorrection on; interpolationSchemes { rho.air cell; U.air cellPoint; mu.air cell; } averagingMethod basic; integrationSchemes { U Euler; } sourceTerms { schemes { U semiImplicit 1; } } } constantProperties { rho0 1000; alphaMax 0.9; } subModels { particleForces { WenYuDrag { alphac alpha.air; } } injectionModels { /* % matlab/octave calculation of flow rate alpha=0.1 U=20 A=0.01^2 Q=U*A d=650e-6 v=(4/3)*pi*(d/2)^3 n=1 rate=alpha*Q/(v*n) */ model1 { type patchInjection; parcelBasisType fixed; patchName lowerInlet; U0 (18.7939 6.8404 0); nParticle 1; parcelsPerSecond 1390885; sizeDistribution { type normal; normalDistribution { expectation 650e-6; variance 25e-6; minValue 500e-6; maxValue 800e-6; } } flowRateProfile constant 1; massTotal 0; SOI 0; duration 60; } model2 { type patchInjection; parcelBasisType fixed; patchName upperInlet; U0 (18.7939 -6.8404 0); nParticle 1; parcelsPerSecond 1390885; sizeDistribution { type normal; normalDistribution { expectation 650e-6; variance 25e-6; minValue 500e-6; maxValue 800e-6; } } flowRateProfile constant 1; massTotal 0; SOI 0; duration 60; } } dispersionModel none; patchInteractionModel localInteraction; localInteractionCoeffs { patches ( frontAndBack { type rebound; e 1; mu 0; } walls { type rebound; e 1; mu 0; } ); } heatTransferModel none; surfaceFilmModel none; packingModel none; dampingModel relaxation; relaxationCoeffs { timeScaleModel { type nonEquilibrium; alphaPacked 0.58; e 0.9; } } isotropyModel stochastic; stochasticCoeffs { timeScaleModel { type isotropic; alphaPacked 0.58; e 0.9; } } stochasticCollisionModel none; radiation off; } cloudFunctions {} // ************************************************************************* //