/*--------------------------------*- 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 "system"; object controlDict; } // * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * // application foamRun; solver multiphaseEuler; startFrom startTime; startTime 0; stopAt endTime; endTime 0.5; deltaT 0.0001; writeControl adjustableRunTime; writeInterval 0.5; purgeWrite 0; writeFormat ascii; writePrecision 9; writeCompression off; timeFormat general; timePrecision 6; runTimeModifiable yes; adjustTimeStep yes; maxCo 0.5; maxDeltaT 0.001; functions { writeWallBoilingProperties { type wallBoilingProperties; functionObjectLibs ( "libmultiphaseEulerFoamFunctionObjects.so" ); writeControl writeTime; phase liquid; } volumeDensity.diameter.bubbles { type populationBalanceSizeDistribution; functionObjectLibs ( "libmultiphaseEulerFoamFunctionObjects.so" ); writeControl runTime; writeInterval 0.5; setFormat raw; log yes; functionType volumeConcentration; coordinateType diameter; regionType cellZone; name x349; populationBalance bubbles; } volumeDensity_bulk.diameter.bubbles { type populationBalanceSizeDistribution; functionObjectLibs ( "libmultiphaseEulerFoamFunctionObjects.so" ); writeControl runTime; writeInterval 0.5; setFormat raw; log yes; functionType volumeConcentration; coordinateType diameter; regionType cellZone; name x349_bulk; populationBalance bubbles; } volumeDensity_wall.diameter.bubbles { type populationBalanceSizeDistribution; functionObjectLibs ( "libmultiphaseEulerFoamFunctionObjects.so" ); writeControl runTime; writeInterval 0.5; setFormat raw; log yes; functionType volumeConcentration; coordinateType diameter; regionType cellZone; name x349_wall; populationBalance bubbles; } outflow { type surfaceFieldValue; functionObjectLibs ( "libfieldFunctionObjects.so" ); log yes; writeFields false; regionType patch; name outlet; operation sum; fields ( alphaRhoPhi.gas alphaRhoPhi.gas2 alphaRhoPhi.liquid ); } inflow { type surfaceFieldValue; functionObjectLibs ( "libfieldFunctionObjects.so" ); log yes; writeFields false; regionType patch; name inlet; operation sum; fields ( alphaRhoPhi.gas alphaRhoPhi.gas2 alphaRhoPhi.liquid ); } outletGas { type surfaceFieldValue; functionObjectLibs ( "libfieldFunctionObjects.so" ); log yes; writeFields false; regionType patch; name outlet; operation sum; weightField alphaRhoPhi.gas; fields ( h.gas ); } outletGas2 { type surfaceFieldValue; functionObjectLibs ( "libfieldFunctionObjects.so" ); log yes; writeFields false; regionType patch; name outlet; operation sum; weightField alphaRhoPhi.gas2; fields ( h.gas2 ); } outletLiquid { type surfaceFieldValue; functionObjectLibs ( "libfieldFunctionObjects.so" ); log yes; writeFields false; regionType patch; name outlet; operation sum; weightField alphaRhoPhi.liquid; fields ( h.liquid ); } inletGas { type surfaceFieldValue; functionObjectLibs ( "libfieldFunctionObjects.so" ); log yes; writeFields false; regionType patch; name inlet; operation sum; weightField alphaRhoPhi.gas; fields ( h.gas ); } inletGas2 { type surfaceFieldValue; functionObjectLibs ( "libfieldFunctionObjects.so" ); log yes; writeFields false; regionType patch; name inlet; operation sum; weightField alphaRhoPhi.gas2; fields ( h.gas2 ); } inletLiquid { type surfaceFieldValue; functionObjectLibs ( "libfieldFunctionObjects.so" ); log yes; writeFields false; regionType patch; name inlet; operation sum; weightField alphaRhoPhi.liquid; fields ( h.liquid ); } #includeFunc writeObjects(d.gas, d.gas2) } // ************************************************************************* //