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0b8c17d8c114c97f955eb09b0b358233b0500ed0
OpenFOAM-12/tutorials/multiphaseEuler/wallBoilingPolydisperseTwoGroups/system/controlDict
Henry Weller 0b8c17d8c1 functionObject,fvModel,fvConstraint: Added automatic library loading 
If the libs entry is not provided and the name of the library containing the
functionObject, fvModel or fvConstraint corresponds to the type specified the
corresponding library is automatically loaded, e.g. to apply the
VoFTurbulenceDamping fvModel to an incompressibleVoF simulation the following
will load the libVoFTurbulenceDamping.so library automatically and instantiate
the fvModel:

turbulenceDamping
{
    type            VoFTurbulenceDamping;

    delta           1e-4;
}
2023-06-01 20:31:16 +01:00

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/*--------------------------------*- 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 4;
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;
libs ( "libmultiphaseEulerFoamFunctionObjects.so" );
writeControl writeTime;
phase liquid;
}
volumeDensity.diameter.bubbles
{
type populationBalanceSizeDistribution;
libs ( "libmultiphaseEulerFoamFunctionObjects.so" );
writeControl runTime;
writeInterval 0.5;
setFormat raw;
log yes;
functionType volumeConcentration;
coordinateType diameter;
select cellZone;
cellZone x349;
populationBalance bubbles;
}
volumeDensity_bulk.diameter.bubbles
{
type populationBalanceSizeDistribution;
libs ( "libmultiphaseEulerFoamFunctionObjects.so" );
writeControl runTime;
writeInterval 0.5;
setFormat raw;
log yes;
functionType volumeConcentration;
coordinateType diameter;
select cellZone;
cellZone x349_bulk;
populationBalance bubbles;
}
volumeDensity_wall.diameter.bubbles
{
type populationBalanceSizeDistribution;
libs ( "libmultiphaseEulerFoamFunctionObjects.so" );
writeControl runTime;
writeInterval 0.5;
setFormat raw;
log yes;
functionType volumeConcentration;
coordinateType diameter;
select cellZone;
cellZone x349_wall;
populationBalance bubbles;
}
outflow
{
type surfaceFieldValue;
libs ( "libfieldFunctionObjects.so" );
log yes;
writeFields false;
select patch;
patch outlet;
operation sum;
fields ( alphaRhoPhi.gas alphaRhoPhi.gas2 alphaRhoPhi.liquid );
}
inflow
{
type surfaceFieldValue;
libs ( "libfieldFunctionObjects.so" );
log yes;
writeFields false;
select patch;
patch inlet;
operation sum;
fields ( alphaRhoPhi.gas alphaRhoPhi.gas2 alphaRhoPhi.liquid );
}
outletGas
{
type surfaceFieldValue;
libs ( "libfieldFunctionObjects.so" );
log yes;
writeFields false;
select patch;
patch outlet;
operation sum;
weightField alphaRhoPhi.gas;
fields ( h.gas );
}
outletGas2
{
type surfaceFieldValue;
libs ( "libfieldFunctionObjects.so" );
log yes;
writeFields false;
select patch;
patch outlet;
operation sum;
weightField alphaRhoPhi.gas2;
fields ( h.gas2 );
}
outletLiquid
{
type surfaceFieldValue;
libs ( "libfieldFunctionObjects.so" );
log yes;
writeFields false;
select patch;
patch outlet;
operation sum;
weightField alphaRhoPhi.liquid;
fields ( h.liquid );
}
inletGas
{
type surfaceFieldValue;
libs ( "libfieldFunctionObjects.so" );
log yes;
writeFields false;
select patch;
patch inlet;
operation sum;
weightField alphaRhoPhi.gas;
fields ( h.gas );
}
inletGas2
{
type surfaceFieldValue;
libs ( "libfieldFunctionObjects.so" );
log yes;
writeFields false;
select patch;
patch inlet;
operation sum;
weightField alphaRhoPhi.gas2;
fields ( h.gas2 );
}
inletLiquid
{
type surfaceFieldValue;
libs ( "libfieldFunctionObjects.so" );
log yes;
writeFields false;
select patch;
patch inlet;
operation sum;
weightField alphaRhoPhi.liquid;
fields ( h.liquid );
}
#includeFunc writeObjects(d.gas, d.gas2)
}
// ************************************************************************* //
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