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foam-extend4.1-coherent-io/applications/solvers/compressible/rhoPorousSimpleFoam/createFields.H

85 lines
1.7 KiB
C

Info<< "Reading thermophysical properties\n" << endl;
autoPtr<basicThermo> thermo
(
basicThermo::New(mesh)
);
volScalarField rho
(
IOobject
(
"rho",
runTime.timeName(),
mesh,
IOobject::READ_IF_PRESENT,
IOobject::AUTO_WRITE
),
thermo->rho()
);
volScalarField& p = thermo->p();
volScalarField& h = thermo->h();
Info<< "Reading field U\n" << endl;
volVectorField U
(
IOobject
(
"U",
runTime.timeName(),
mesh,
IOobject::MUST_READ,
IOobject::AUTO_WRITE
),
mesh
);
# include "compressibleCreatePhi.H"
label pRefCell = 0;
scalar pRefValue = 0.0;
setRefCell(p, mesh.solutionDict().subDict("SIMPLE"), pRefCell, pRefValue);
dimensionedScalar pMin
(
mesh.solutionDict().subDict("SIMPLE").lookup("pMin")
);
Info<< "Creating turbulence model\n" << endl;
autoPtr<compressible::RASModel> turbulence
(
compressible::RASModel::New
(
rho,
U,
phi,
thermo()
)
);
dimensionedScalar initialMass = fvc::domainIntegrate(rho);
porousZones pZones(mesh);
Switch pressureImplicitPorosity(false);
int nUCorr = 0;
if (pZones.size())
{
// nUCorrectors for pressureImplicitPorosity
if (mesh.solutionDict().subDict("SIMPLE").found("nUCorrectors"))
{
nUCorr = readInt
(
mesh.solutionDict().subDict("SIMPLE").lookup("nUCorrectors")
);
}
if (nUCorr > 0)
{
pressureImplicitPorosity = true;
}
}