Go to the source code of this file.
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Info<< "Reading thermophysical properties\"<< endl;autoPtr< rhoReactionThermo > | pThermo (rhoReactionThermo::New(mesh)) |
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thermo | validate (args.executable(), "h", "e") |
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const word | inertSpecie (thermo.lookup("inertSpecie")) |
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| if (!composition.species().found(inertSpecie)) |
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volScalarField | rho (IOobject("rho", runTime.timeName(), mesh), thermo.rho()) |
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Info<< "Reading field U\"<< endl;volVectorField U(IOobject("U", runTime.timeName(), mesh, IOobject::MUST_READ, IOobject::AUTO_WRITE), mesh);volScalarField &p=thermo.p();mesh.setFluxRequired(p.name());Info<< "Creating turbulence model.\"<< nl;autoPtr< compressible::turbulenceModel > | turbulence (compressible::turbulenceModel::New(rho, U, phi, thermo)) |
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Info<< "Creating reaction model\"<< endl;autoPtr< CombustionModel< rhoReactionThermo > > | reaction (CombustionModel< rhoReactionThermo >::New(thermo, turbulence())) |
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| forAll (Y, i) |
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fields | add (thermo.he()) |
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volScalarField | Qdot (IOobject("Qdot", runTime.timeName(), mesh, IOobject::READ_IF_PRESENT, IOobject::AUTO_WRITE), mesh, dimensionedScalar("Qdot", dimEnergy/dimVolume/dimTime, 0.0)) |
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rhoReactionThermo & | thermo = pThermo() |
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basicSpecieMixture & | composition = thermo.composition() |
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PtrList< volScalarField > & | Y = composition.Y() |
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Info<< "Reading field p_rgh\"<< endl;volScalarField p_rgh(IOobject("p_rgh", runTime.timeName(), mesh, IOobject::MUST_READ, IOobject::AUTO_WRITE), mesh);p_rgh=p - rho *gh;Info<< "Creating field dpdt\"<< endl;volScalarField dpdt(IOobject("dpdt", runTime.timeName(), mesh), mesh, dimensionedScalar("dpdt", p.dimensions()/dimTime, 0));Info<< "Creating field kinetic energy K\"<< endl;volScalarField K("K", 0.5 *magSqr(U));multivariateSurfaceInterpolationScheme< scalar >::fieldTable | fields |
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◆ pThermo()
Info<< "Reading thermophysical properties\n" << endl;autoPtr<rhoReactionThermo> pThermo |
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rhoReactionThermo::New(mesh) |
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◆ validate()
thermo validate |
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args. |
executable(), |
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"h" |
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"e" |
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◆ inertSpecie()
const word inertSpecie |
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thermo. |
lookup"inertSpecie" | ) |
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◆ if()
if |
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!composition. |
species).found(inertSpecie | ) |
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Definition at line 12 of file createFields.H.
References args, Foam::dimTime, dpdt, Foam::endl(), argList::executable(), Foam::exit(), Foam::FatalIOError, FatalIOErrorIn, gh, inertSpecie(), Foam::Info, Foam::magSqr(), mesh, Foam::New(), Foam::nl, p, p_rgh(), phi, reaction(), rho, runTime, thermo, turbulence, and U().
◆ rho()
volScalarField rho |
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IOobject("rho", runTime.timeName(), mesh) |
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thermo. |
rho() |
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◆ turbulence()
Info<< "Reading field U\n" << endl;volVectorField U( IOobject ( "U", runTime.timeName(), mesh, IOobject::MUST_READ, IOobject::AUTO_WRITE ), mesh);volScalarField& p = thermo.p();mesh.setFluxRequired(p.name());Info << "Creating turbulence model.\n" << nl;autoPtr<compressible::turbulenceModel> turbulence |
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compressible::turbulenceModel::New(rho, U, phi, thermo) |
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◆ reaction()
Info<< "Creating reaction model\n" << endl;autoPtr<CombustionModel<rhoReactionThermo> > reaction |
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CombustionModel< rhoReactionThermo > |
::Newthermo, turbulence() | ) |
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◆ forAll()
◆ add()
◆ Qdot()
volScalarField Qdot |
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IOobject("Qdot", runTime.timeName(), mesh, IOobject::READ_IF_PRESENT, IOobject::AUTO_WRITE) |
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mesh |
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dimensionedScalar("Qdot", dimEnergy/dimVolume/dimTime, 0.0) |
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◆ thermo
rhoReactionThermo& thermo = pThermo() |
◆ composition
basicSpecieMixture& composition = thermo.composition() |
PtrList<volScalarField>& Y = composition.Y() |
◆ fields
Info<< "Reading field p_rgh\n" << endl;volScalarField p_rgh( IOobject ( "p_rgh", runTime.timeName(), mesh, IOobject::MUST_READ, IOobject::AUTO_WRITE ), mesh);p_rgh = p - rho*gh;Info<< "Creating field dpdt\n" << endl;volScalarField dpdt( IOobject ( "dpdt", runTime.timeName(), mesh ), mesh, dimensionedScalar("dpdt", p.dimensions()/dimTime, 0));Info<< "Creating field kinetic energy K\n" << endl;volScalarField K("K", 0.5*magSqr(U));multivariateSurfaceInterpolationScheme<scalar>::fieldTable fields |