334 lines
9 KiB
C
334 lines
9 KiB
C
/*---------------------------------------------------------------------------*\
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========= |
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\\ / F ield | OpenFOAM: The Open Source CFD Toolbox
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\\ / O peration |
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\\ / A nd | Copyright held by original author
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\\/ M anipulation |
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-------------------------------------------------------------------------------
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License
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This file is part of OpenFOAM.
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OpenFOAM is free software; you can redistribute it and/or modify it
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under the terms of the GNU General Public License as published by the
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Free Software Foundation; either version 2 of the License, or (at your
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option) any later version.
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OpenFOAM is distributed in the hope that it will be useful, but WITHOUT
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ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
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FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
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for more details.
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You should have received a copy of the GNU General Public License
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along with OpenFOAM; if not, write to the Free Software Foundation,
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Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
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Application
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yPlusRAS
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Description
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Calculates and reports yPlus for all wall patches, for the specified times
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when using RAS turbulence models.
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Default behaviour assumes operating in incompressible mode. To apply to
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compressible RAS cases, use the -compressible option.
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Extended version for being able to handle two phase flows using the
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-twoPhase option.
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Frank Albina, 16/Nov/2009
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\*---------------------------------------------------------------------------*/
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#include "fvCFD.H"
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#include "incompressible/incompressibleTwoPhaseMixture/twoPhaseMixture.H"
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#include "incompressible/singlePhaseTransportModel/singlePhaseTransportModel.H"
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#include "incompressible/RAS/RASModel/RASModel.H"
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#include "nutWallFunction/nutWallFunctionFvPatchScalarField.H"
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#include "basicPsiThermo.H"
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#include "compressible/RAS/RASModel/RASModel.H"
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#include "mutWallFunction/mutWallFunctionFvPatchScalarField.H"
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#include "wallDist.H"
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// * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * //
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void calcIncompressibleYPlus
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(
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const fvMesh& mesh,
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const Time& runTime,
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const volVectorField& U,
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volScalarField& yPlus
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)
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{
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typedef incompressible::RASModels::nutWallFunctionFvPatchScalarField
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wallFunctionPatchField;
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# include "createPhi.H"
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singlePhaseTransportModel laminarTransport(U, phi);
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autoPtr<incompressible::RASModel> RASModel
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(
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incompressible::RASModel::New(U, phi, laminarTransport)
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);
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const volScalarField::GeometricBoundaryField nutPatches =
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RASModel->nut()().boundaryField();
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bool foundNutPatch = false;
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forAll(nutPatches, patchi)
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{
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if (isA<wallFunctionPatchField>(nutPatches[patchi]))
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{
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foundNutPatch = true;
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const wallFunctionPatchField& nutPw =
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dynamic_cast<const wallFunctionPatchField&>
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(nutPatches[patchi]);
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yPlus.boundaryField()[patchi] = nutPw.yPlus();
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const scalarField& Yp = yPlus.boundaryField()[patchi];
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Info<< "Patch " << patchi
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<< " named " << nutPw.patch().name()
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<< " y+ : min: " << min(Yp) << " max: " << max(Yp)
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<< " average: " << average(Yp) << nl << endl;
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}
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}
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if (!foundNutPatch)
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{
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Info<< " no " << wallFunctionPatchField::typeName << " patches"
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<< endl;
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}
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}
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void calcCompressibleYPlus
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(
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const fvMesh& mesh,
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const Time& runTime,
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const volVectorField& U,
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volScalarField& yPlus
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)
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{
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typedef compressible::RASModels::mutWallFunctionFvPatchScalarField
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wallFunctionPatchField;
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IOobject rhoHeader
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(
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"rho",
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runTime.timeName(),
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mesh,
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IOobject::MUST_READ,
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IOobject::NO_WRITE
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);
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if (!rhoHeader.headerOk())
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{
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Info<< " no rho field" << endl;
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return;
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}
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Info << "Reading field rho\n" << endl;
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volScalarField rho(rhoHeader, mesh);
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# include "compressibleCreatePhi.H"
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autoPtr<basicPsiThermo> pThermo
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(
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basicPsiThermo::New(mesh)
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);
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basicPsiThermo& thermo = pThermo();
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autoPtr<compressible::RASModel> RASModel
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(
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compressible::RASModel::New
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(
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rho,
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U,
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phi,
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thermo
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)
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);
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const volScalarField::GeometricBoundaryField mutPatches =
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RASModel->mut()().boundaryField();
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bool foundMutPatch = false;
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forAll(mutPatches, patchi)
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{
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if (isA<wallFunctionPatchField>(mutPatches[patchi]))
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{
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foundMutPatch = true;
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const wallFunctionPatchField& mutPw =
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dynamic_cast<const wallFunctionPatchField&>
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(mutPatches[patchi]);
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yPlus.boundaryField()[patchi] = mutPw.yPlus();
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const scalarField& Yp = yPlus.boundaryField()[patchi];
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Info<< "Patch " << patchi
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<< " named " << mutPw.patch().name()
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<< " y+ : min: " << min(Yp) << " max: " << max(Yp)
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<< " average: " << average(Yp) << nl << endl;
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}
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}
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if (!foundMutPatch)
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{
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Info<< " no " << wallFunctionPatchField::typeName << " patches"
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<< endl;
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}
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}
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// Calculate two phase Y+
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void calcTwoPhaseYPlus
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(
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const fvMesh& mesh,
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const Time& runTime,
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const volVectorField& U,
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volScalarField& yPlus
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)
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{
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typedef incompressible::RASModels::nutWallFunctionFvPatchScalarField
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wallFunctionPatchField;
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# include "createPhi.H"
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Info<< "Reading transportProperties\n" << endl;
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twoPhaseMixture twoPhaseProperties(U, phi, "gamma");
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autoPtr<incompressible::RASModel> RASModel
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(
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incompressible::RASModel::New(U, phi, twoPhaseProperties)
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);
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const volScalarField::GeometricBoundaryField nutPatches =
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RASModel->nut()().boundaryField();
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bool foundNutPatch = false;
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forAll(nutPatches, patchi)
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{
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if (isA<wallFunctionPatchField>(nutPatches[patchi]))
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{
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foundNutPatch = true;
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const wallFunctionPatchField& nutPw =
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dynamic_cast<const wallFunctionPatchField&>
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(nutPatches[patchi]);
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yPlus.boundaryField()[patchi] = nutPw.yPlus();
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const scalarField& Yp = yPlus.boundaryField()[patchi];
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Info<< "Patch " << patchi
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<< " named " << nutPw.patch().name()
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<< " y+ : min: " << min(Yp) << " max: " << max(Yp)
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<< " average: " << average(Yp) << nl << endl;
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}
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}
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if (!foundNutPatch)
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{
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Info<< " no " << wallFunctionPatchField::typeName << " patches"
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<< endl;
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}
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}
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int main(int argc, char *argv[])
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{
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timeSelector::addOptions();
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#include "addRegionOption.H"
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argList::validOptions.insert("compressible","");
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#include "setRootCase.H"
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#include "createTime.H"
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instantList timeDirs = timeSelector::select0(runTime, args);
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#include "createNamedMesh.H"
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bool compressible = args.optionFound("compressible");
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// Check if two phase model was selected
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bool twoPhase = args.optionFound("twoPhase");
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forAll(timeDirs, timeI)
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{
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runTime.setTime(timeDirs[timeI], timeI);
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Info<< "Time = " << runTime.timeName() << endl;
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fvMesh::readUpdateState state = mesh.readUpdate();
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// Wall distance
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if (timeI == 0 || state != fvMesh::UNCHANGED)
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{
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Info<< "Calculating wall distance\n" << endl;
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wallDist y(mesh, true);
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Info<< "Writing wall distance to field "
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<< y.name() << nl << endl;
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y.write();
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}
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volScalarField yPlus
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(
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IOobject
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(
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"yPlus",
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runTime.timeName(),
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mesh,
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IOobject::NO_READ,
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IOobject::NO_WRITE
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),
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mesh,
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dimensionedScalar("yPlus", dimless, 0.0)
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);
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Info << "Reading field U\n" << endl;
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IOobject UHeader
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(
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"U",
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runTime.timeName(),
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mesh,
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IOobject::MUST_READ,
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IOobject::NO_WRITE
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);
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if (UHeader.headerOk())
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{
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Info << "Reading field U\n" << endl;
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volVectorField U(UHeader, mesh);
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if (compressible)
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{
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calcCompressibleYPlus(mesh, runTime, U, yPlus);
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}
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else if (twoPhase)
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{
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calcTwoPhaseYPlus(mesh, runTime, U, yPlus);
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}
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else
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{
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calcIncompressibleYPlus(mesh, runTime, U, yPlus);
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}
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}
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else
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{
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Info<< " no U field" << endl;
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}
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Info<< "Writing yPlus to field " << yPlus.name() << nl << endl;
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yPlus.write();
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}
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Info<< "End\n" << endl;
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return 0;
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}
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// ************************************************************************* //
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