99 lines
2.5 KiB
C
99 lines
2.5 KiB
C
{
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// Update boundary velocity for consistency with the flux
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mrfZones.correctBoundaryVelocity(U);
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// Momentum equation
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fvVectorMatrix UEqn
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(
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fvm::div(phi, U)
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+ turbulence->divDevReff()
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);
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// Add MRF sources
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mrfZones.addCoriolis(UEqn);
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// Add porous sources
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tmp<volTensorField> tTU;
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if (addPorosity)
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{
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tTU = tmp<volTensorField>
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(
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new volTensorField
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(
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IOobject
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(
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"TU",
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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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dimensionedTensor("zero", dimless/dimTime, tensor::zero)
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)
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);
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volTensorField& TU = tTU();
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pZones.addResistance(UEqn, TU);
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trTU = inv(TU + tensor(I)*UEqn.A());
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trTU().rename("rAU");
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}
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else
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{
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trAU = 1.0/UEqn.A();
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trAU().rename("rAU");
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}
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// Under-relax momentum. Note this will destroy the H and A
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UEqn.relax();
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// Insert momentum equation
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UpEqn.insertEquation(0, UEqn);
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if (addPorosity)
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{
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// Manually over-ride the 3x3 block to handle the off-diagonal
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// part of the Ap coefficient
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const tensorField& TUIn = tTU().internalField();
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CoeffField<vector4>::squareTypeField& DD = UpEqn.diag().asSquare();
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const scalarField& V = mesh.V().field();
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// Note: insertion should only happen in porous cell zones
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// HJ, 14/Mar/2016
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register label cellI;
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forAll (pZones, pZoneI)
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{
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const labelList& curZoneCells = pZones[pZoneI].zone();
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// Loop over all cells in the zone
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forAll (curZoneCells, zcI)
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{
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cellI = curZoneCells[zcI];
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const scalar& cellV = V[cellI];
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const tensor& cellTU = TUIn[cellI];
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CoeffField<vector4>::squareType& cellDD = DD[cellI];
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cellDD(0, 0) += cellV*cellTU.xx();
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cellDD(0, 1) += cellV*cellTU.xy();
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cellDD(0, 2) += cellV*cellTU.xz();
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cellDD(1, 0) += cellV*cellTU.yx();
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cellDD(1, 1) += cellV*cellTU.yy();
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cellDD(2, 2) += cellV*cellTU.yz();
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cellDD(2, 0) += cellV*cellTU.zx();
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cellDD(2, 1) += cellV*cellTU.zy();
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cellDD(2, 2) += cellV*cellTU.zz();
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}
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}
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}
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}
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