56 lines
1.3 KiB
C
56 lines
1.3 KiB
C
{
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volScalarField rUA = 1.0/UEqn.A();
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surfaceScalarField rUAf = fvc::interpolate(rUA);
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U = rUA*UEqn.H();
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surfaceScalarField phiU
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(
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"phiU",
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(fvc::interpolate(U) & mesh.Sf())
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+ fvc::ddtPhiCorr(rUA, rho, U, phi)
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);
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adjustPhi(phiU, U, p);
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phi = phiU +
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(
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fvc::interpolate(interface.sigmaK())*fvc::snGrad(alpha1)
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- ghf*fvc::snGrad(rho)
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)*rUAf*mesh.magSf();
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Pair<tmp<volScalarField> > vDotP = twoPhaseProperties->vDotP();
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const volScalarField& vDotcP = vDotP[0]();
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const volScalarField& vDotvP = vDotP[1]();
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for(int nonOrth=0; nonOrth<=nNonOrthCorr; nonOrth++)
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{
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fvScalarMatrix pdEqn
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(
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fvc::div(phi) - fvm::laplacian(rUAf, pd)
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+ (vDotvP - vDotcP)*(rho*gh - pSat) + fvm::Sp(vDotvP - vDotcP, pd)
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);
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pdEqn.setReference(pdRefCell, pdRefValue);
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if (corr == nCorr - 1 && nonOrth == nNonOrthCorr)
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{
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pdEqn.solve(mesh.solutionDict().solver(pd.name() + "Final"));
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}
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else
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{
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pdEqn.solve(mesh.solutionDict().solver(pd.name()));
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}
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if (nonOrth == nNonOrthCorr)
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{
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phi += pdEqn.flux();
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}
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}
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p = pd + rho*gh;
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U += rUA*fvc::reconstruct((phi - phiU)/rUAf);
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U.correctBoundaryConditions();
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}
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