165 lines
4.3 KiB
C
165 lines
4.3 KiB
C
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{
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word alphaScheme("div(phi,alpha)");
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word alpharScheme("div(phirb,alpha)");
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surfaceScalarField phir
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(
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IOobject
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(
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"phir",
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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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interface.cAlpha()*mag(phi/mesh.magSf())*interface.nHatf()
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);
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for (int gCorr=0; gCorr<nAlphaCorr; gCorr++)
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{
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// Create the limiter to be used for all phase-fractions
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scalarField allLambda(mesh.nFaces(), 1.0);
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// Split the limiter into a surfaceScalarField
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slicedSurfaceScalarField lambda
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(
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IOobject
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(
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"lambda",
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mesh.time().timeName(),
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mesh,
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IOobject::NO_READ,
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IOobject::NO_WRITE,
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false
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),
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mesh,
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dimless,
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allLambda
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);
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// Create the complete convection flux for alpha1
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surfaceScalarField phiAlpha1 =
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fvc::flux
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(
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phi,
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alpha1,
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alphaScheme
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)
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+ fvc::flux
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(
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-fvc::flux(-phir, alpha2, alpharScheme),
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alpha1,
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alpharScheme
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)
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+ fvc::flux
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(
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-fvc::flux(-phir, alpha3, alpharScheme),
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alpha1,
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alpharScheme
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);
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// Create the bounded (upwind) flux for alpha1
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surfaceScalarField phiAlpha1BD =
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upwind<scalar>(mesh, phi).flux(alpha1);
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// Calculate the flux correction for alpha1
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phiAlpha1 -= phiAlpha1BD;
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// Calculate the limiter for alpha1
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MULES::limiter
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(
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allLambda,
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geometricOneField(),
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alpha1,
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phiAlpha1BD,
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phiAlpha1,
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zeroField(),
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zeroField(),
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1,
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0,
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3
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);
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// Create the complete flux for alpha2
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surfaceScalarField phiAlpha2 =
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fvc::flux
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(
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phi,
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alpha2,
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alphaScheme
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)
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+ fvc::flux
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(
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-fvc::flux(phir, alpha1, alpharScheme),
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alpha2,
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alpharScheme
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);
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// Create the bounded (upwind) flux for alpha2
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surfaceScalarField phiAlpha2BD =
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upwind<scalar>(mesh, phi).flux(alpha2);
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// Calculate the flux correction for alpha2
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phiAlpha2 -= phiAlpha2BD;
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// Further limit the limiter for alpha2
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MULES::limiter
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(
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allLambda,
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geometricOneField(),
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alpha2,
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phiAlpha2BD,
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phiAlpha2,
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zeroField(),
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zeroField(),
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1,
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0,
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3
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);
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// Construct the limited fluxes
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phiAlpha1 = phiAlpha1BD + lambda*phiAlpha1;
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phiAlpha2 = phiAlpha2BD + lambda*phiAlpha2;
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// Solve for alpha1
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solve(fvm::ddt(alpha1) + fvc::div(phiAlpha1));
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// Create the diffusion coefficients for alpha2<->alpha3
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volScalarField Dc23 = D23*max(alpha3, scalar(0))*pos(alpha2);
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volScalarField Dc32 = D23*max(alpha2, scalar(0))*pos(alpha3);
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// Add the diffusive flux for alpha3->alpha2
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phiAlpha2 -= fvc::interpolate(Dc32)*mesh.magSf()*fvc::snGrad(alpha1);
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// Solve for alpha2
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fvScalarMatrix alpha2Eqn
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(
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fvm::ddt(alpha2)
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+ fvc::div(phiAlpha2)
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- fvm::laplacian(Dc23 + Dc32, alpha2)
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);
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alpha2Eqn.solve();
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// Construct the complete mass flux
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rhoPhi =
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phiAlpha1*(rho1 - rho3)
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+ (phiAlpha2 + alpha2Eqn.flux())*(rho2 - rho3)
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+ phi*rho3;
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alpha3 = 1.0 - alpha1 - alpha2;
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}
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Info<< "Air phase volume fraction = "
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<< alpha1.weightedAverage(mesh.V()).value()
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<< " Min(alpha1) = " << min(alpha1).value()
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<< " Max(alpha1) = " << max(alpha1).value()
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<< endl;
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Info<< "Liquid phase volume fraction = "
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<< alpha2.weightedAverage(mesh.V()).value()
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<< " Min(alpha2) = " << min(alpha2).value()
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<< " Max(alpha2) = " << max(alpha2).value()
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<< endl;
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}
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