Skip to content
Snippets Groups Projects
Select Git revision
  • issue-3313-SVD-pinv_tensors
  • develop protected
  • develop.mol
  • maintenance-v2406 protected
  • rpmbuild-2406
  • master default protected
  • rpmbuild-2412
  • feature-field-statistics
  • feature-fvMatrix-setValues
  • feature-fo-warning-messages
  • 3276-reconstructparmesh-does-not-reconstruct-finitearea
  • reworked-collated-handling
  • feature-inplace-FieldFunctions
  • maintenance-v2206 protected
  • rpmbuild-2206
  • maintenance-v2212 protected
  • rpmbuild-2212
  • maintenance-v2306 protected
  • rpmbuild-2306
  • maintenance-v2312 protected
  • OpenFOAM-v2412 protected
  • OpenFOAM-v2406 protected
  • OpenFOAM-v2312 protected
  • OpenFOAM-v2306 protected
  • OpenFOAM-v2212 protected
  • OpenFOAM-v2206 protected
  • OpenFOAM-v2112.220610 protected
  • OpenFOAM-v2112 protected
  • OpenFOAM-v2106.211215 protected
  • OpenFOAM-v2106 protected
  • OpenFOAM-v2012_210414 protected
  • OpenFOAM-v2012 protected
  • OpenFOAM-v2006 protected
  • OpenFOAM-v1912.200626 protected
  • OpenFOAM-v1912.200506 protected
  • OpenFOAM-v1912.200417 protected
  • OpenFOAM-v1812.200417 protected
  • OpenFOAM-v1906.200417 protected
  • OpenFOAM-v1912.200403 protected
  • OpenFOAM-v1812.200312 protected
40 results
Blame History Permalink
alphaEqn.H 3.19 KiB 
{
    word alphaScheme("div(phi,alpha)");
    word alpharScheme("div(phirb,alpha)");

    surfaceScalarField phir("phir", phic*interface.nHatf());

    Pair<tmp<volScalarField> > vDotAlphal =
        mixture->vDotAlphal();
    const volScalarField& vDotcAlphal = vDotAlphal[0]();
    const volScalarField& vDotvAlphal = vDotAlphal[1]();
    const volScalarField vDotvmcAlphal(vDotvAlphal - vDotcAlphal);

    tmp<surfaceScalarField> tphiAlpha;

    if (MULESCorr)
    {
        fvScalarMatrix alpha1Eqn
        (
            fv::EulerDdtScheme<scalar>(mesh).fvmDdt(alpha1)
          + fv::gaussConvectionScheme<scalar>
            (
                mesh,
                phi,
                upwind<scalar>(mesh, phi)
            ).fvmDiv(phi, alpha1)
          - fvm::Sp(divU, alpha1)
         ==
            fvm::Sp(vDotvmcAlphal, alpha1)
          + vDotcAlphal
        );

        alpha1Eqn.solve();

        Info<< "Phase-1 volume fraction = "
            << alpha1.weightedAverage(mesh.Vsc()).value()
            << "  Min(" << alpha1.name() << ") = " << min(alpha1).value()
            << "  Max(" << alpha1.name() << ") = " << max(alpha1).value()
            << endl;

        tphiAlpha = alpha1Eqn.flux();
    }

    volScalarField alpha10("alpha10", alpha1);

    for (int aCorr=0; aCorr<nAlphaCorr; aCorr++)
    {
        tmp<surfaceScalarField> tphiAlphaCorr
        (
            fvc::flux
            (
                phi,
                alpha1,
                alphaScheme
            )
          + fvc::flux
            (
                -fvc::flux(-phir, alpha2, alpharScheme),
                alpha1,
                alpharScheme
            )
        );

        if (MULESCorr)
        {
            tphiAlphaCorr() -= tphiAlpha();

            volScalarField alpha100("alpha100", alpha10);
            alpha10 = alpha1;

            MULES::correct
            (
                geometricOneField(),
                alpha1,
                tphiAlpha(),
                tphiAlphaCorr(),
                vDotvmcAlphal,
                (
                    divU*(alpha10 - alpha100)
                  - vDotvmcAlphal*alpha10
                )(),
                1,
                0
            );

            // Under-relax the correction for all but the 1st corrector
            if (aCorr == 0)
            {
                tphiAlpha() += tphiAlphaCorr();
            }
            else
            {
                alpha1 = 0.5*alpha1 + 0.5*alpha10;
                tphiAlpha() += 0.5*tphiAlphaCorr();
            }
        }
        else
        {
            MULES::explicitSolve
            (
                geometricOneField(),
                alpha1,
                phi,
                tphiAlphaCorr(),
                vDotvmcAlphal,
                (divU*alpha1 + vDotcAlphal)(),
                1,
                0
            );

            tphiAlpha = tphiAlphaCorr;
        }

        alpha2 = 1.0 - alpha1;
    }

    rhoPhi = tphiAlpha()*(rho1 - rho2) + phi*rho2;

    Info<< "Liquid phase volume fraction = "
        << alpha1.weightedAverage(mesh.V()).value()
        << "  Min(" << alpha1.name() << ") = " << min(alpha1).value()
        << "  Max(" << alpha1.name() << ") = " << max(alpha1).value()
        << endl;
}