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Functions | |
surfaceScalarField | alphaf1 ("alphaf1", fvc::interpolate(alpha1)) |
surfaceScalarField | alphaf2 ("alphaf2", scalar(1) - alphaf1) |
surfaceScalarField | alphaRhof10 ("alphaRhof10", fvc::interpolate(max(alpha1.oldTime(), phase1.residualAlpha()) *rho1.oldTime())) |
surfaceScalarField | alphaRhof20 ("alphaRhof20", fvc::interpolate(max(alpha2.oldTime(), phase2.residualAlpha()) *rho2.oldTime())) |
surfaceScalarField | Kdf ("Kdf", fluid.Kdf()) |
surfaceScalarField | Vmf ("Vmf", fluid.Vmf()) |
surfaceScalarField | rAUf1 (IOobject::groupName("rAUf", phase1.name()), 1.0/((alphaRhof10+Vmf)/runTime.deltaT()+fvc::interpolate(U1Eqn.A())+Kdf)) |
surfaceScalarField | rAUf2 (IOobject::groupName("rAUf", phase2.name()), 1.0/((alphaRhof20+Vmf)/runTime.deltaT()+fvc::interpolate(U2Eqn.A())+Kdf)) |
surfaceScalarField | Df1 (fvc::interpolate(D+phase1.turbulence().pPrime())) |
surfaceScalarField | Df2 (fvc::interpolate(D+phase2.turbulence().pPrime())) |
if (implicitPhasePressure) | |
surfaceScalarField | Ff (fluid.Ff()) |
surfaceScalarField | snGradAlpha1 (fvc::snGrad(alpha1) *mesh.magSf()) |
while (pimple.correct()) | |
if (thermo1.dpdt()||thermo2.dpdt()) | |
Variables | |
tmp< surfaceScalarField > | Ff1 = Df1*snGradAlpha1 + Ff |
tmp< surfaceScalarField > | Ff2 = -Df2*snGradAlpha1 - Ff |
K1 = 0.5*magSqr(U1) | |
K2 = 0.5*magSqr(U2) | |
surfaceScalarField alphaf1 | ( | "alphaf1" | , |
fvc::interpolate(alpha1) | |||
) |
surfaceScalarField alphaf2 | ( | "alphaf2" | , |
scalar(1) - | alphaf1 | ||
) |
surfaceScalarField alphaRhof10 | ( | "alphaRhof10" | , |
fvc::interpolate(max(alpha1.oldTime(), phase1.residualAlpha()) *rho1.oldTime()) | |||
) |
surfaceScalarField alphaRhof20 | ( | "alphaRhof20" | , |
fvc::interpolate(max(alpha2.oldTime(), phase2.residualAlpha()) *rho2.oldTime()) | |||
) |
surfaceScalarField Kdf | ( | "Kdf" | , |
fluid. | Kdf() | ||
) |
surfaceScalarField Vmf | ( | "Vmf" | , |
fluid. | Vmf() | ||
) |
Referenced by MomentumTransferPhaseSystem< BasePhaseSystem >::AFfs(), MomentumTransferPhaseSystem< BasePhaseSystem >::phiFfs(), and while().
surfaceScalarField rAUf1 | ( | IOobject::groupName("rAUf", phase1.name()) | , |
1.0/ | (alphaRhof10+Vmf)/runTime.deltaT()+fvc::interpolate(U1Eqn.A())+Kdf | ||
) |
surfaceScalarField rAUf2 | ( | IOobject::groupName("rAUf", phase2.name()) | , |
1.0/ | (alphaRhof20+Vmf)/runTime.deltaT()+fvc::interpolate(U2Eqn.A())+Kdf | ||
) |
surfaceScalarField Df1 | ( | fvc::interpolate(D+phase1.turbulence().pPrime()) | ) |
surfaceScalarField Df2 | ( | fvc::interpolate(D+phase2.turbulence().pPrime()) | ) |
if | ( | implicitPhasePressure | ) |
surfaceScalarField Ff | ( | fluid. | Ff() | ) |
Referenced by noWallDamping::damp(), interpolated::damp(), BlendedInterfacialModel< wallLubricationModel >::Ff(), and MomentumTransferPhaseSystem< BasePhaseSystem >::phiFfs().
surfaceScalarField snGradAlpha1 | ( | fvc::snGrad(alpha1) *mesh.magSf() | ) |
while | ( | pimple. | correct() | ) |
Definition at line 93 of file pEqn.H.
References alpha1, alpha2, alphaf1(), alphaf2(), alphaPhi1, alphaPhi2, alpharAUf1(), alpharAUf2(), alphaRhof10(), alphaRhof20(), contErr1, contErr2, Foam::correction(), Foam::fac::ddt(), ddtPhi1, ddtPhi2, Foam::fac::div(), Ff1, Ff2, fluid, Foam::fvc::flux(), fvOptions, g, gh, ghf, ghSnGradRho(), interpolate(), Kdf(), Foam::fac::laplacian(), Foam::mag(), Foam::max(), mesh, MRF, p, p_rgh, p_rgh_0(), phase1, phase2, phi, phi1, phi2, phiHbyA, phir(), pimple, pMin, psi1, psi2, rAUf(), rAUf1, rAUf2, Foam::fvc::reconstruct(), rho, rho1, rho2, runTime, setSnGrad< fixedFluxPressureFvPatchScalarField >(), Foam::fvc::snGrad(), solve(), Sp, Foam::sqr(), U, U1, U2, and Vmf().
if | ( | thermo1. | dpdt)||thermo2.dpdt( | ) |
Definition at line 365 of file pEqn.H.
References Foam::fac::ddt(), dpdt, and p.