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Functions | |
const surfaceScalarField | rhoCpPhi (fvc::interpolate(cp) *rhoPhi) |
const volScalarField | vDotvmcAlphal (vDotvAlphal - vDotcAlphal) |
fvScalarMatrix | TEqn (fvm::ddt(rhoCp, T)+fvm::div(rhoCpPhi, T) - fvm::Sp(fvc::ddt(rhoCp)+fvc::div(rhoCpPhi), T) - fvm::laplacian(kappaEff, T)+thermo->hc() *vDotvmcAlphal) |
TEqn | relax () |
TEqn | solve () |
Variables | |
const volScalarField & | cp = tcp() |
rhoCp = rho*cp | |
kappaEff = thermo->kappa() + rho*cp*turbulence->nut()/Prt | |
Pair< tmp< volScalarField > > | vDotAlphal = mixture->mDot() |
const volScalarField & | vDotcAlphal = vDotAlphal[0]() |
const volScalarField & | vDotvAlphal = vDotAlphal[1]() |
const surfaceScalarField rhoCpPhi | ( | fvc::interpolate(cp) * | rhoPhi | ) |
const volScalarField vDotvmcAlphal | ( | vDotvAlphal - | vDotcAlphal | ) |
fvScalarMatrix TEqn | ( | fvm::ddt(rhoCp, T)+fvm::div(rhoCpPhi, T) - fvm::Sp(fvc::ddt(rhoCp)+fvc::div(rhoCpPhi), T) - fvm::laplacian(kappaEff, T)+thermo->hc() * | vDotvmcAlphal | ) |
TEqn relax | ( | ) |
TEqn solve | ( | ) |
Definition at line 7 of file TEqn.H.
Referenced by energyTransport::execute(), heThermo< BasicSolidThermo, MixtureType >::kappaEff(), and fixedMultiPhaseHeatFluxFvPatchScalarField::updateCoeffs().
const volScalarField& vDotcAlphal = vDotAlphal[0]() |
const volScalarField& vDotvAlphal = vDotAlphal[1]() |