Go to the source code of this file.
Functions | |
volScalarField | kByCp2 ("kByCp2", alpha2 *(k2/Cp2/rho2+nut2/Prt)) |
fvScalarMatrix | T1Eqn (fvm::ddt(alpha1, T1)+fvm::div(alphaPhi1, T1)-fvm::laplacian(kByCp1, T1)==heatTransferCoeff *T2/Cp1/rho1-fvm::Sp(heatTransferCoeff/Cp1/rho1, T1)+alpha1 *Dp1Dt/Cp1/rho1) |
fvScalarMatrix | T2Eqn (fvm::ddt(alpha2, T2)+fvm::div(alphaPhi2, T2)-fvm::laplacian(kByCp2, T2)==heatTransferCoeff *T1/Cp2/rho2-fvm::Sp(heatTransferCoeff/Cp2/rho2, T2)+alpha2 *Dp2Dt/Cp2/rho2) |
T1Eqn | relax () |
T1Eqn | solve () |
Variables | |
psi1 = 1.0/(R1*T1) | |
psi2 = 1.0/(R2*T2) | |
volScalarField kByCp2 | ( | "kByCp2" | , |
alpha2 * | k2/Cp2/rho2+nut2/Prt | ||
) |
fvScalarMatrix T1Eqn | ( | fvm::ddt(alpha1, T1)+fvm::div(alphaPhi1, T1)-fvm::laplacian(kByCp1, T1) | = =heatTransferCoeff *T2/Cp1/rho1-fvm::Sp(heatTransferCoeff/Cp1/rho1, T1)+alpha1 *Dp1Dt/Cp1/rho1 | ) |
fvScalarMatrix T2Eqn | ( | fvm::ddt(alpha2, T2)+fvm::div(alphaPhi2, T2)-fvm::laplacian(kByCp2, T2) | = =heatTransferCoeff *T1/Cp2/rho2-fvm::Sp(heatTransferCoeff/Cp2/rho2, T2)+alpha2 *Dp2Dt/Cp2/rho2 | ) |
T1Eqn relax | ( | ) |
T1Eqn solve | ( | ) |
psi2 = 1.0/(R2*T2) |
Definition at line 35 of file TEqns.H.
Referenced by kOmegaSST< LESeddyViscosity< BasicTurbulenceModel >, BasicTurbulenceModel >::blend(), if(), and while().