{ // Solve the enthalpy equation T.storePrevIter(); surfaceScalarField faceU = phi/fvc::interpolate(rho); fvScalarMatrix hEqn ( fvm::ddt(rho, h) + fvm::div(phi, h) - fvm::laplacian(turbulence->alphaEff(), h) == fvc::div(faceU + mrfZones.fluxCorrection(), p, "div(U,p)") // Note: div flux correction is zero so there is no need to // carry it. HJ, 4/Dec/2015 - p*fvc::div(faceU) // Viscous heating: note sign (devRhoReff has a minus in it) - (turbulence->devRhoReff() && fvc::grad(U)) ); hEqn.relax(); // Bounding of enthalpy taken out thermo.correct(); psis = thermo.psi()/thermo.Cp()*thermo.Cv(); }