{ fvScalarMatrix eEqn ( fvm::ddt(rho, e) + fvm::div(phi, e) - fvm::laplacian(turbulence->alphaEff(), e) == - fvm::SuSp(pDivU/e, e) // viscous heating? ); if (oCorr == nOuterCorr - 1) { if (mesh.solutionDict().relax("eFinal")) { eEqn.relax(mesh.solutionDict().relaxationFactor("eFinal")); } else { eEqn.relax(1); } } else { eEqn.relax(); } eEqn.solve(); // Bound the energy using TMin and TMax { dimensionedScalar Tstd("Tstd", dimTemperature, specie::Tstd); volScalarField Cv = thermo.Cv(); volScalarField R = thermo.Cp() - Cv; e = Foam::min(e, TMax*Cv + R*Tstd); e = Foam::max(e, TMin*Cv + R*Tstd); e.correctBoundaryConditions(); } thermo.correct(); }