{ // Solve the rothalpy equation // Create relative velocity Urel == U; mrfZones.relativeVelocity(Urel); // Create rotational velocity (= omega x r) Urot == U - Urel; fvScalarMatrix iEqn ( fvm::ddt(rho, i) + fvm::div(phi, i) - fvm::laplacian(turbulence->alphaEff(), i) == // Viscous heating: note sign (devRhoReff has a minus in it) - (turbulence->devRhoReff() && fvc::grad(Urel)) ); iEqn.relax(); eqnResidual = iEqn.solve().initialResidual(); maxResidual = max(eqnResidual, maxResidual); // Calculate enthalpy out of rothalpy h = i + 0.5*(magSqr(Urot) - magSqr(Urel)); h.correctBoundaryConditions(); thermo.correct(); psis = thermo.psi()/thermo.Cp()*thermo.Cv(); }