IOobject UmeanHeader ( "Umean", runTime.times()[i].name(), mesh, IOobject::MUST_READ ); if (!UmeanHeader.headerOk()) { continue; } volVectorField Umean ( UmeanHeader, mesh ); volSymmTensorField R ( IOobject ( "R", runTime.times()[i].name(), mesh, IOobject::MUST_READ ), mesh ); volScalarField Rxx(R.component(symmTensor::XX)); volScalarField Ryy(R.component(symmTensor::YY)); volScalarField Rzz(R.component(symmTensor::ZZ)); volScalarField Rxy(R.component(symmTensor::XY)); volScalarField pPrime2Mean ( IOobject ( "pPrime2Mean", runTime.times()[i].name(), mesh, IOobject::MUST_READ ), mesh ); volScalarField epsilonMean ( IOobject ( "epsilonMean", runTime.times()[i].name(), mesh, IOobject::MUST_READ ), mesh ); /* volScalarField nuMean ( IOobject ( "nuMean", runTime.times()[i].name(), mesh, IOobject::MUST_READ ), mesh ); volScalarField gammaDotMean ( IOobject ( "gammaDotMean", runTime.times()[i].name(), mesh, IOobject::MUST_READ ), mesh ); volScalarField nuPrime2 ( IOobject ( "nuPrime", runTime.times()[i].name(), mesh, IOobject::MUST_READ ), mesh ); volScalarField nuPrime = sqrt(mag(nuPrime2 - sqr(nuMean))); volScalarField gammaDotPrime2 ( IOobject ( "gammaDotPrime", runTime.times()[i].name(), mesh, IOobject::MUST_READ ), mesh ); volScalarField gammaDotPrime = sqrt(mag(gammaDotPrime2 -sqr(gammaDotMean))); */