multiphase solvers: print phase-name rather than alpha1/2 when printing max and min phase-fraction

Resolves request https://github.com/OpenFOAM/OpenFOAM-2.3.x/pull/5
This commit is contained in:
Henry 2015-01-21 15:59:54 +00:00
parent 7e448b3295
commit e1690cf2ac
8 changed files with 24 additions and 24 deletions

View file

@ -82,7 +82,7 @@
Info<< "Liquid phase volume fraction = "
<< alpha1.weightedAverage(mesh.V()).value()
<< " Min(alpha1) = " << min(alpha1).value()
<< " Min(alpha2) = " << min(alpha2).value()
<< " Min(" << alpha1.name() <<") = " << min(alpha1).value()
<< " Min(" << alpha2.name() <<") = " << min(alpha2).value()
<< endl;
}

View file

@ -23,8 +23,8 @@
Info<< "Phase-1 volume fraction = "
<< alpha1.weightedAverage(mesh.Vsc()).value()
<< " Min(alpha1) = " << min(alpha1).value()
<< " Max(alpha1) = " << max(alpha1).value()
<< " Min(" << alpha1.name() <<") = " << min(alpha1).value()
<< " Max(" << alpha1.name() <<") = " << max(alpha1).value()
<< endl;
tmp<surfaceScalarField> tphiAlphaUD(alpha1Eqn.flux());
@ -150,7 +150,7 @@
Info<< "Phase-1 volume fraction = "
<< alpha1.weightedAverage(mesh.Vsc()).value()
<< " Min(alpha1) = " << min(alpha1).value()
<< " Max(alpha1) = " << max(alpha1).value()
<< " Min(" << alpha1.name() <<") = " << min(alpha1).value()
<< " Max(" << alpha1.name() <<") = " << max(alpha1).value()
<< endl;
}

View file

@ -64,8 +64,8 @@
Info<< "Phase-1 volume fraction = "
<< alpha1.weightedAverage(mesh.Vsc()).value()
<< " Min(alpha1) = " << min(alpha1).value()
<< " Max(alpha1) = " << max(alpha1).value()
<< " Min(" << alpha1.name() <<") = " << min(alpha1).value()
<< " Max(" << alpha1.name() <<") = " << max(alpha1).value()
<< endl;
}

View file

@ -47,8 +47,8 @@
Info<< "Phase-1 volume fraction = "
<< alpha1.weightedAverage(mesh.Vsc()).value()
<< " Min(alpha1) = " << min(alpha1).value()
<< " Max(alpha1) = " << max(alpha1).value()
<< " Min(" << alpha1.name() <<") = " << min(alpha1).value()
<< " Max(" << alpha1.name() <<") = " << max(alpha1).value()
<< endl;
tmp<surfaceScalarField> tphiAlphaUD(alpha1Eqn.flux());
@ -144,7 +144,7 @@
Info<< "Phase-1 volume fraction = "
<< alpha1.weightedAverage(mesh.Vsc()).value()
<< " Min(alpha1) = " << min(alpha1).value()
<< " Max(alpha1) = " << max(alpha1).value()
<< " Min(" << alpha1.name() <<") = " << min(alpha1).value()
<< " Max(" << alpha1.name() <<") = " << max(alpha1).value()
<< endl;
}

View file

@ -163,13 +163,13 @@
Info<< "Air phase volume fraction = "
<< alpha1.weightedAverage(mesh.V()).value()
<< " Min(alpha1) = " << min(alpha1).value()
<< " Max(alpha1) = " << max(alpha1).value()
<< " Min(" << alpha1.name() <<") = " << min(alpha1).value()
<< " Max(" << alpha1.name() <<") = " << max(alpha1).value()
<< endl;
Info<< "Liquid phase volume fraction = "
<< alpha2.weightedAverage(mesh.V()).value()
<< " Min(alpha2) = " << min(alpha2).value()
<< " Max(alpha2) = " << max(alpha2).value()
<< " Min(" << alpha2.name() <<") = " << min(alpha2).value()
<< " Max(" << alpha2.name() <<") = " << max(alpha2).value()
<< endl;
}

View file

@ -33,8 +33,8 @@
Info<< "Phase-1 volume fraction = "
<< alpha1.weightedAverage(mesh.Vsc()).value()
<< " Min(alpha1) = " << min(alpha1).value()
<< " Max(alpha1) = " << max(alpha1).value()
<< " Min(" << alpha1.name() <<") = " << min(alpha1).value()
<< " Max(" << alpha1.name() <<") = " << max(alpha1).value()
<< endl;
tphiAlpha = alpha1Eqn.flux();
@ -117,7 +117,7 @@
Info<< "Liquid phase volume fraction = "
<< alpha1.weightedAverage(mesh.V()).value()
<< " Min(alpha1) = " << min(alpha1).value()
<< " Max(alpha1) = " << max(alpha1).value()
<< " Min(" << alpha1.name() <<") = " << min(alpha1).value()
<< " Max(" << alpha1.name() <<") = " << max(alpha1).value()
<< endl;
}

View file

@ -17,7 +17,7 @@
Info<< "Phase-1 volume fraction = "
<< alpha1.weightedAverage(mesh.Vsc()).value()
<< " Min(alpha1) = " << min(alpha1).value()
<< " Max(alpha1) = " << max(alpha1).value()
<< " Min(" << alpha1.name() <<") = " << min(alpha1).value()
<< " Max(" << alpha1.name() <<") = " << max(alpha1).value()
<< endl;
}

View file

@ -547,8 +547,8 @@ void Foam::twoPhaseSystem::solve()
Info<< alpha1.name() << " volume fraction = "
<< alpha1.weightedAverage(mesh_.V()).value()
<< " Min(alpha1) = " << min(alpha1).value()
<< " Max(alpha1) = " << max(alpha1).value()
<< " Min(" << alpha1.name() <<") = " << min(alpha1).value()
<< " Max(" << alpha1.name() <<") = " << max(alpha1).value()
<< endl;
}
}