68 lines
1.3 KiB
C
68 lines
1.3 KiB
C
rho = thermo.rho();
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volScalarField rUA = 1.0/UEqn.A();
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U = invA & UEqn.H();
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if (transonic)
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{
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surfaceScalarField phid
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(
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"phid",
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fvc::interpolate(psi)
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*(
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(fvc::interpolate(U) & mesh.Sf())
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+ fvc::ddtPhiCorr(rUA, rho, U, phi)
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)
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);
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for (int nonOrth=0; nonOrth<=nNonOrthCorr; nonOrth++)
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{
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fvScalarMatrix pEqn
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(
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betav*fvm::ddt(psi, p)
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+ fvm::div(phid, p)
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- fvm::laplacian(rho*invA, p)
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);
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pEqn.solve();
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if (nonOrth == nNonOrthCorr)
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{
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phi == pEqn.flux();
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}
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}
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}
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else
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{
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phi =
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fvc::interpolate(rho)*
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(
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(fvc::interpolate(U) & mesh.Sf())
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+ fvc::ddtPhiCorr(rUA, rho, U, phi)
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);
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for (int nonOrth=0; nonOrth<=nNonOrthCorr; nonOrth++)
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{
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fvScalarMatrix pEqn
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(
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betav*fvm::ddt(psi, p)
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+ fvc::div(phi)
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- fvm::laplacian(rho*invA, p)
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);
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pEqn.solve();
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if (nonOrth == nNonOrthCorr)
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{
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phi += pEqn.flux();
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}
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}
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}
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#include "rhoEqn.H"
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#include "continuityErrs.H"
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U -= invA & (betav*fvc::grad(p));
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U.correctBoundaryConditions();
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DpDt = fvc::DDt(surfaceScalarField("phiU", phi/fvc::interpolate(rho)), p);
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