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const surfaceScalarField | rhoCpPhi (fvc::interpolate(fluid.Cp()) *rhoPhi) |
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const volScalarField | kappaEff ("kappaEff", fluid.kappa()+fluid.Cp() *turbulence->mut()/fluid.Prt()) |
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fvScalarMatrix | TEqn (fvm::ddt(rhoCp, T)+fvm::div(rhoCpPhi, T, "div(phi,T)") - fvm::Sp(fvc::ddt(rhoCp)+fvc::div(rhoCpPhi), T) - fvm::laplacian(kappaEff, T, "laplacian(kappa,T)")==fluid.heatTransfer(T)+radiation->ST(T)+fvOptions(rhoCp, T)) |
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TEqn | relax () |
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fvOptions | constrain (TEqn) |
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TEqn | solve () |
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fvOptions | correct (T) |
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fluid | correct () |
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◆ rhoCpPhi()
◆ kappaEff()
const volScalarField kappaEff |
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"kappaEff" |
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fluid. |
kappa)+fluid.Cp() *turbulence->mut()/fluid.Prt( |
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) |
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◆ TEqn()
◆ relax()
◆ constrain()
◆ solve()
◆ correct() [1/2]
◆ correct() [2/2]
◆ rhoCp