TEqn.H File Reference

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Functions

const surfaceScalarField rhoCpPhi (fvc::interpolate(fluid.Cp()) *rhoPhi)
 
const volScalarField kappaEff ("kappaEff", fluid.kappa()+fluid.Cp() *turbulence->mut()/fluid.Prt())
 
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))
 
TEqn relax ()
 
fvOptions constrain (TEqn)
 
TEqn solve ()
 
fvOptions correct (T)
 
fluid correct ()
 

Variables

 rhoCp = rho*fluid.Cp()
 

Function Documentation

◆ rhoCpPhi()

const surfaceScalarField rhoCpPhi ( fvc::interpolate(fluid.Cp()) *  rhoPhi)

Referenced by energyTransport::execute().

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◆ kappaEff()

const volScalarField kappaEff ( "kappaEff"  ,
fluid.  kappa)+fluid.Cp() *turbulence->mut()/fluid.Prt( 
)

◆ TEqn()

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(rhoCpT))

◆ relax()

TEqn relax ( )

◆ constrain()

fvOptions constrain ( TEqn  )

◆ solve()

TEqn solve ( )

◆ correct() [1/2]

fvOptions correct ( T  )

◆ correct() [2/2]

fluid correct ( )

Variable Documentation

◆ rhoCp

rhoCp = rho*fluid.Cp()

Definition at line 3 of file TEqn.H.

Referenced by energyTransport::execute(), and radiationModel::ST().