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249 lines
4.6 KiB
C++
249 lines
4.6 KiB
C++
/*--------------------------------*- C++ -*----------------------------------*\
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| ========= | |
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| \\ / F ield | OpenFOAM: The Open Source CFD Toolbox |
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| \\ / O peration | Version: plus |
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| \\ / A nd | Web: www.OpenFOAM.com |
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| \\/ M anipulation | |
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\*---------------------------------------------------------------------------*/
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FoamFile
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{
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version 2.0;
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format ascii;
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class dictionary;
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location "constant";
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object transportProperties;
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}
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// * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * //
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phases
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(
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water
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{
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nu 1e-06;
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kappa 1e-06;
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Cp 4195;
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rho 1000;
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diameterModel constant;
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constantCoeffs
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{
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d 1e-3;
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}
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}
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oil
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{
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nu 1e-06;
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kappa 1e-06;
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Cp 4195;
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rho 500;
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diameterModel constant;
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constantCoeffs
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{
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d 1e-3;
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}
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}
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mercury
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{
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nu 1.125e-07;
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kappa 1e-06;
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Cp 4195;
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rho 13529;
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diameterModel constant;
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constantCoeffs
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{
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d 1e-3;
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}
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}
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air
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{
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nu 1.48e-05;
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kappa 2.63e-2;
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Cp 1007;
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rho 1;
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diameterModel constant;
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constantCoeffs
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{
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d 3e-3;
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}
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}
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);
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sigmas
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(
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(air water) 0.07
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(air oil) 0.07
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(air mercury) 0.07
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(water oil) 0
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(water mercury) 0
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(oil mercury) 0
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);
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interfaceCompression
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(
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(air water) 0
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(air oil) 0
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(air mercury) 0
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(water oil) 0
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(water mercury) 0
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(oil mercury) 0
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);
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virtualMass
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(
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(air water) 0.5
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(air oil) 0.5
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(air mercury) 0.5
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(water oil) 0.5
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(water mercury) 0.5
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(oil mercury) 0.5
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);
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drag
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(
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(air water)
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{
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type blended;
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air
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{
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type SchillerNaumann;
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residualPhaseFraction 0;
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residualSlip 0;
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}
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water
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{
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type SchillerNaumann;
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residualPhaseFraction 0;
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residualSlip 0;
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}
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residualPhaseFraction 1e-2;
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residualSlip 1e-2;
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}
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(air oil)
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{
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type blended;
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air
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{
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type SchillerNaumann;
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residualPhaseFraction 0;
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residualSlip 0;
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}
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oil
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{
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type SchillerNaumann;
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residualPhaseFraction 0;
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residualSlip 0;
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}
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residualPhaseFraction 1e-2;
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residualSlip 1e-2;
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}
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(air mercury)
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{
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type blended;
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air
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{
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type SchillerNaumann;
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residualPhaseFraction 0;
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residualSlip 0;
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}
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mercury
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{
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type SchillerNaumann;
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residualPhaseFraction 0;
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residualSlip 0;
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}
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residualPhaseFraction 1e-2;
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residualSlip 1e-2;
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}
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(water oil)
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{
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type blended;
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water
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{
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type SchillerNaumann;
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residualPhaseFraction 0;
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residualSlip 0;
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}
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oil
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{
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type SchillerNaumann;
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residualPhaseFraction 0;
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residualSlip 0;
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}
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residualPhaseFraction 1e-2;
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residualSlip 1e-2;
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}
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(water mercury)
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{
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type blended;
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water
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{
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type SchillerNaumann;
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residualPhaseFraction 0;
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residualSlip 0;
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}
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mercury
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{
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type SchillerNaumann;
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residualPhaseFraction 0;
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residualSlip 0;
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}
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residualPhaseFraction 1e-2;
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residualSlip 1e-2;
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}
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(oil mercury)
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{
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type blended;
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oil
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{
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type SchillerNaumann;
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residualPhaseFraction 0;
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residualSlip 0;
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}
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mercury
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{
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type SchillerNaumann;
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residualPhaseFraction 0;
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residualSlip 0;
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}
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residualPhaseFraction 1e-2;
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residualSlip 1e-2;
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}
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);
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// This is a dummy to support the Smagorinsky model
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transportModel Newtonian;
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nu 0;
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// ************************************************************************* //
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