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OpenFOAM-12/tutorials/modules/shockFluid/forwardStep/constant/physicalProperties
Henry Weller fe5a991ade solvers::shockFluid: New solver module for density-based solution of compressible flow 
executed with foamRun for single region simulations of foamMultiRun for
multi-region simulations.  Replaces rhoCentralFoam and all the corresponding
tutorials have been updated and moved to tutorials/modules/shockFluid.

Unlike rhoCentralFoam shockFluid supports mesh refinement/unrefinement, topology
change, run-time mesh-to-mesh mapping, load-balancing in addition to general
mesh-motion.

The tutorials/modules/shockFluid/movingCone case has been updated to demonstrate
run-time mesh-to-mesh mapping mesh topology change based on the
tutorials/modules/incompressibleFluid/movingCone.  shockFluid s

Description
    Solver module for density-based solution of compressible flow

    Based on central-upwind schemes of Kurganov and Tadmor with support for
    mesh-motion and topology change.

    Reference:
    \verbatim
        Greenshields, C. J., Weller, H. G., Gasparini, L.,
        & Reese, J. M. (2010).
        Implementation of semi‐discrete, non‐staggered central schemes
        in a colocated, polyhedral, finite volume framework,
        for high‐speed viscous flows.
        International journal for numerical methods in fluids, 63(1), 1-21.
    \endverbatim

SourceFiles
    shockFluid.C

See also
    Foam::solvers::fluidSolver
    Foam::solvers::incompressibleFluid
2023-01-18 14:10:48 +00:00

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/*--------------------------------*- C++ -*----------------------------------*\
========= |
\\ / F ield | OpenFOAM: The Open Source CFD Toolbox
\\ / O peration | Website: https://openfoam.org
\\ / A nd | Version: dev
\\/ M anipulation |
\*---------------------------------------------------------------------------*/
FoamFile
{
format ascii;
class dictionary;
location "constant";
object physicalProperties;
}
// * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * //
thermoType
{
type hePsiThermo;
mixture pureMixture;
transport const;
thermo hConst;
equationOfState perfectGas;
specie specie;
energy sensibleInternalEnergy;
}
// Note: these are the properties for a "normalised" inviscid gas
// for which the speed of sound is 1 m/s at a temperature of 1K
// and gamma = 7/5
mixture
{
specie
{
molWeight 11640.3;
}
thermodynamics
{
Cp 2.5;
Hf 0;
}
transport
{
mu 0;
Pr 1;
}
}
// ************************************************************************* //
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