lowrekepsilonncmodel.hh

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#ifndef DUMUX_LOWREKEPSILON_NC_MODEL_HH
#define DUMUX_LOWREKEPSILON_NC_MODEL_HH
 
#include <dumux/common/properties.hh>
#include <dumux/freeflow/compositional/navierstokesncmodel.hh>
#include <dumux/freeflow/nonisothermal/iofields.hh>
#include <dumux/freeflow/rans/twoeq/lowrekepsilon/model.hh>
 
#include "iofields.hh"
 
namespace Dumux {
 
// properties for the single-phase, multi-component low-Re k-epsilon model
namespace Properties {
 
// Type tags
 
// Create new type tags
namespace TTag {
struct LowReKEpsilonNC { using InheritsFrom = std::tuple<NavierStokesNC>; };
} // end namespace TTag
 
// default property values
 
template<int dimension, int nComp, bool useMoles, int replaceCompEqIdx>
struct LowReKEpsilonNCModelTraits : NavierStokesNCModelTraits<dimension, nComp, useMoles, replaceCompEqIdx>
{
    static constexpr int numEq() { return dimension+nComp+2; }
 
    static constexpr bool usesTurbulenceModel() { return true; }
 
    static constexpr auto turbulenceModel()
    { return TurbulenceModel::lowrekepsilon; }
 
    using Indices = RANSTwoEqIndices<dimension, nComp>;
};
 
template<class TypeTag>
struct ModelTraits<TypeTag, TTag::LowReKEpsilonNC>
{
private:
    using GridView = typename GetPropType<TypeTag, Properties::GridGeometry>::GridView;
    static constexpr int dimension = GridView::dimension;
    using FluidSystem = GetPropType<TypeTag, Properties::FluidSystem>;
    static constexpr int numComponents = FluidSystem::numComponents;
    static constexpr bool useMoles = getPropValue<TypeTag, Properties::UseMoles>();
    static constexpr int replaceCompEqIdx = getPropValue<TypeTag, Properties::ReplaceCompEqIdx>();
public:
    using type = LowReKEpsilonNCModelTraits<dimension, numComponents, useMoles, replaceCompEqIdx>;
};
 
template<class TypeTag>
struct VolumeVariables<TypeTag, TTag::LowReKEpsilonNC>
{
private:
    using PV = GetPropType<TypeTag, Properties::PrimaryVariables>;
    using FSY = GetPropType<TypeTag, Properties::FluidSystem>;
    using FST = GetPropType<TypeTag, Properties::FluidState>;
    using MT = GetPropType<TypeTag, Properties::ModelTraits>;
 
    static_assert(FSY::numComponents == MT::numFluidComponents(), "Number of components mismatch between model and fluid system");
    static_assert(FST::numComponents == MT::numFluidComponents(), "Number of components mismatch between model and fluid state");
    static_assert(FSY::numPhases == MT::numFluidPhases(), "Number of phases mismatch between model and fluid system");
    static_assert(FST::numPhases == MT::numFluidPhases(), "Number of phases mismatch between model and fluid state");
 
    using Traits = NavierStokesVolumeVariablesTraits<PV, FSY, FST, MT>;
    using NCVolVars = FreeflowNCVolumeVariables<Traits>;
public:
    using type = LowReKEpsilonVolumeVariables<Traits, NCVolVars>;
};
 
template<class TypeTag>
struct LocalResidual<TypeTag, TTag::LowReKEpsilonNC>
{
private:
    using BaseLocalResidual = FreeflowNCResidual<TypeTag>;
public:
    using type = LowReKEpsilonResidual<TypeTag, BaseLocalResidual>;
};
 
template<class TypeTag>
struct FluxVariables<TypeTag, TTag::LowReKEpsilonNC>
{
private:
    using BaseFluxVariables = FreeflowNCFluxVariables<TypeTag>;
public:
    using type = LowReKEpsilonFluxVariables<TypeTag, BaseFluxVariables>;
};
 
template<class TypeTag>
struct IOFields<TypeTag, TTag::LowReKEpsilonNC> { using type = FreeflowNCIOFields<LowReKEpsilonIOFields, true/*turbulenceModel*/>; };
 
// Property values for non-isothermal multi-component low-Re k-epsilon model
 
// Create new type tags
namespace TTag {
struct LowReKEpsilonNCNI { using InheritsFrom = std::tuple<LowReKEpsilonNC, NavierStokesNCNI>; };
} // end namespace TTag
 
template<class TypeTag>
struct ModelTraits<TypeTag, TTag::LowReKEpsilonNCNI>
{
private:
    using GridView = typename GetPropType<TypeTag, Properties::GridGeometry>::GridView;
    static constexpr int dim = GridView::dimension;
    using FluidSystem = GetPropType<TypeTag, Properties::FluidSystem>;
    static constexpr int numComponents = FluidSystem::numComponents;
    static constexpr bool useMoles = getPropValue<TypeTag, Properties::UseMoles>();
    static constexpr int replaceCompEqIdx = getPropValue<TypeTag, Properties::ReplaceCompEqIdx>();
    using IsothermalModelTraits = LowReKEpsilonNCModelTraits<dim, numComponents, useMoles, replaceCompEqIdx>;
public:
    using type = FreeflowNIModelTraits<IsothermalModelTraits>;
};
 
template<class TypeTag>
struct VolumeVariables<TypeTag, TTag::LowReKEpsilonNCNI>
{
private:
    using PV = GetPropType<TypeTag, Properties::PrimaryVariables>;
    using FSY = GetPropType<TypeTag, Properties::FluidSystem>;
    using FST = GetPropType<TypeTag, Properties::FluidState>;
    using MT = GetPropType<TypeTag, Properties::ModelTraits>;
 
    static_assert(FSY::numComponents == MT::numFluidComponents(), "Number of components mismatch between model and fluid system");
    static_assert(FST::numComponents == MT::numFluidComponents(), "Number of components mismatch between model and fluid state");
    static_assert(FSY::numPhases == MT::numFluidPhases(), "Number of phases mismatch between model and fluid system");
    static_assert(FST::numPhases == MT::numFluidPhases(), "Number of phases mismatch between model and fluid state");
 
    using Traits = NavierStokesVolumeVariablesTraits<PV, FSY, FST, MT>;
    using NCVolVars = FreeflowNCVolumeVariables<Traits>;
public:
    using type = LowReKEpsilonVolumeVariables<Traits, NCVolVars>;
};
 
template<class TypeTag>
struct LocalResidual<TypeTag, TTag::LowReKEpsilonNCNI>
{
private:
    using BaseLocalResidual = FreeflowNCResidual<TypeTag>;
public:
    using type = LowReKEpsilonResidual<TypeTag, BaseLocalResidual>;
};
 
template<class TypeTag>
struct FluxVariables<TypeTag, TTag::LowReKEpsilonNCNI>
{
private:
    using BaseFluxVariables = FreeflowNCFluxVariables<TypeTag>;
public:
    using type = LowReKEpsilonFluxVariables<TypeTag, BaseFluxVariables>;
};
 
template<class TypeTag>
struct IOFields<TypeTag, TTag::LowReKEpsilonNCNI>
{
private:
    using IsothermalIOFields = FreeflowNCIOFields<LowReKEpsilonIOFields, true/*turbulenceModel*/>;
public:
    using type = FreeflowNonIsothermalIOFields<IsothermalIOFields, true/*turbulenceModel*/>;
};
 
// \}
} // end namespace Properties
} // end namespace Dumux
 
#endif