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#ifndef DUMUX_3P3C_MODEL_HH

#define DUMUX_3P3C_MODEL_HH


#include <dune/common/fvector.hh>


#include <dumux/common/properties.hh>

#include <dumux/porousmediumflow/properties.hh>

#include <dumux/porousmediumflow/3p/model.hh>

#include <dumux/porousmediumflow/nonisothermal/model.hh>

#include <dumux/porousmediumflow/nonisothermal/indices.hh>

#include <dumux/porousmediumflow/nonisothermal/iofields.hh>

#include <dumux/porousmediumflow/compositional/switchableprimaryvariables.hh>


#include <dumux/material/fluidstates/compositional.hh>

#include <dumux/material/spatialparams/fv.hh>

#include <dumux/material/fluidmatrixinteractions/diffusivitymillingtonquirk.hh>

#include <dumux/material/fluidmatrixinteractions/3p/thermalconductivitysomerton3p.hh>


#include "indices.hh"

#include "volumevariables.hh"

#include "iofields.hh"

#include "localresidual.hh"


namespace Dumux {


template<bool useCS, bool useMol>

struct ThreePThreeCModelTraits

{

    using Indices = ThreePThreeCIndices;


    static constexpr int numEq() { return 3; }

    static constexpr int numFluidPhases() { return 3; }

    static constexpr int numFluidComponents() { return 3; }


    static constexpr bool enableAdvection() { return true; }

    static constexpr bool enableMolecularDiffusion() { return true; }

    static constexpr bool enableEnergyBalance() { return false; }


    static constexpr bool useConstraintSolver() { return useCS; }

    static constexpr bool useMoles() { return useMol; }

};


namespace Properties {

// Create new type tags

namespace TTag {

struct ThreePThreeC { using InheritsFrom = std::tuple<PorousMediumFlow>; };

struct ThreePThreeCNI { using InheritsFrom = std::tuple<ThreePThreeC>; };

} // end namespace TTag


// Property values


template<class TypeTag>

struct BaseModelTraits<TypeTag, TTag::ThreePThreeC>

{

private:

    using FluidSystem = GetPropType<TypeTag, Properties::FluidSystem>;

    static_assert(FluidSystem::numComponents == 3, "Only fluid systems with 3 components are supported by the 3p3c model!");

    static_assert(FluidSystem::numPhases == 3, "Only fluid systems with 3 phases are supported by the 3p3c model!");

public:

    using type = ThreePThreeCModelTraits<getPropValue<TypeTag, Properties::UseConstraintSolver>(), getPropValue<TypeTag, Properties::UseMoles>()>;

};

template<class TypeTag>

struct ModelTraits<TypeTag, TTag::ThreePThreeC> { using type = GetPropType<TypeTag, Properties::BaseModelTraits>; };


template<class TypeTag>

struct UseConstraintSolver<TypeTag, TTag::ThreePThreeC> { static constexpr bool value = false; };


template<class TypeTag>

struct ReplaceCompEqIdx<TypeTag, TTag::ThreePThreeC> { static constexpr int value = GetPropType<TypeTag, Properties::ModelTraits>::numFluidComponents(); };

template<class TypeTag>

struct FluidState<TypeTag, TTag::ThreePThreeC>{

    private:

        using Scalar = GetPropType<TypeTag, Properties::Scalar>;

        using FluidSystem = GetPropType<TypeTag, Properties::FluidSystem>;

    public:

        using type = CompositionalFluidState<Scalar, FluidSystem>;

};


template<class TypeTag>

struct LocalResidual<TypeTag, TTag::ThreePThreeC> { using type = ThreePThreeCLocalResidual<TypeTag>; };


template<class TypeTag>

struct PrimaryVariables<TypeTag, TTag::ThreePThreeC>

{

private:

    using PrimaryVariablesVector = Dune::FieldVector<GetPropType<TypeTag, Properties::Scalar>,

                                                     GetPropType<TypeTag, Properties::ModelTraits>::numEq()>;

public:

    using type = SwitchablePrimaryVariables<PrimaryVariablesVector, int>;

};


template<class TypeTag>

struct VolumeVariables<TypeTag, TTag::ThreePThreeC>

{

private:

    using PV = GetPropType<TypeTag, Properties::PrimaryVariables>;

    using FSY = GetPropType<TypeTag, Properties::FluidSystem>;

    using FST = GetPropType<TypeTag, Properties::FluidState>;

    using SSY = GetPropType<TypeTag, Properties::SolidSystem>;

    using SST = GetPropType<TypeTag, Properties::SolidState>;

    using PT = typename GetPropType<TypeTag, Properties::SpatialParams>::PermeabilityType;

    using MT = GetPropType<TypeTag, Properties::ModelTraits>;

    using DT = GetPropType<TypeTag, Properties::MolecularDiffusionType>;

    using EDM = GetPropType<TypeTag, Properties::EffectiveDiffusivityModel>;


    using BaseTraits = ThreePVolumeVariablesTraits<PV, FSY, FST, SSY, SST, PT, MT>;

    template<class BaseTraits, class DT, class EDM>

    struct NCTraits : public BaseTraits

    {

        using DiffusionType = DT;

        using EffectiveDiffusivityModel = EDM;

    };


public:

    using type = ThreePThreeCVolumeVariables<NCTraits<BaseTraits, DT, EDM>>;

};


template<class TypeTag>

struct EffectiveDiffusivityModel<TypeTag, TTag::ThreePThreeC> { using type = DiffusivityMillingtonQuirk<GetPropType<TypeTag, Properties::Scalar>>; };


template<class TypeTag>

struct IOFields<TypeTag, TTag::ThreePThreeC> { using type = ThreePThreeCIOFields; };


template<class TypeTag>

struct UseMoles<TypeTag, TTag::ThreePThreeC> { static constexpr bool value = true; };


// Property values for isothermal model required for the general non-isothermal model


template<class TypeTag>

struct ModelTraits<TypeTag, TTag::ThreePThreeCNI>

{

private:

    using IsothermalTraits = GetPropType<TypeTag, Properties::BaseModelTraits>;

public:

    using type = PorousMediumFlowNIModelTraits<IsothermalTraits>;

};


template<class TypeTag>

struct VolumeVariables<TypeTag, TTag::ThreePThreeCNI>

{

private:

    using PV = GetPropType<TypeTag, Properties::PrimaryVariables>;

    using FSY = GetPropType<TypeTag, Properties::FluidSystem>;

    using FST = GetPropType<TypeTag, Properties::FluidState>;

    using SSY = GetPropType<TypeTag, Properties::SolidSystem>;

    using SST = GetPropType<TypeTag, Properties::SolidState>;

    using PT = typename GetPropType<TypeTag, Properties::SpatialParams>::PermeabilityType;

    using MT = GetPropType<TypeTag, Properties::ModelTraits>;

    using BaseTraits = ThreePVolumeVariablesTraits<PV, FSY, FST, SSY, SST, PT, MT>;


    using DT = GetPropType<TypeTag, Properties::MolecularDiffusionType>;

    using EDM = GetPropType<TypeTag, Properties::EffectiveDiffusivityModel>;

    using ETCM = GetPropType< TypeTag, Properties::ThermalConductivityModel>;

    template<class BaseTraits, class DT, class EDM, class ETCM>

    struct NCNITraits : public BaseTraits

    {

        using DiffusionType = DT;

        using EffectiveDiffusivityModel = EDM;

        using EffectiveThermalConductivityModel = ETCM;

    };

public:

    using type = ThreePThreeCVolumeVariables<NCNITraits<BaseTraits, DT, EDM, ETCM>>;

};


template<class TypeTag>

struct IOFields<TypeTag, TTag::ThreePThreeCNI> { using type = EnergyIOFields<ThreePThreeCIOFields>; };


template<class TypeTag>

struct ThermalConductivityModel<TypeTag, TTag::ThreePThreeCNI> { using type = ThermalConductivitySomerton<GetPropType<TypeTag, Properties::Scalar>>; };


} // end namespace Properties

} // end namespace Dumux


#endif

thermalconductivitysomerton3p.hh
Relation for the saturation-dependent effective thermal conductivity.

diffusivitymillingtonquirk.hh
Relation for the saturation-dependent effective diffusion coefficient.

compositional.hh
Represents all relevant thermodynamic quantities of a multi-phase, multi-component fluid system assum...

fv.hh
The base class for spatial parameters of multi-phase problems using a fully implicit discretization m...

switchableprimaryvariables.hh
A primary variable vector with a state to allow variable switches.

Dumux
Definition: adapt.hh:29

Dumux::GetPropType
typename Properties::Detail::GetPropImpl< TypeTag, Property >::type::type GetPropType
get the type alias defined in the property
Definition: propertysystem.hh:150

Dumux::Properties::PrimaryVariables
A vector of primary variables.
Definition: common/properties.hh:49

Dumux::Properties::ModelTraits
Traits class encapsulating model specifications.
Definition: common/properties.hh:53

Dumux::Properties::BaseModelTraits
Model traits to be used as a base for nonisothermal, mineralization ... models.
Definition: common/properties.hh:55

Dumux::Properties::IOFields
A class helping models to define input and output fields.
Definition: common/properties.hh:63

Dumux::Properties::LocalResidual
Definition: common/properties.hh:74

Dumux::Properties::UseMoles
Property whether to use moles or kg as amount unit for balance equations.
Definition: common/properties.hh:85

Dumux::Properties::ReplaceCompEqIdx
The component balance index that should be replaced by the total mass/mole balance.
Definition: common/properties.hh:87

Dumux::Properties::VolumeVariables
The secondary variables within a sub-control volume.
Definition: common/properties.hh:103

Dumux::Properties::FluidState
The type of the fluid state to use.
Definition: common/properties.hh:154

Dumux::Properties::EffectiveDiffusivityModel
The employed model for the computation of the effective diffusivity.
Definition: common/properties.hh:160

Dumux::Properties::ThermalConductivityModel
Model to be used for the calculation of the effective conductivity.
Definition: common/properties.hh:162

Dumux::Properties::UseConstraintSolver
Whether to use a contraint solver for computing the secondary variables.
Definition: common/properties.hh:169

Dumux::ThermalConductivitySomerton
Relation for the saturation-dependent effective thermal conductivity.
Definition: somerton.hh:60

Dumux::DiffusivityMillingtonQuirk
Relation for the saturation-dependent effective diffusion coefficient.
Definition: diffusivitymillingtonquirk.hh:52

Dumux::CompositionalFluidState
Represents all relevant thermodynamic quantities of a multi-phase, multi-component fluid system assum...
Definition: compositional.hh:47

Dumux::ThreePVolumeVariablesTraits
Traits class for the two-phase model.
Definition: porousmediumflow/3p/model.hh:106

Dumux::ThreePThreeCIndices
The indices for the isothermal three-phase three-component model.
Definition: porousmediumflow/3p3c/indices.hh:35

Dumux::ThreePThreeCIOFields
Adds I/O fields specific to the three-phase three-component model.
Definition: porousmediumflow/3p3c/iofields.hh:38

Dumux::ThreePThreeCLocalResidual
Element-wise calculation of the Jacobian matrix for problems using the three-phase three-component fu...
Definition: porousmediumflow/3p3c/localresidual.hh:42

Dumux::ThreePThreeCModelTraits
Specifies a number properties of two-phase models.
Definition: porousmediumflow/3p3c/model.hh:110

Dumux::ThreePThreeCModelTraits::useMoles
static constexpr bool useMoles()
Definition: porousmediumflow/3p3c/model.hh:122

Dumux::ThreePThreeCModelTraits::numFluidComponents
static constexpr int numFluidComponents()
Definition: porousmediumflow/3p3c/model.hh:115

Dumux::ThreePThreeCModelTraits::numFluidPhases
static constexpr int numFluidPhases()
Definition: porousmediumflow/3p3c/model.hh:114

Dumux::ThreePThreeCModelTraits::enableMolecularDiffusion
static constexpr bool enableMolecularDiffusion()
Definition: porousmediumflow/3p3c/model.hh:118

Dumux::ThreePThreeCModelTraits::useConstraintSolver
static constexpr bool useConstraintSolver()
Definition: porousmediumflow/3p3c/model.hh:121

Dumux::ThreePThreeCModelTraits::enableAdvection
static constexpr bool enableAdvection()
Definition: porousmediumflow/3p3c/model.hh:117

Dumux::ThreePThreeCModelTraits::numEq
static constexpr int numEq()
Definition: porousmediumflow/3p3c/model.hh:113

Dumux::ThreePThreeCModelTraits::enableEnergyBalance
static constexpr bool enableEnergyBalance()
Definition: porousmediumflow/3p3c/model.hh:119

Dumux::Properties::TTag::ThreePThreeC
The type tags for the isothermal three-phase three-component model.
Definition: porousmediumflow/3p3c/model.hh:129

Dumux::Properties::TTag::ThreePThreeC::InheritsFrom
std::tuple< PorousMediumFlow > InheritsFrom
Definition: porousmediumflow/3p3c/model.hh:129

Dumux::Properties::TTag::ThreePThreeCNI
The type tags for the non-isothermal three-phase three-component model.
Definition: porousmediumflow/3p3c/model.hh:131

Dumux::Properties::TTag::ThreePThreeCNI::InheritsFrom
std::tuple< ThreePThreeC > InheritsFrom
Definition: porousmediumflow/3p3c/model.hh:131

Dumux::Properties::ModelTraits< TypeTag, TTag::ThreePThreeC >::type
GetPropType< TypeTag, Properties::BaseModelTraits > type
Definition: porousmediumflow/3p3c/model.hh:150

Dumux::ThreePThreeCVolumeVariables
Contains the quantities which are are constant within a finite volume in the three-phase three-compon...
Definition: porousmediumflow/3p3c/volumevariables.hh:62

Dumux::SwitchablePrimaryVariables
A primary variable vector with a state to allow variable switches.
Definition: switchableprimaryvariables.hh:39

Dumux::EnergyIOFields
Adds I/O fields specific to non-isothermal models.
Definition: porousmediumflow/nonisothermal/iofields.hh:39

Dumux::PorousMediumFlowNIModelTraits
Specifies a number properties of non-isothermal porous medium flow models based on the specifics of a...
Definition: porousmediumflow/nonisothermal/model.hh:70

properties.hh
Declares all properties used in Dumux.

properties.hh
Defines a type tag and some properties for models using the box scheme.

model.hh
Adaption of the fully implicit scheme to the three-phase flow model.

model.hh
The implicit non-isothermal model.

iofields.hh
Adds I/O fields specific to non-isothermal models.

iofields.hh
Adds I/O fields specific to the tracer model.

localresidual.hh
Element-wise calculation of the local residual for problems using fully implicit tracer model.

volumevariables.hh
Base class for the model specific class which provides access to all volume averaged quantities.

indices.hh
Defines the indices used by the non-isothermal two-phase two-component model.

indices.hh
Defines the primary variable and equation indices used by the isothermal tracer model.