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// -*- mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*-

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#ifndef DUMUX_H2O_N2_FLUID_SYSTEM_KINETIC_HH

#define DUMUX_H2O_N2_FLUID_SYSTEM_KINETIC_HH


#include <dumux/material/components/simpleh2o.hh>

#include <dumux/material/components/h2o.hh>

#include <dumux/material/components/n2.hh>

#include <dumux/material/components/tabulatedcomponent.hh>

#include <dumux/material/idealgas.hh>


#include <dumux/material/binarycoefficients/h2o_n2.hh>


#include <dumux/material/fluidsystems/base.hh>

#include <dumux/material/fluidsystems/h2on2.hh>


namespace Dumux {

namespace FluidSystems {


template <class Scalar, class Policy = H2ON2DefaultPolicy<>>

class H2ON2Kinetic :

    public FluidSystems::H2ON2<Scalar, Policy>

{

private:

    using ParentType = FluidSystems::H2ON2<Scalar, Policy>;


    using IdealGas = Dumux::IdealGas<Scalar>;

public:

    using ParameterCache = NullParameterCache;


    template <class FluidState>

    static Scalar componentEnthalpy(FluidState &fluidState,

                                    const int phaseIdx,

                                    const int compIdx)

    {

        const Scalar T = fluidState.temperature(phaseIdx);

        const Scalar p = fluidState.pressure(phaseIdx);


        switch (phaseIdx){

            case ParentType::liquidPhaseIdx:

                switch(compIdx){

                case ParentType::H2OIdx:

                    return ParentType::H2O::liquidEnthalpy(T, p);

                case ParentType::N2Idx:

                    return ParentType::N2::gasEnthalpy(T, p); // TODO: should be liquid enthalpy

                default:

                    DUNE_THROW(Dune::NotImplemented,

                               "wrong index");

                    break;

                }// end switch compIdx

                break;

            case ParentType::gasPhaseIdx:

                switch(compIdx){

                case ParentType::H2OIdx:

                    return ParentType::H2O::gasEnthalpy(T, p);

                case ParentType::N2Idx:

                    return ParentType::N2::gasEnthalpy(T, p);

                default:

                    DUNE_THROW(Dune::NotImplemented,

                               "wrong index");

                    break;

                }// end switch compIdx

                break;

            default:

                DUNE_THROW(Dune::NotImplemented,

                           "wrong index");

                break;

        }// end switch phaseIdx

    }


    static Scalar henry(Scalar temperature)

    {

        return BinaryCoeff::H2O_N2::henry(temperature);

    }


    static Scalar vaporPressure(Scalar temperature)

    {

        return ParentType::H2O::vaporPressure(temperature);

    }

};

} // end namespace Fluidsystem

} // end namespace Dumux


#endif

h2o_n2.hh
Binary coefficients for water and nitrogen.

h2o.hh
Material properties of pure water .

simpleh2o.hh
A much simpler (and thus potentially less buggy) version of pure water.

tabulatedcomponent.hh
Tabulates all thermodynamic properties of a given untabulated chemical species.

n2.hh
Properties of pure molecular nitrogen .

h2on2.hh

idealgas.hh
Relations valid for an ideal gas.

Dumux
Definition: adapt.hh:29

Dumux::IOName::temperature
std::string temperature() noexcept
I/O name of temperature for equilibrium models.
Definition: name.hh:51

Dumux::BinaryCoeff::H2O_N2::henry
static Scalar henry(Scalar temperature)
Henry coefficient  for molecular nitrogen in liquid water.
Definition: h2o_n2.hh:48

Dumux::Components::N2::gasEnthalpy
static const Scalar gasEnthalpy(Scalar temperature, Scalar pressure)
Specific enthalpy  of pure nitrogen gas.
Definition: n2.hh:176

Dumux::Components::TabulatedComponent::gasEnthalpy
static const Scalar gasEnthalpy(Scalar temperature, Scalar pressure)
Specific enthalpy of the gas .
Definition: tabulatedcomponent.hh:238

Dumux::Components::TabulatedComponent::liquidEnthalpy
static const Scalar liquidEnthalpy(Scalar temperature, Scalar pressure)
Specific enthalpy of the liquid .
Definition: tabulatedcomponent.hh:265

Dumux::Components::TabulatedComponent::vaporPressure
static Scalar vaporPressure(Scalar T)
The vapor pressure in  of the component at a given temperature.
Definition: tabulatedcomponent.hh:211

Dumux::FluidSystems::Base< Scalar, H2ON2< Scalar, H2ON2DefaultPolicy<> > >::Scalar
Scalar Scalar
export the scalar type
Definition: fluidsystems/base.hh:48

Dumux::FluidSystems::H2ON2
A two-phase fluid system with two components water  Nitrogen  for non-equilibrium models.
Definition: h2on2.hh:69

Dumux::FluidSystems::H2ON2::liquidPhaseIdx
static constexpr int liquidPhaseIdx
index of the liquid phase
Definition: h2on2.hh:85

Dumux::FluidSystems::H2ON2::N2Idx
static constexpr int N2Idx
Definition: h2on2.hh:91

Dumux::FluidSystems::H2ON2::gasPhaseIdx
static constexpr int gasPhaseIdx
index of the gas phase
Definition: h2on2.hh:86

Dumux::FluidSystems::H2ON2::H2OIdx
static constexpr int H2OIdx
Definition: h2on2.hh:90

Dumux::FluidSystems::H2ON2Kinetic
A two-phase fluid system with two components water  Nitrogen  for non-equilibrium models....
Definition: h2on2kinetic.hh:49

Dumux::FluidSystems::H2ON2Kinetic::vaporPressure
static Scalar vaporPressure(Scalar temperature)
Return the vapor pressure of a component above one phase. .
Definition: h2on2kinetic.hh:117

Dumux::FluidSystems::H2ON2Kinetic::henry
static Scalar henry(Scalar temperature)
Return the Henry constant for a component in a phase. .
Definition: h2on2kinetic.hh:108

Dumux::FluidSystems::H2ON2Kinetic::componentEnthalpy
static Scalar componentEnthalpy(FluidState &fluidState, const int phaseIdx, const int compIdx)
Return the enthalpy of a component in a phase.
Definition: h2on2kinetic.hh:65

Dumux::NullParameterCache
The a parameter cache which does nothing.
Definition: nullparametercache.hh:34

Dumux::IdealGas
Relations valid for an ideal gas.
Definition: idealgas.hh:37

base.hh
Fluid system base class.