releases/3.2/a01136_source.html

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

// vi: set et ts=4 sw=4 sts=4:

/*****************************************************************************

 *   See the file COPYING for full copying permissions.                      *

 *                                                                           *

 *   This program is free software: you can redistribute it and/or modify    *

 *   it under the terms of the GNU General Public License as published by    *

 *   the Free Software Foundation, either version 3 of the License, or       *

 *   (at your option) any later version.                                     *

 *                                                                           *

 *   This program is distributed in the hope that it will be useful,         *

 *   but WITHOUT ANY WARRANTY; without even the implied warranty of          *

 *   MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the            *

 *   GNU General Public License for more details.                            *

 *                                                                           *

 *   You should have received a copy of the GNU General Public License       *

 *   along with this program.  If not, see <http://www.gnu.org/licenses/>.   *

 *****************************************************************************/

#ifndef DUMUX_IMMISCIBLE_FLUID_STATE_HH

#define DUMUX_IMMISCIBLE_FLUID_STATE_HH


#include <limits>

#include <type_traits>


namespace Dumux {


template <class ScalarType, class FluidSystem>

class ImmiscibleFluidState

{

public:

    static constexpr int numPhases = FluidSystem::numPhases;

    static constexpr int numComponents = FluidSystem::numComponents;


    using Scalar = ScalarType;


    ImmiscibleFluidState() = default;


    template <class FluidState, typename std::enable_if_t<!std::is_same<FluidState, ImmiscibleFluidState>::value, int> = 0>

    ImmiscibleFluidState(const FluidState &fs)

    { assign(fs); }


    // copy and move constructor / assignment operator

    ImmiscibleFluidState(const ImmiscibleFluidState &fs) = default;

    ImmiscibleFluidState(ImmiscibleFluidState &&fs) = default;

    ImmiscibleFluidState& operator=(const ImmiscibleFluidState &fs) = default;

    ImmiscibleFluidState& operator=(ImmiscibleFluidState &&fs) = default;


    /*****************************************************

     * Generic access to fluid properties (No assumptions

     * on thermodynamic equilibrium required)

     *****************************************************/


    int wettingPhase() const { return wPhaseIdx_; }


    Scalar saturation(int phaseIdx) const

    { return saturation_[phaseIdx]; }


    Scalar moleFraction(int phaseIdx, int compIdx) const

    { return (phaseIdx == compIdx) ? 1.0 : 0.0; }


    Scalar massFraction(int phaseIdx, int compIdx) const

    { return (phaseIdx == compIdx) ? 1.0 : 0.0; }


    Scalar averageMolarMass(int phaseIdx) const

    { return FluidSystem::molarMass(/*compIdx=*/phaseIdx); }


    Scalar molarity(int phaseIdx, int compIdx) const

    { return molarDensity(phaseIdx)*moleFraction(phaseIdx, compIdx); }


    Scalar fugacity(int phaseIdx, int compIdx) const

    { return phaseIdx == compIdx ? pressure(phaseIdx) : 0.0; }


    Scalar fugacityCoefficient(int phaseIdx, int compIdx) const

    { return phaseIdx == compIdx ? 1.0 : std::numeric_limits<Scalar>::infinity(); }


    Scalar partialPressure(int phaseIdx, int compIdx) const

    { return phaseIdx == compIdx ? pressure(phaseIdx) : 0.0; }


    Scalar molarVolume(int phaseIdx) const

    { return 1.0/molarDensity(phaseIdx); }


    Scalar density(int phaseIdx) const

    { return density_[phaseIdx]; }


    Scalar molarDensity(int phaseIdx) const

    { return molarDensity_[phaseIdx]; }


    Scalar temperature(int phaseIdx) const

    { return temperature_[phaseIdx]; }


    Scalar pressure(int phaseIdx) const

    { return pressure_[phaseIdx]; }


    Scalar enthalpy(int phaseIdx) const

    { return enthalpy_[phaseIdx]; }


    Scalar internalEnergy(int phaseIdx) const

    { return enthalpy_[phaseIdx] - pressure(phaseIdx)/density(phaseIdx); }


    Scalar viscosity(int phaseIdx) const

    { return viscosity_[phaseIdx]; }


    /*****************************************************

     * Access to fluid properties which only make sense

     * if assuming thermodynamic equilibrium

     *****************************************************/


    Scalar temperature() const

    { return temperature_[0]; }


    Scalar fugacity(int compIdx) const

    { return fugacity(0, compIdx); }


    /*****************************************************

     * Setter methods. Note that these are not part of the

     * generic FluidState interface but specific for each

     * implementation...

     *****************************************************/


    template <class FluidState>

    void assign(const FluidState &fs)

    {

        for (int phaseIdx = 0; phaseIdx < numPhases; ++phaseIdx)

        {

            pressure_[phaseIdx] = fs.pressure(phaseIdx);

            saturation_[phaseIdx] = fs.saturation(phaseIdx);

            density_[phaseIdx] = fs.density(phaseIdx);

            molarDensity_[phaseIdx] = fs.molarDensity(phaseIdx);

            enthalpy_[phaseIdx] = fs.enthalpy(phaseIdx);

            viscosity_[phaseIdx] = fs.viscosity(phaseIdx);

            temperature_[phaseIdx] = fs.temperature(0);

        }

    }


    void setTemperature(int phaseIdx, Scalar value)

    { temperature_[phaseIdx] = value; }


    void setTemperature(Scalar value)

    {

        for (int phaseIdx = 0; phaseIdx < numPhases; ++phaseIdx)

            temperature_[phaseIdx] = value;

    }


    void setPressure(int phaseIdx, Scalar value)

    { pressure_[phaseIdx] = value; }


    void setSaturation(int phaseIdx, Scalar value)

    { saturation_[phaseIdx] = value; }


    void setDensity(int phaseIdx, Scalar value)

    { density_[phaseIdx] = value; }


    void setMolarDensity(int phaseIdx, Scalar value)

    { molarDensity_[phaseIdx] = value; }


    void setEnthalpy(int phaseIdx, Scalar value)

    { enthalpy_[phaseIdx] = value; }


    void setViscosity(int phaseIdx, Scalar value)

    { viscosity_[phaseIdx] = value; }


    void setWettingPhase(int phaseIdx)

    { wPhaseIdx_ = phaseIdx; }

protected:

    Scalar pressure_[numPhases] = {};

    Scalar saturation_[numPhases] = {};

    Scalar density_[numPhases] = {};

    Scalar molarDensity_[numPhases] = {};

    Scalar enthalpy_[numPhases] = {};

    Scalar viscosity_[numPhases] = {};

    Scalar temperature_[numPhases] = {};


    int wPhaseIdx_{0};

};


} // end namespace Dumux


#endif

Dumux
Definition: adapt.hh:29

Dumux::ImmiscibleFluidState
Represents all relevant thermodynamic quantities of a multi-phase fluid system assuming immiscibility...
Definition: immiscible.hh:42

Dumux::ImmiscibleFluidState::ImmiscibleFluidState
ImmiscibleFluidState(ImmiscibleFluidState &&fs)=default

Dumux::ImmiscibleFluidState::temperature
Scalar temperature() const
The temperature within the domain .
Definition: immiscible.hh:250

Dumux::ImmiscibleFluidState::averageMolarMass
Scalar averageMolarMass(int phaseIdx) const
The average molar mass  of phase  in .
Definition: immiscible.hh:120

Dumux::ImmiscibleFluidState::enthalpy
Scalar enthalpy(int phaseIdx) const
The specific enthalpy  of a fluid phase  in .
Definition: immiscible.hh:223

Dumux::ImmiscibleFluidState::molarDensity
Scalar molarDensity(int phaseIdx) const
The molar density  of a fluid phase  in .
Definition: immiscible.hh:205

Dumux::ImmiscibleFluidState::assign
void assign(const FluidState &fs)
Retrieve all parameters from an arbitrary fluid state.
Definition: immiscible.hh:278

Dumux::ImmiscibleFluidState::fugacityCoefficient
Scalar fugacityCoefficient(int phaseIdx, int compIdx) const
The fugacity coefficient  of component  in fluid phase  in .
Definition: immiscible.hh:169

Dumux::ImmiscibleFluidState::temperature_
Scalar temperature_[numPhases]
Definition: immiscible.hh:356

Dumux::ImmiscibleFluidState::numComponents
static constexpr int numComponents
Definition: immiscible.hh:45

Dumux::ImmiscibleFluidState::ImmiscibleFluidState
ImmiscibleFluidState(const ImmiscibleFluidState &fs)=default

Dumux::ImmiscibleFluidState::partialPressure
Scalar partialPressure(int phaseIdx, int compIdx) const
The partial pressure of a component in a phase .
Definition: immiscible.hh:179

Dumux::ImmiscibleFluidState::saturation
Scalar saturation(int phaseIdx) const
Returns the saturation  of a fluid phase  in .
Definition: immiscible.hh:83

Dumux::ImmiscibleFluidState::moleFraction
Scalar moleFraction(int phaseIdx, int compIdx) const
Returns the molar fraction  of the component  in fluid phase  in .
Definition: immiscible.hh:95

Dumux::ImmiscibleFluidState::enthalpy_
Scalar enthalpy_[numPhases]
Definition: immiscible.hh:354

Dumux::ImmiscibleFluidState::ImmiscibleFluidState
ImmiscibleFluidState(const FluidState &fs)
copy constructor from arbitrary fluid state
Definition: immiscible.hh:55

Dumux::ImmiscibleFluidState::operator=
ImmiscibleFluidState & operator=(const ImmiscibleFluidState &fs)=default

Dumux::ImmiscibleFluidState::pressure
Scalar pressure(int phaseIdx) const
The pressure  of a fluid phase  in .
Definition: immiscible.hh:217

Dumux::ImmiscibleFluidState::viscosity
Scalar viscosity(int phaseIdx) const
The dynamic viscosity  of fluid phase  in .
Definition: immiscible.hh:239

Dumux::ImmiscibleFluidState::molarVolume
Scalar molarVolume(int phaseIdx) const
The molar volume  of a fluid phase  in .
Definition: immiscible.hh:187

Dumux::ImmiscibleFluidState::fugacity
Scalar fugacity(int phaseIdx, int compIdx) const
The fugacity  of component  in fluid phase  in .
Definition: immiscible.hh:158

Dumux::ImmiscibleFluidState::Scalar
ScalarType Scalar
export the scalar type
Definition: immiscible.hh:48

Dumux::ImmiscibleFluidState::density_
Scalar density_[numPhases]
Definition: immiscible.hh:352

Dumux::ImmiscibleFluidState::setDensity
void setDensity(int phaseIdx, Scalar value)
Set the density of a phase .
Definition: immiscible.hh:322

Dumux::ImmiscibleFluidState::wettingPhase
int wettingPhase() const
Returns the index of the most wetting phase in the fluid-solid configuration (for porous medium syste...
Definition: immiscible.hh:73

Dumux::ImmiscibleFluidState::numPhases
static constexpr int numPhases
Definition: immiscible.hh:44

Dumux::ImmiscibleFluidState::massFraction
Scalar massFraction(int phaseIdx, int compIdx) const
Returns the mass fraction  of component  in fluid phase  in .
Definition: immiscible.hh:106

Dumux::ImmiscibleFluidState::molarity
Scalar molarity(int phaseIdx, int compIdx) const
The molar concentration  of component  in fluid phase  in .
Definition: immiscible.hh:132

Dumux::ImmiscibleFluidState::setTemperature
void setTemperature(int phaseIdx, Scalar value)
Set the temperature  of a fluid phase.
Definition: immiscible.hh:295

Dumux::ImmiscibleFluidState::internalEnergy
Scalar internalEnergy(int phaseIdx) const
The specific internal energy  of a fluid phase  in .
Definition: immiscible.hh:233

Dumux::ImmiscibleFluidState::viscosity_
Scalar viscosity_[numPhases]
Definition: immiscible.hh:355

Dumux::ImmiscibleFluidState::saturation_
Scalar saturation_[numPhases]
Definition: immiscible.hh:351

Dumux::ImmiscibleFluidState::wPhaseIdx_
int wPhaseIdx_
Definition: immiscible.hh:358

Dumux::ImmiscibleFluidState::pressure_
Scalar pressure_[numPhases]
zero-initialize all data members with braces syntax
Definition: immiscible.hh:350

Dumux::ImmiscibleFluidState::setSaturation
void setSaturation(int phaseIdx, Scalar value)
Set the saturation of a phase .
Definition: immiscible.hh:316

Dumux::ImmiscibleFluidState::fugacity
Scalar fugacity(int compIdx) const
The fugacity of a component .
Definition: immiscible.hh:258

Dumux::ImmiscibleFluidState::molarDensity_
Scalar molarDensity_[numPhases]
Definition: immiscible.hh:353

Dumux::ImmiscibleFluidState::temperature
Scalar temperature(int phaseIdx) const
The absolute temperature  of a fluid phase  in .
Definition: immiscible.hh:211

Dumux::ImmiscibleFluidState::operator=
ImmiscibleFluidState & operator=(ImmiscibleFluidState &&fs)=default

Dumux::ImmiscibleFluidState::setWettingPhase
void setWettingPhase(int phaseIdx)
Set the index of the most wetting phase.
Definition: immiscible.hh:346

Dumux::ImmiscibleFluidState::setMolarDensity
void setMolarDensity(int phaseIdx, Scalar value)
Set the molar density of a phase .
Definition: immiscible.hh:328

Dumux::ImmiscibleFluidState::ImmiscibleFluidState
ImmiscibleFluidState()=default
default constructor

Dumux::ImmiscibleFluidState::setViscosity
void setViscosity(int phaseIdx, Scalar value)
Set the dynamic viscosity of a phase .
Definition: immiscible.hh:340

Dumux::ImmiscibleFluidState::setEnthalpy
void setEnthalpy(int phaseIdx, Scalar value)
Set the specific enthalpy of a phase .
Definition: immiscible.hh:334

Dumux::ImmiscibleFluidState::setTemperature
void setTemperature(Scalar value)
Set the temperature  of a fluid phase.
Definition: immiscible.hh:301

Dumux::ImmiscibleFluidState::setPressure
void setPressure(int phaseIdx, Scalar value)
Set the fluid pressure of a phase .
Definition: immiscible.hh:310

Dumux::ImmiscibleFluidState::density
Scalar density(int phaseIdx) const
The mass density  of the fluid phase  in .
Definition: immiscible.hh:194