releases/3.8/ch4_8hh_source.html

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

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

//

// SPDX-FileCopyrightInfo: Copyright © DuMux Project contributors, see AUTHORS.md in root folder

// SPDX-License-Identifier: GPL-3.0-or-later

//

#ifndef DUMUX_CH4_HH

#define DUMUX_CH4_HH


#include <dumux/material/idealgas.hh>


#include <cmath>


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

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


namespace Dumux {

namespace Components {


template <class Scalar>

class CH4

: public Components::Base<Scalar, CH4<Scalar> >

, public Components::Gas<Scalar, CH4<Scalar> >

{

    using IdealGas = Dumux::IdealGas<Scalar>;


public:

    static std::string name()

    { return "CH4"; }


    static constexpr Scalar molarMass()

    { return 16.043e-3; /* [kg/mol] */}


    static Scalar criticalTemperature()

    { return 190.4; /* [K] */ }


    static Scalar criticalPressure()

    { return 46e5; /* [Pa] */ }


    static Scalar tripleTemperature()

    { return 90.7; /* [K] */ }


    static Scalar triplePressure()

    { return 0; /* [Pa] */ }


    static Scalar vaporPressure(Scalar T)

    { DUNE_THROW(Dune::NotImplemented, "vaporPressure for CH4"); }


    static constexpr bool gasIsCompressible()

    { return true; }


    static Scalar gasDensity(Scalar temperature, Scalar pressure)

    {

        // Assume an ideal gas

        return IdealGas::density(molarMass(), temperature, pressure);

    }


    static Scalar gasMolarDensity(Scalar temperature, Scalar pressure)

    { return IdealGas::molarDensity(temperature, pressure); }


    static constexpr bool gasIsIdeal()

    { return true; }


    static Scalar gasPressure(Scalar temperature, Scalar density)

    {

        // Assume an ideal gas

        return IdealGas::pressure(temperature, density/molarMass());

    }


    static const Scalar gasEnthalpy(Scalar temperature,

                                    Scalar pressure)

    {

        return gasHeatCapacity(temperature, pressure) * temperature;

    }


    static Scalar gasHeatCapacity(Scalar T,

                                  Scalar pressure)

    {

        // method of Joback

        const Scalar cpVapA = 19.25;

        const Scalar cpVapB = 0.05213;

        const Scalar cpVapC = 1.197e-5;

        const Scalar cpVapD = -1.132e-8;


        return

            1/molarMass()* // conversion from [J/(mol*K)] to [J/(kg*K)]

            (cpVapA + T*

              (cpVapB/2 + T*

                (cpVapC/3 + T*

                  (cpVapD/4))));

    }


    static const Scalar gasInternalEnergy(Scalar temperature,

                                          Scalar pressure)

    {


        return

            gasEnthalpy(temperature, pressure) -

            1/molarMass()* // conversion from [J/(mol K)] to [J/(kg K)]

            IdealGas::R*temperature; // = pressure * spec. volume for an ideal gas

    }


    static Scalar gasViscosity(Scalar temperature, Scalar pressure)

    {

        const Scalar Tc = criticalTemperature();

        const Scalar Vc = 98.6; // critical specific volume [cm^3/mol]

        const Scalar omega = 0.011; // accentric factor

        const Scalar M = molarMass() * 1e3; // molar mas [g/mol]

        const Scalar dipole = 0.0; // dipole moment [debye]


        using std::sqrt;

        Scalar mu_r4 = 131.3 * dipole / sqrt(Vc * Tc);

        mu_r4 *= mu_r4;

        mu_r4 *= mu_r4;


        using std::exp;

        using std::pow;

        Scalar Fc = 1 - 0.2756*omega + 0.059035*mu_r4;

        Scalar Tstar = 1.2593 * temperature/Tc;

        Scalar Omega_v =

            1.16145*pow(Tstar, -0.14874) +

            0.52487*exp(- 0.77320*Tstar) +

            2.16178*exp(- 2.43787*Tstar);

        Scalar mu = 40.785*Fc*sqrt(M*temperature)/(pow(Vc, 2./3)*Omega_v);


        // conversion from micro poise to Pa s

        return mu/1e6 / 10;

    }

};


} // end namespace Components


} // end namespace Dumux


#endif

Dumux::Components::Base
Base class for all components Components provide the thermodynamic relations for the liquid,...
Definition: components/base.hh:47

Dumux::Components::Base< Scalar, CH4< Scalar > >::Scalar
Scalar Scalar
export the scalar type used by the component
Definition: components/base.hh:51

Dumux::Components::CH4
Properties of pure molecular methane .
Definition: ch4.hh:34

Dumux::Components::CH4::gasPressure
static Scalar gasPressure(Scalar temperature, Scalar density)
The pressure of gaseous  in  at a given density and temperature.
Definition: ch4.hh:122

Dumux::Components::CH4::triplePressure
static Scalar triplePressure()
Returns the pressure  at molecular methane's triple point.
Definition: ch4.hh:71

Dumux::Components::CH4::gasHeatCapacity
static Scalar gasHeatCapacity(Scalar T, Scalar pressure)
Specific isobaric heat capacity  of pure methane gas.
Definition: ch4.hh:149

Dumux::Components::CH4::gasViscosity
static Scalar gasViscosity(Scalar temperature, Scalar pressure)
The dynamic viscosity  of  at a given pressure and temperature.
Definition: ch4.hh:203

Dumux::Components::CH4::gasDensity
static Scalar gasDensity(Scalar temperature, Scalar pressure)
The density  of  gas at a given pressure and temperature.
Definition: ch4.hh:95

Dumux::Components::CH4::gasMolarDensity
static Scalar gasMolarDensity(Scalar temperature, Scalar pressure)
The molar density of  gas in , depending on pressure and temperature.
Definition: ch4.hh:107

Dumux::Components::CH4::vaporPressure
static Scalar vaporPressure(Scalar T)
The vapor pressure in  of pure molecular methane at a given temperature.
Definition: ch4.hh:80

Dumux::Components::CH4::gasEnthalpy
static const Scalar gasEnthalpy(Scalar temperature, Scalar pressure)
Specific enthalpy  of pure methane gas.
Definition: ch4.hh:134

Dumux::Components::CH4::criticalTemperature
static Scalar criticalTemperature()
Returns the critical temperature  of molecular methane.
Definition: ch4.hh:53

Dumux::Components::CH4::name
static std::string name()
A human readable name for methane.
Definition: ch4.hh:41

Dumux::Components::CH4::criticalPressure
static Scalar criticalPressure()
Returns the critical pressure  of molecular methane.
Definition: ch4.hh:59

Dumux::Components::CH4::molarMass
static constexpr Scalar molarMass()
The molar mass in  of molecular methane.
Definition: ch4.hh:47

Dumux::Components::CH4::gasIsIdeal
static constexpr bool gasIsIdeal()
Returns true if the gas phase is assumed to be ideal.
Definition: ch4.hh:113

Dumux::Components::CH4::tripleTemperature
static Scalar tripleTemperature()
Returns the temperature  at molecular methane's triple point.
Definition: ch4.hh:65

Dumux::Components::CH4::gasIsCompressible
static constexpr bool gasIsCompressible()
Returns true if the gas phase is assumed to be compressible.
Definition: ch4.hh:86

Dumux::Components::CH4::gasInternalEnergy
static const Scalar gasInternalEnergy(Scalar temperature, Scalar pressure)
Specific enthalpy  of pure methane gas.
Definition: ch4.hh:180

Dumux::Components::Gas
Interface for components that have a gas state.
Definition: gas.hh:29

Dumux::IdealGas
Relations valid for an ideal gas.
Definition: idealgas.hh:25

Dumux::IdealGas::pressure
static constexpr Scalar pressure(Scalar temperature, Scalar rhoMolar)
The pressure of the gas in , depending on the molar density and temperature.
Definition: idealgas.hh:48

Dumux::IdealGas::R
static constexpr Scalar R
The ideal gas constant .
Definition: idealgas.hh:28

Dumux::IdealGas::density
static constexpr Scalar density(Scalar avgMolarMass, Scalar temperature, Scalar pressure)
The density of the gas in , depending on pressure, temperature and average molar mass of the gas.
Definition: idealgas.hh:37

Dumux::IdealGas::molarDensity
static constexpr Scalar molarDensity(Scalar temperature, Scalar pressure)
The molar density of the gas , depending on pressure and temperature.
Definition: idealgas.hh:58

base.hh
Base class for all components Components provide the thermodynamic relations for the liquid,...

gas.hh
Interface for components that have a gas state.

idealgas.hh
Relations valid for an ideal gas.

Dumux::IOName::temperature
std::string temperature() noexcept
I/O name of temperature for equilibrium models.
Definition: name.hh:39

Dumux::IOName::pressure
std::string pressure(int phaseIdx) noexcept
I/O name of pressure for multiphase systems.
Definition: name.hh:22

Dumux::IOName::density
std::string density(int phaseIdx) noexcept
I/O name of density for multiphase systems.
Definition: name.hh:53

Dumux
Definition: adapt.hh:17