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Component.hpp
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1// -*- mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*-
2// vi: set et ts=4 sw=4 sts=4:
3/*
4 This file is part of the Open Porous Media project (OPM).
5
6 OPM is free software: you can redistribute it and/or modify
7 it under the terms of the GNU General Public License as published by
8 the Free Software Foundation, either version 2 of the License, or
9 (at your option) any later version.
10
11 OPM is distributed in the hope that it will be useful,
12 but WITHOUT ANY WARRANTY; without even the implied warranty of
13 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
14 GNU General Public License for more details.
15
16 You should have received a copy of the GNU General Public License
17 along with OPM. If not, see <http://www.gnu.org/licenses/>.
18
19 Consult the COPYING file in the top-level source directory of this
20 module for the precise wording of the license and the list of
21 copyright holders.
22*/
27#ifndef OPM_COMPONENT_HPP
28#define OPM_COMPONENT_HPP
29
30#include <stdexcept>
31#include <string_view>
32
33namespace Opm {
34
42template <class ScalarT, class Implementation>
44{
45public:
46 typedef ScalarT Scalar;
47
48 static const bool isTabulated = false;
49
62 static void init(Scalar /* tempMin */, Scalar /* tempMax */, unsigned /* nTemp */,
63 Scalar /* pressMin */, Scalar /* pressMax */, unsigned /* nPress */)
64 { }
65
69 static bool gasIsCompressible()
70 { throw std::runtime_error("Not implemented: Component::gasIsCompressible()"); }
71
75 static bool gasIsIdeal()
76 { throw std::runtime_error("Not implemented: Component::gasIsIdeal()"); }
77
82 { throw std::runtime_error("Not implemented: Component::liquidIsCompressible()"); }
83
87 static std::string_view name()
88 { throw std::runtime_error("Not implemented: Component::name()"); }
89
93 static Scalar molarMass()
94 { throw std::runtime_error("Not implemented: Component::molarMass()"); }
95
99 static Scalar criticalTemperature()
100 { throw std::runtime_error("Not implemented: Component::criticalTemperature()"); }
101
105 static Scalar criticalPressure()
106 { throw std::runtime_error("Not implemented: Component::criticalPressure()"); }
107
108
112 static Scalar acentricFactor()
113 { throw std::runtime_error("Not implemented: acentricFactor of the component"); }
114
118 static Scalar criticalVolume()
119 { throw std::runtime_error("Not implemented: criticalVolume of the compoenent"); }
120
124 static Scalar tripleTemperature()
125 { throw std::runtime_error("Not implemented: Component::tripleTemperature()"); }
126
130 static Scalar triplePressure()
131 { throw std::runtime_error("Not implemented: Component::triplePressure()"); }
132
139 template <class Evaluation>
140 static Evaluation vaporPressure(const Evaluation& /* temperature */)
141 { throw std::runtime_error("Not implemented: Component::vaporPressure()"); }
142
149 template <class Evaluation>
150 static Evaluation gasDensity(const Evaluation& /* temperature */, const Evaluation& /* pressure */)
151 { throw std::runtime_error("Not implemented: Component::gasDensity()"); }
152
159 template <class Evaluation>
160 static Evaluation liquidDensity(const Evaluation& /* temperature */, const Evaluation& /* pressure */)
161 { throw std::runtime_error("Not implemented: Component::liquidDensity()"); }
162
169 template <class Evaluation>
170 static Evaluation gasEnthalpy(const Evaluation& /* temperature */, const Evaluation& /* pressure */)
171 { throw std::runtime_error("Not implemented: Component::gasEnthalpy()"); }
172
179 template <class Evaluation>
180 static Evaluation liquidEnthalpy(const Evaluation& /* temperature */, const Evaluation& /* pressure */)
181 { throw std::runtime_error("Not implemented: Component::liquidEnthalpy()"); }
182
189 template <class Evaluation>
190 static Evaluation gasInternalEnergy(const Evaluation& /* temperature */, const Evaluation& /* pressure */)
191 { throw std::runtime_error("Not implemented: Component::gasInternalEnergy()"); }
192
199 template <class Evaluation>
200 static Evaluation liquidInternalEnergy(const Evaluation& /* temperature */, const Evaluation& /* pressure */)
201 { throw std::runtime_error("Not implemented: Component::liquidInternalEnergy()"); }
202
210 template <class Evaluation>
211 static Evaluation gasViscosity(const Evaluation& /* temperature */, const Evaluation& /* pressure */)
212 { throw std::runtime_error("Not implemented: Component::gasViscosity()"); }
213
220 template <class Evaluation>
221 static Evaluation liquidViscosity(const Evaluation& /* temperature */, const Evaluation& /* pressure */)
222 { throw std::runtime_error("Not implemented: Component::liquidViscosity()"); }
223
227 template <class Evaluation>
228 static Evaluation gasThermalConductivity(const Evaluation& /* temperature */, const Evaluation& /* pressure */)
229 { throw std::runtime_error("Not implemented: Component::gasThermalConductivity()"); }
230
234 template <class Evaluation>
235 static Evaluation liquidThermalConductivity(const Evaluation& /* temperature */, const Evaluation& /* pressure */)
236 { throw std::runtime_error("Not implemented: Component::liquidThermalConductivity()"); }
237
241 template <class Evaluation>
242 static Evaluation gasHeatCapacity(const Evaluation& /* temperature */, const Evaluation& /* pressure */)
243 { throw std::runtime_error("Not implemented: Component::gasHeatCapacity()"); }
244
248 template <class Evaluation>
249 static Evaluation liquidHeatCapacity(const Evaluation& /* temperature */, const Evaluation& /* pressure */)
250 { throw std::runtime_error("Not implemented: Component::liquidHeatCapacity()"); }
251};
252
253} // namespace Opm
254
255#endif
Abstract base class of a pure chemical species.
Definition Component.hpp:44
static std::string_view name()
A human readable name for the component.
Definition Component.hpp:87
static Scalar tripleTemperature()
Returns the temperature in at the component's triple point.
Definition Component.hpp:124
static bool gasIsCompressible()
Returns true iff the gas phase is assumed to be compressible.
Definition Component.hpp:69
static Evaluation gasThermalConductivity(const Evaluation &, const Evaluation &)
Thermal conductivity of the component [W/(m^2 K/m)] as a gas.
Definition Component.hpp:228
static Scalar molarMass()
The molar mass in of the component.
Definition Component.hpp:93
static Scalar acentricFactor()
Returns the acentric factor of the component.
Definition Component.hpp:112
static Scalar criticalPressure()
Returns the critical pressure in of the component.
Definition Component.hpp:105
static Evaluation liquidHeatCapacity(const Evaluation &, const Evaluation &)
Specific isobaric heat capacity of the component [J/kg] as a liquid.
Definition Component.hpp:249
static Evaluation liquidThermalConductivity(const Evaluation &, const Evaluation &)
Thermal conductivity of the component [W/(m^2 K/m)] as a liquid.
Definition Component.hpp:235
static Scalar criticalTemperature()
Returns the critical temperature in of the component.
Definition Component.hpp:99
static Evaluation gasHeatCapacity(const Evaluation &, const Evaluation &)
Specific isobaric heat capacity of the component [J/kg] as a gas.
Definition Component.hpp:242
static Evaluation gasInternalEnergy(const Evaluation &, const Evaluation &)
Specific internal energy of the pure component in gas.
Definition Component.hpp:190
static Evaluation liquidViscosity(const Evaluation &, const Evaluation &)
The dynamic liquid viscosity of the pure component.
Definition Component.hpp:221
static Evaluation gasEnthalpy(const Evaluation &, const Evaluation &)
Specific enthalpy of the pure component in gas.
Definition Component.hpp:170
static Evaluation vaporPressure(const Evaluation &)
The vapor pressure in of the component at a given temperature in .
Definition Component.hpp:140
static bool liquidIsCompressible()
Returns true iff the liquid phase is assumed to be compressible.
Definition Component.hpp:81
static Evaluation liquidDensity(const Evaluation &, const Evaluation &)
The density of the liquid component at a given pressure in and temperature in .
Definition Component.hpp:160
static Scalar triplePressure()
Returns the pressure in at the component's triple point.
Definition Component.hpp:130
static Evaluation liquidEnthalpy(const Evaluation &, const Evaluation &)
Specific enthalpy of the pure component in liquid.
Definition Component.hpp:180
static Scalar criticalVolume()
Returns the critical volume in of the component.
Definition Component.hpp:118
static void init(Scalar, Scalar, unsigned, Scalar, Scalar, unsigned)
A default routine for initialization, not needed for components and must not be called.
Definition Component.hpp:62
static bool gasIsIdeal()
Returns true iff the gas phase is assumed to be ideal.
Definition Component.hpp:75
static Evaluation gasViscosity(const Evaluation &, const Evaluation &)
The dynamic viscosity of the pure component at a given pressure in and temperature in .
Definition Component.hpp:211
static Evaluation gasDensity(const Evaluation &, const Evaluation &)
The density in of the component at a given pressure in and temperature in .
Definition Component.hpp:150
static Evaluation liquidInternalEnergy(const Evaluation &, const Evaluation &)
Specific internal energy of pure the pure component in liquid.
Definition Component.hpp:200
This class implements a small container which holds the transmissibility mulitpliers for all the face...
Definition Exceptions.hpp:30