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LiquidPhase.hpp
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27 #ifndef OPM_LIQUID_PHASE_HPP
28 #define OPM_LIQUID_PHASE_HPP
29 
30 namespace Opm {
31 
36 template <class Scalar, class ComponentT>
38 {
39 public:
41  typedef ComponentT Component;
42 
44  static const char* name()
45  { return Component::name(); }
46 
48  static bool isLiquid()
49  { return true; }
50 
52  static bool isCompressible()
54 
56  static bool isIdealGas()
57  { return false; /* we're a liquid! */ }
58 
60  static Scalar molarMass()
61  { return Component::molarMass(); }
62 
64  static Scalar criticalTemperature()
65  { return Component::criticalTemperature(); }
66 
68  static Scalar criticalPressure()
69  { return Component::criticalPressure(); }
70 
72  static Scalar tripleTemperature()
73  { return Component::tripleTemperature(); }
74 
76  static Scalar triplePressure()
77  { return Component::triplePressure(); }
78 
80  template <class Evaluation>
81  static Evaluation vaporPressure(const Evaluation& temperature)
82  { return Component::vaporPressure(temperature); }
83 
85  template <class Evaluation>
86  static Evaluation density(const Evaluation& temperature, const Evaluation& pressure)
87  { return Component::liquidDensity(temperature, pressure); }
88 
90  template <class Evaluation>
91  static Evaluation pressure(const Evaluation& temperature, const Evaluation& density)
92  { return Component::liquidPressure(temperature, density); }
93 
95  template <class Evaluation>
96  static const Evaluation enthalpy(const Evaluation& temperature, const Evaluation& pressure)
97  { return Component::liquidEnthalpy(temperature, pressure); }
98 
100  template <class Evaluation>
101  static const Evaluation internalEnergy(const Evaluation& temperature, const Evaluation& pressure)
102  { return Component::liquidInternalEnergy(temperature, pressure); }
103 
105  template <class Evaluation>
106  static Evaluation viscosity(const Evaluation& temperature, const Evaluation& pressure)
107  { return Component::liquidViscosity(temperature, pressure); }
108 
110  template <class Evaluation>
111  static Evaluation thermalConductivity(const Evaluation& temperature, const Evaluation& pressure)
112  { return Component::liquidThermalConductivity(temperature, pressure); }
113 
115  template <class Evaluation>
116  static Evaluation heatCapacity(const Evaluation& temperature, const Evaluation& pressure)
117  { return Component::liquidHeatCapacity(temperature, pressure); }
118 };
119 } // namespace Opm
120 
121 #endif
static Scalar tripleTemperature()
Returns the temperature in at the component's triple point.
Definition: Component.hpp:122
static Scalar molarMass()
The molar mass in of the component.
Definition: Component.hpp:91
static Scalar criticalPressure()
Returns the critical pressure in of the component.
Definition: Component.hpp:103
static const char * name()
A human readable name for the component.
Definition: Component.hpp:85
static Evaluation liquidHeatCapacity(const Evaluation &, const Evaluation &)
Specific isobaric heat capacity of the component [J/kg] as a liquid.
Definition: Component.hpp:247
static Evaluation liquidThermalConductivity(const Evaluation &, const Evaluation &)
Thermal conductivity of the component [W/(m^2 K/m)] as a liquid.
Definition: Component.hpp:233
static Scalar criticalTemperature()
Returns the critical temperature in of the component.
Definition: Component.hpp:97
static Evaluation liquidViscosity(const Evaluation &, const Evaluation &)
The dynamic liquid viscosity of the pure component.
Definition: Component.hpp:219
static Evaluation vaporPressure(const Evaluation &)
The vapor pressure in of the component at a given temperature in .
Definition: Component.hpp:138
static bool liquidIsCompressible()
Returns true iff the liquid phase is assumed to be compressible.
Definition: Component.hpp:79
static Evaluation liquidDensity(const Evaluation &, const Evaluation &)
The density of the liquid component at a given pressure in and temperature in .
Definition: Component.hpp:158
static Scalar triplePressure()
Returns the pressure in at the component's triple point.
Definition: Component.hpp:128
static Evaluation liquidEnthalpy(const Evaluation &, const Evaluation &)
Specific enthalpy of the pure component in liquid.
Definition: Component.hpp:178
static Evaluation liquidInternalEnergy(const Evaluation &, const Evaluation &)
Specific internal energy of pure the pure component in liquid.
Definition: Component.hpp:198
Represents the liquid phase of a single (pseudo-) component.
Definition: LiquidPhase.hpp:38
static Scalar criticalTemperature()
Returns the critical temperature of the component.
Definition: LiquidPhase.hpp:64
static Evaluation vaporPressure(const Evaluation &temperature)
The vapor pressure in [N/m^2] of the component at a given temperature.
Definition: LiquidPhase.hpp:81
static const Evaluation internalEnergy(const Evaluation &temperature, const Evaluation &pressure)
Specific internal energy [J/kg] the pure component as a gas.
Definition: LiquidPhase.hpp:101
static Evaluation viscosity(const Evaluation &temperature, const Evaluation &pressure)
The dynamic viscosity [Pa s] of the pure component at a given pressure and temperature.
Definition: LiquidPhase.hpp:106
static Scalar criticalPressure()
Returns the critical pressure of the component.
Definition: LiquidPhase.hpp:68
static Scalar tripleTemperature()
Returns the temperature at the component's triple point.
Definition: LiquidPhase.hpp:72
ComponentT Component
The type of the phase's underlying (pseudo-) component.
Definition: LiquidPhase.hpp:41
static Scalar molarMass()
The mass in [kg] of one mole of the component.
Definition: LiquidPhase.hpp:60
static Evaluation density(const Evaluation &temperature, const Evaluation &pressure)
The density [kg/m^3] of the component at a given pressure and temperature.
Definition: LiquidPhase.hpp:86
static Scalar triplePressure()
Returns the pressure at the component's triple point.
Definition: LiquidPhase.hpp:76
static const char * name()
A human readable name for the component.
Definition: LiquidPhase.hpp:44
static const Evaluation enthalpy(const Evaluation &temperature, const Evaluation &pressure)
Specific enthalpy [J/kg] the pure component as a gas.
Definition: LiquidPhase.hpp:96
static bool isIdealGas()
Returns true iff the fluid is assumed to be an ideal gas.
Definition: LiquidPhase.hpp:56
static Evaluation thermalConductivity(const Evaluation &temperature, const Evaluation &pressure)
Thermal conductivity of the fluid [W/(m^2 K/m)].
Definition: LiquidPhase.hpp:111
static Evaluation heatCapacity(const Evaluation &temperature, const Evaluation &pressure)
Specific isobaric heat capacity of the fluid [J/kg].
Definition: LiquidPhase.hpp:116
static bool isLiquid()
Returs whether the fluid is a liquid.
Definition: LiquidPhase.hpp:48
static Evaluation pressure(const Evaluation &temperature, const Evaluation &density)
The pressure [Pa] of the component at a given density and temperature.
Definition: LiquidPhase.hpp:91
static bool isCompressible()
Returns true iff the fluid is assumed to be compressible.
Definition: LiquidPhase.hpp:52