27 #ifndef OPM_TEMPERATURE_OVERLAY_FLUID_STATE_HPP
28 #define OPM_TEMPERATURE_OVERLAY_FLUID_STATE_HPP
30 #include <opm/common/Valgrind.hpp>
41 template <
class Flu
idState>
45 typedef typename FluidState::Scalar Scalar;
47 enum { numPhases = FluidState::numPhases };
48 enum { numComponents = FluidState::numComponents };
61 temperature_ = fs.temperature(0);
65 : temperature_(T), fs_(&fs)
71 , temperature_(fs.temperature_)
78 temperature_ = fs.temperature_;
90 -> decltype(std::declval<FluidState>().
saturation(phaseIdx))
91 {
return fs_->saturation(phaseIdx); }
97 {
return fs_->phaseIsPresent(phaseIdx); }
103 -> decltype(std::declval<FluidState>().
moleFraction(phaseIdx, compIdx))
104 {
return fs_->moleFraction(phaseIdx, compIdx); }
110 -> decltype(std::declval<FluidState>().
massFraction(phaseIdx, compIdx))
111 {
return fs_->massFraction(phaseIdx, compIdx); }
123 {
return fs_->averageMolarMass(phaseIdx); }
134 auto molarity(
unsigned phaseIdx,
unsigned compIdx)
const
135 -> decltype(std::declval<FluidState>().
molarity(phaseIdx, compIdx))
136 {
return fs_->molarity(phaseIdx, compIdx); }
141 auto fugacity(
unsigned phaseIdx,
unsigned compIdx)
const
142 -> decltype(std::declval<FluidState>().
fugacity(phaseIdx, compIdx))
143 {
return fs_->fugacity(phaseIdx, compIdx); }
150 {
return fs_->fugacityCoefficient(phaseIdx, compIdx); }
156 -> decltype(std::declval<FluidState>().
molarVolume(phaseIdx))
157 {
return fs_->molarVolume(phaseIdx); }
163 -> decltype(std::declval<FluidState>().
density(phaseIdx))
164 {
return fs_->density(phaseIdx); }
170 -> decltype(std::declval<FluidState>().
molarDensity(phaseIdx))
171 {
return fs_->molarDensity(phaseIdx); }
177 {
return temperature_; }
183 -> decltype(std::declval<FluidState>().
pressure(phaseIdx))
184 {
return fs_->pressure(phaseIdx); }
190 -> decltype(std::declval<FluidState>().
enthalpy(phaseIdx))
191 {
return fs_->enthalpy(phaseIdx); }
198 {
return fs_->internalEnergy(phaseIdx); }
204 -> decltype(std::declval<FluidState>().
viscosity(phaseIdx))
205 {
return fs_->viscosity(phaseIdx); }
217 { temperature_ = value; }
229 Valgrind::CheckDefined(temperature_);
233 const FluidState* fs_;
auto fugacity(unsigned phaseIdx, unsigned compIdx) const -> decltype(std::declval< FluidState >().fugacity(phaseIdx, compIdx))
The fugacity of a component in a phase [Pa].
Definition: TemperatureOverlayFluidState.hpp:141
auto density(unsigned phaseIdx) const -> decltype(std::declval< FluidState >().density(phaseIdx))
The mass density of a fluid phase [kg/m^3].
Definition: TemperatureOverlayFluidState.hpp:162
auto molarDensity(unsigned phaseIdx) const -> decltype(std::declval< FluidState >().molarDensity(phaseIdx))
The molar density of a fluid phase [mol/m^3].
Definition: TemperatureOverlayFluidState.hpp:169
This is a fluid state which allows to set the fluid temperatures and takes all other quantities from ...
Definition: TemperatureOverlayFluidState.hpp:42
TemperatureOverlayFluidState(const FluidState &fs)
Constructor.
Definition: TemperatureOverlayFluidState.hpp:58
auto internalEnergy(unsigned phaseIdx) const -> decltype(std::declval< FluidState >().internalEnergy(phaseIdx))
The specific internal energy of a fluid phase [J/kg].
Definition: TemperatureOverlayFluidState.hpp:196
auto viscosity(unsigned phaseIdx) const -> decltype(std::declval< FluidState >().viscosity(phaseIdx))
The dynamic viscosity of a fluid phase [Pa s].
Definition: TemperatureOverlayFluidState.hpp:203
void setTemperature(const Scalar &value)
Set the temperature [K] of a fluid phase.
Definition: TemperatureOverlayFluidState.hpp:216
auto fugacityCoefficient(unsigned phaseIdx, unsigned compIdx) const -> decltype(std::declval< FluidState >().fugacityCoefficient(phaseIdx, compIdx))
The fugacity coefficient of a component in a phase [].
Definition: TemperatureOverlayFluidState.hpp:148
auto molarVolume(unsigned phaseIdx) const -> decltype(std::declval< FluidState >().molarVolume(phaseIdx))
The molar volume of a fluid phase [m^3/mol].
Definition: TemperatureOverlayFluidState.hpp:155
const Scalar & temperature(unsigned) const
The temperature of a fluid phase [K].
Definition: TemperatureOverlayFluidState.hpp:176
auto enthalpy(unsigned phaseIdx) const -> decltype(std::declval< FluidState >().enthalpy(phaseIdx))
The specific enthalpy of a fluid phase [J/kg].
Definition: TemperatureOverlayFluidState.hpp:189
void checkDefined() const
Make sure that all attributes are defined.
Definition: TemperatureOverlayFluidState.hpp:227
auto averageMolarMass(unsigned phaseIdx) const -> decltype(std::declval< FluidState >().averageMolarMass(phaseIdx))
The average molar mass of a fluid phase [kg/mol].
Definition: TemperatureOverlayFluidState.hpp:121
auto moleFraction(unsigned phaseIdx, unsigned compIdx) const -> decltype(std::declval< FluidState >().moleFraction(phaseIdx, compIdx))
The mole fraction of a component in a phase [].
Definition: TemperatureOverlayFluidState.hpp:102
auto massFraction(unsigned phaseIdx, unsigned compIdx) const -> decltype(std::declval< FluidState >().massFraction(phaseIdx, compIdx))
The mass fraction of a component in a phase [].
Definition: TemperatureOverlayFluidState.hpp:109
auto saturation(unsigned phaseIdx) const -> decltype(std::declval< FluidState >().saturation(phaseIdx))
Returns the saturation of a phase [].
Definition: TemperatureOverlayFluidState.hpp:89
auto molarity(unsigned phaseIdx, unsigned compIdx) const -> decltype(std::declval< FluidState >().molarity(phaseIdx, compIdx))
The molar concentration of a component in a phase [mol/m^3].
Definition: TemperatureOverlayFluidState.hpp:134
bool phaseIsPresent(unsigned phaseIdx) const
Returns true iff a fluid phase shall be assumed to be present.
Definition: TemperatureOverlayFluidState.hpp:96
auto pressure(unsigned phaseIdx) const -> decltype(std::declval< FluidState >().pressure(phaseIdx))
The pressure of a fluid phase [Pa].
Definition: TemperatureOverlayFluidState.hpp:182