Opm::ModularFluidState< ScalarT, numPhasesV, numComponentsV, PressureModule, TemperatureModule, CompositionModule, FugacityModule, SaturationModule, DensityModule, ViscosityModule, EnthalpyModule > Class Template Reference
Represents all relevant thermodynamic quantities of a multi-phase, multi-component fluid system assuming thermodynamic equilibrium. More...
#include <ModularFluidState.hpp>
Inheritance diagram for Opm::ModularFluidState< ScalarT, numPhasesV, numComponentsV, PressureModule, TemperatureModule, CompositionModule, FugacityModule, SaturationModule, DensityModule, ViscosityModule, EnthalpyModule >:
Public Types | |
| enum | { numPhases = numPhasesV } |
| enum | { numComponents = numComponentsV } |
| typedef ScalarT | Scalar |
Public Member Functions | |
| void | checkDefined () const |
| Make sure that all attributes are defined. More... | |
| template<class FluidState > | |
| void | assign (const FluidState &fs) |
| Retrieve all parameters from an arbitrary fluid state. More... | |
Detailed Description
template<class ScalarT, unsigned numPhasesV, unsigned numComponentsV, class PressureModule, class TemperatureModule, class CompositionModule, class FugacityModule, class SaturationModule, class DensityModule, class ViscosityModule, class EnthalpyModule>
class Opm::ModularFluidState< ScalarT, numPhasesV, numComponentsV, PressureModule, TemperatureModule, CompositionModule, FugacityModule, SaturationModule, DensityModule, ViscosityModule, EnthalpyModule >
class Opm::ModularFluidState< ScalarT, numPhasesV, numComponentsV, PressureModule, TemperatureModule, CompositionModule, FugacityModule, SaturationModule, DensityModule, ViscosityModule, EnthalpyModule >
Represents all relevant thermodynamic quantities of a multi-phase, multi-component fluid system assuming thermodynamic equilibrium.
This class uses a modular approach which results in storing only a set of requested thermodynamic quantities.
Member Typedef Documentation
◆ Scalar
template<class ScalarT , unsigned numPhasesV, unsigned numComponentsV, class PressureModule , class TemperatureModule , class CompositionModule , class FugacityModule , class SaturationModule , class DensityModule , class ViscosityModule , class EnthalpyModule >
| typedef ScalarT Opm::ModularFluidState< ScalarT, numPhasesV, numComponentsV, PressureModule, TemperatureModule, CompositionModule, FugacityModule, SaturationModule, DensityModule, ViscosityModule, EnthalpyModule >::Scalar |
Member Enumeration Documentation
◆ anonymous enum
template<class ScalarT , unsigned numPhasesV, unsigned numComponentsV, class PressureModule , class TemperatureModule , class CompositionModule , class FugacityModule , class SaturationModule , class DensityModule , class ViscosityModule , class EnthalpyModule >
| anonymous enum |
◆ anonymous enum
template<class ScalarT , unsigned numPhasesV, unsigned numComponentsV, class PressureModule , class TemperatureModule , class CompositionModule , class FugacityModule , class SaturationModule , class DensityModule , class ViscosityModule , class EnthalpyModule >
| anonymous enum |
Member Function Documentation
◆ assign()
template<class ScalarT , unsigned numPhasesV, unsigned numComponentsV, class PressureModule , class TemperatureModule , class CompositionModule , class FugacityModule , class SaturationModule , class DensityModule , class ViscosityModule , class EnthalpyModule >
template<class FluidState >
|
inline |
Retrieve all parameters from an arbitrary fluid state.
◆ checkDefined()
template<class ScalarT , unsigned numPhasesV, unsigned numComponentsV, class PressureModule , class TemperatureModule , class CompositionModule , class FugacityModule , class SaturationModule , class DensityModule , class ViscosityModule , class EnthalpyModule >
|
inline |
Make sure that all attributes are defined.
This method does not do anything if the program is not run under valgrind. If it is, then valgrind will print an error message if some attributes of the object have not been properly defined.
The documentation for this class was generated from the following file: