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version 3.9-dev
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version 3.9-dev
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A liquid phase consisting of a two components, a main component and a conservative tracer component.
#include <dumux/material/fluidsystems/liquidphase2c.hh>
Public Types | |
| using | ParameterCache = NullParameterCache |
| using | Scalar = Scalar |
| export the scalar type More... | |
Static Public Member Functions | |
| static void | init () |
| Initialize the fluid system's static parameters generically. More... | |
| static std::string | phaseName (int phaseIdx=0) |
| Return the human readable name of a fluid phase. More... | |
| static constexpr bool | isMiscible () |
| Returns whether the fluids are miscible. More... | |
| static std::string | componentName (int compIdx) |
| A human readable name for the component. More... | |
| static std::string | name () |
| A human readable name for the fluid system. More... | |
| static constexpr bool | isGas (int phaseIdx=0) |
| Returns whether the fluid is gaseous. More... | |
| static bool | isIdealMixture (int phaseIdx=0) |
| Returns true if and only if a fluid phase is assumed to be an ideal mixture. More... | |
| static constexpr bool | isCompressible (int phaseIdx=0) |
| Returns true if the fluid is assumed to be compressible. More... | |
| static bool | isIdealGas (int phaseIdx=0) |
| Returns true if the fluid is assumed to be an ideal gas. More... | |
| static Scalar | molarMass (int compIdx) |
| The mass in \(\mathrm{[kg]}\) of one mole of the component. More... | |
| static Scalar | criticalTemperature () |
| Returns the critical temperature \(\mathrm{[K]}\) of the main component. More... | |
| static Scalar | criticalPressure () |
| Returns the critical pressure \(\mathrm{[Pa]}\) of the main component. More... | |
| static Scalar | tripleTemperature () |
| Returns the temperature \(\mathrm{[K]}\) at the main component's triple point. More... | |
| static Scalar | triplePressure () |
| Returns the pressure \(\mathrm{[Pa]}\) at the main component's triple point. More... | |
| static Scalar | vaporPressure (Scalar T) |
| The vapor pressure in \(\mathrm{[Pa]}\) of the main component at a given temperature. More... | |
| static Scalar | density (Scalar temperature, Scalar pressure) |
| The density \(\mathrm{[kg/m^3]}\) of the phase at a given pressure and temperature. More... | |
| template<class FluidState > | |
| static Scalar | density (const FluidState &fluidState, const int phaseIdx=0) |
| Calculate the density \(\mathrm{[kg/m^3]}\) of a fluid phase. More... | |
| template<class FluidState > | |
| static Scalar | molarDensity (const FluidState &fluidState, int phaseIdx) |
| Calculate the molar density \(\mathrm{[mol/m^3]}\) of a fluid phase. More... | |
| static Scalar | pressure (Scalar temperature, Scalar density) |
| The pressure \(\mathrm{[Pa]}\) of the component at a given density and temperature. More... | |
| static const Scalar | enthalpy (Scalar temperature, Scalar pressure) |
| Specific enthalpy \(\mathrm{[J/kg]}\) the pure component as a liquid. More... | |
| template<class FluidState > | |
| static Scalar | enthalpy (const FluidState &fluidState, const int phaseIdx) |
| Given a phase's composition, temperature, pressure and density, calculate its specific enthalpy \(\mathrm{[J/kg]}\). More... | |
| template<class FluidState > | |
| static Scalar | componentEnthalpy (const FluidState &fluidState, int phaseIdx, int componentIdx) |
| Returns the specific enthalpy \(\mathrm{[J/kg]}\) of a component in the specified phase. More... | |
| static const Scalar | internalEnergy (Scalar temperature, Scalar pressure) |
| Specific internal energy \(\mathrm{[J/kg]}\) the pure component as a liquid. More... | |
| static Scalar | viscosity (Scalar temperature, Scalar pressure) |
| The dynamic liquid viscosity \(\mathrm{[N/m^3*s]}\) of the pure component. More... | |
| template<class FluidState > | |
| static Scalar | viscosity (const FluidState &fluidState, const int phaseIdx) |
| Calculate the dynamic viscosity of a fluid phase \(\mathrm{[Pa*s]}\). More... | |
| template<class FluidState > | |
| static Scalar | fugacityCoefficient (const FluidState &fluidState, int phaseIdx, int compIdx) |
| Calculate the fugacity coefficient \(\mathrm{[Pa]}\) of an individual component in a fluid phase. More... | |
| template<class FluidState > | |
| static Scalar | diffusionCoefficient (const FluidState &fluidState, int phaseIdx, int compIdx) |
| Calculate the binary molecular diffusion coefficient for a component in a fluid phase \(\mathrm{[mol^2 * s / (kg*m^3)]}\). More... | |
| template<class FluidState > | |
| static Scalar | binaryDiffusionCoefficient (const FluidState &fluidState, int phaseIdx, int compIIdx, int compJIdx) |
| Given a phase's composition, temperature and pressure, return the binary diffusion coefficient \(\mathrm{[m^2/s]}\) for components \(\mathrm{i}\) and \(\mathrm{j}\) in this phase. More... | |
| static Scalar | thermalConductivity (Scalar temperature, Scalar pressure) |
| Thermal conductivity of the fluid \(\mathrm{[W/(m K)]}\). More... | |
| template<class FluidState > | |
| static Scalar | thermalConductivity (const FluidState &fluidState, const int phaseIdx) |
| Thermal conductivity \(\lambda_\alpha \) of a fluid phase \(\mathrm{[W/(m K)]}\). More... | |
| static Scalar | heatCapacity (Scalar temperature, Scalar pressure) |
| Specific isobaric heat capacity of the fluid \(\mathrm{[J/(kg K)]}\). More... | |
| template<class FluidState > | |
| static Scalar | heatCapacity (const FluidState &fluidState, const int phaseIdx) |
| Specific isobaric heat capacity \(c_{p,\alpha}\) of a fluid phase \(\mathrm{[J/(kg*K)]}\). More... | |
| static constexpr bool | isTracerFluidSystem () |
| Some properties of the fluid system. More... | |
| static constexpr int | getMainComponent (int phaseIdx) |
| Get the main component of a given phase if possible. More... | |
| static constexpr bool | viscosityIsConstant (int phaseIdx) |
| Returns true if and only if a fluid phase is assumed to have a constant viscosity. More... | |
| static Scalar | density (const FluidState &fluidState, const ParameterCache ¶mCache, int phaseIdx) |
| Calculate the density \(\mathrm{[kg/m^3]}\) of a fluid phase. More... | |
| static Scalar | molarDensity (const FluidState &fluidState, const ParameterCache ¶mCache, int phaseIdx) |
| Calculate the molar density \(\mathrm{[mol/m^3]}\) of a fluid phase. More... | |
| static Scalar | fugacityCoefficient (const FluidState &fluidState, const ParameterCache ¶mCache, int phaseIdx, int compIdx) |
| Calculate the fugacity coefficient \(\mathrm{[Pa]}\) of an individual component in a fluid phase. More... | |
| static Scalar | viscosity (const FluidState &fluidState, const ParameterCache ¶mCache, int phaseIdx) |
| Calculate the dynamic viscosity of a fluid phase \(\mathrm{[Pa*s]}\). More... | |
| static Scalar | diffusionCoefficient (const FluidState &fluidState, const ParameterCache ¶mCache, int phaseIdx, int compIdx) |
| Calculate the binary molecular diffusion coefficient for a component in a fluid phase \(\mathrm{[mol^2 * s / (kg*m^3)]}\). More... | |
| static Scalar | binaryDiffusionCoefficient (const FluidState &fluidState, const ParameterCache ¶mCache, int phaseIdx, int compIIdx, int compJIdx) |
| Given a phase's composition, temperature and pressure, return the binary diffusion coefficient \(\mathrm{[m^2/s]}\) for components \(\mathrm{i}\) and \(\mathrm{j}\) in this phase. More... | |
| static Scalar | enthalpy (const FluidState &fluidState, const ParameterCache ¶mCache, int phaseIdx) |
| Given a phase's composition, temperature, pressure and density, calculate its specific enthalpy \(\mathrm{[J/kg]}\). More... | |
| static Scalar | thermalConductivity (const FluidState &fluidState, const ParameterCache ¶mCache, int phaseIdx) |
| Thermal conductivity \(\lambda_\alpha \) of a fluid phase \(\mathrm{[W/(m K)]}\). More... | |
| static Scalar | heatCapacity (const FluidState &fluidState, const ParameterCache ¶mCache, int phaseIdx) |
| Specific isobaric heat capacity \(c_{p,\alpha}\) of a fluid phase \(\mathrm{[J/(kg*K)]}\). More... | |
Static Public Attributes | |
| static constexpr int | numPhases = 1 |
| Number of phases in the fluid system. More... | |
| static constexpr int | numComponents = 2 |
| Number of components in the fluid system. More... | |
| static constexpr int | liquidPhaseIdx = 0 |
| index of the liquid phase More... | |
| static constexpr int | phase0Idx = liquidPhaseIdx |
| index of the only phase More... | |
| static constexpr int | comp0Idx = 0 |
| index of the first component More... | |
| static constexpr int | comp1Idx = 1 |
| index of the second component More... | |
| static constexpr int | mainCompIdx = comp0Idx |
| index of the main component More... | |
| static constexpr int | secondCompIdx = comp1Idx |
| index of the secondary component More... | |
| using Dumux::FluidSystems::LiquidPhaseTwoC< Scalar, MainComponent, SecondComponent >::ParameterCache = NullParameterCache |
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inherited |
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inlinestaticinherited |
| fluidState | The fluid state |
| paramCache | mutable parameters |
| phaseIdx | Index of the fluid phase |
| compIIdx | Index of the component i |
| compJIdx | Index of the component j |
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inlinestatic |
| fluidState | The fluid state |
| phaseIdx | Index of the fluid phase |
| compIIdx | Index of the component i |
| compJIdx | Index of the component j |
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inlinestatic |
| fluidState | The fluid state |
| phaseIdx | The index of the phase |
| componentIdx | The index of the component |
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| compIdx | The index of the component to consider |
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inlinestatic |
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| fluidState | The fluid state |
| phaseIdx | Index of the fluid phase |
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inlinestaticinherited |
| fluidState | The fluid state |
| paramCache | mutable parameters |
| phaseIdx | Index of the fluid phase |
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inlinestatic |
| temperature | The temperature at which to evaluate the density |
| pressure | The pressure at which to evaluate the density |
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inlinestaticinherited |
Molecular diffusion of a component \(\mathrm{\kappa}\) is caused by a gradient of the chemical potential and follows the law
\[ J = - D \nabla \mu_\kappa \]
where \(\mathrm{\mu_\kappa}\) is the component's chemical potential, \(\mathrm{D}\) is the diffusion coefficient and \(\mathrm{J}\) is the diffusive flux. \(\mathrm{\mu_\kappa}\) is connected to the component's fugacity \(\mathrm{f_\kappa}\) by the relation
\[ \mu_\kappa = R T_\alpha \mathrm{ln} \frac{f_\kappa}{p_\alpha} \]
where \(\mathrm{p_\alpha}\) and \(\mathrm{T_\alpha}\) are the fluid phase' pressure and temperature.
| fluidState | The fluid state |
| paramCache | mutable parameters |
| phaseIdx | Index of the fluid phase |
| compIdx | Index of the component |
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inlinestatic |
Molecular diffusion of a component \(\mathrm{\kappa}\) is caused by a gradient of the chemical potential and follows the law
\[ J = - D \nabla \mu_\kappa \]
where \(\mathrm{\mu_\kappa}\) is the component's chemical potential, \(\mathrm{D}\) is the diffusion coefficient and \(\mathrm{J}\) is the diffusive flux. \(\mathrm{\mu_\kappa}\) is connected to the component's fugacity \(\mathrm{f_\kappa}\) by the relation
\[ \mu_\kappa = R T_\alpha \mathrm{ln} \frac{f_\kappa}{p_\alpha} \]
where \(\mathrm{p_\alpha}\) and \(\mathrm{T_\alpha}\) are the fluid phase' pressure and temperature.
| fluidState | The fluid state |
| phaseIdx | Index of the fluid phase |
| compIdx | Index of the component |
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inlinestatic |
| fluidState | The fluid state |
| phaseIdx | Index of the fluid phase |
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inlinestaticinherited |
| fluidState | The fluid state |
| paramCache | mutable parameters |
| phaseIdx | Index of the fluid phase |
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inlinestatic |
| temperature | The temperature at which to evaluate the enthalpy |
| pressure | The pressure at which to evaluate the enthalpy |
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inlinestaticinherited |
The fugacity coefficient \(\mathrm{\phi^\kappa_\alpha}\) is connected to the fugacity \(\mathrm{f^\kappa_\alpha}\) and the component's mole fraction \(\mathrm{x^\kappa_\alpha}\) by means of the relation
\[ f^\kappa_\alpha = \phi^\kappa_\alpha\;x^\kappa_\alpha\;p_\alpha \]
| fluidState | The fluid state |
| paramCache | mutable parameters |
| phaseIdx | Index of the fluid phase |
| compIdx | Index of the component |
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inlinestatic |
The fugacity coefficient \(\mathrm{\phi^\kappa_\alpha}\) is connected to the fugacity \(\mathrm{f^\kappa_\alpha}\) and the component's mole fraction \(\mathrm{x^\kappa_\alpha}\) by means of the relation
\[ f^\kappa_\alpha = \phi^\kappa_\alpha\;x^\kappa_\alpha\;p_\alpha \]
| fluidState | The fluid state |
| phaseIdx | Index of the fluid phase |
| compIdx | Index of the component |
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inlinestaticconstexprinherited |
| phaseIdx | The index of the fluid phase to consider |
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inlinestatic |
| fluidState | represents all relevant thermodynamic quantities of a fluid system |
| phaseIdx | Index of the fluid phase |
Given a fluid state, an up-to-date parameter cache and a phase index, this method computes the isobaric heat capacity \(c_{p,\alpha}\) of the fluid phase. The isobaric heat capacity is defined as the partial derivative of the specific enthalpy \(h_\alpha\) to the fluid pressure \(p_\alpha\):
\( c_{p,\alpha} = \frac{\partial h_\alpha}{\partial p_\alpha} \)
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inlinestaticinherited |
Given a fluid state, an up-to-date parameter cache and a phase index, this method computes the isobaric heat capacity \(c_{p,\alpha}\) of the fluid phase. The isobaric heat capacity is defined as the partial derivative of the specific enthalpy \(h_\alpha\) to the fluid pressure \(p_\alpha\):
\( c_{p,\alpha} = \frac{\partial h_\alpha}{\partial p_\alpha} \)
| fluidState | represents all relevant thermodynamic quantities of a fluid system |
| paramCache | mutable parameters |
| phaseIdx | Index of the fluid phase |
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inlinestatic |
| temperature | The temperature at which to evaluate the heat capacity |
| pressure | The pressure at which to evaluate the heat capacity |
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inlinestatic |
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| temperature | The temperature at which to evaluate the internal energy |
| pressure | The pressure at which to evaluate the internal energy |
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We define an ideal mixture as a fluid phase where the fugacity coefficients of all components times the pressure of the phase are independent on the fluid composition. This assumption is true if only a single component is involved. If you are unsure what this function should return, it is safe to return false. The only damage done will be (slightly) increased computation times in some cases.
| phaseIdx | The index of the fluid phase to consider |
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inlinestaticconstexpr |
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If the fluid system only contains tracer components
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inlinestaticinherited |
The molar density is defined by the mass density \(\rho_\alpha\) and the component molar mass \(M_\alpha\) after
\[\rho_{mol,\alpha} = \frac{\rho_\alpha}{M_\alpha} \;.\]
| fluidState | The fluid state |
| paramCache | mutable parameters |
| phaseIdx | Index of the fluid phase |
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inlinestatic |
| fluidState | The fluid state |
| phaseIdx | Index of the fluid phase |
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inlinestatic |
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inlinestatic |
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| phaseIdx | The index of the fluid phase to consider |
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| temperature | The temperature at which to evaluate the pressure |
| density | The density at which to evaluate the pressure |
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inlinestatic |
| fluidState | The fluid state |
| phaseIdx | Index of the fluid phase |
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inlinestaticinherited |
| fluidState | The fluid state |
| paramCache | mutable parameters |
| phaseIdx | Index of the fluid phase |
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| temperature | The temperature at which to evaluate the thermal conductivity |
| pressure | The pressure at which to evaluate the thermal conductivity |
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inlinestatic |
| fluidState | The fluid state |
| phaseIdx | Index of the fluid phase |
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inlinestaticinherited |
| fluidState | The fluid state |
| paramCache | mutable parameters |
| phaseIdx | Index of the fluid phase |
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inlinestatic |
| temperature | The temperature at which to evaluate the viscosity |
| pressure | The pressure at which to evaluate the viscosity |
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| phaseIdx | The index of the fluid phase to consider |
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