Class MultiTransport implements transport properties for high pressure gas mixtures. More...
#include <HighPressureGasTransport.h>
Inheritance diagram for HighPressureGasTransport:
Collaboration diagram for HighPressureGasTransport:
Public Member Functions | |
| virtual std::string | transportType () const |
| Identifies the Transport object type. More... | |
| virtual void | getThermalDiffCoeffs (doublereal *const dt) |
| Return the thermal diffusion coefficients (kg/m/s) More... | |
| virtual double | thermalConductivity () |
| Returns the mixture thermal conductivity in W/m/K. More... | |
| virtual void | getBinaryDiffCoeffs (const size_t ld, doublereal *const d) |
| virtual void | getMultiDiffCoeffs (const size_t ld, doublereal *const d) |
| Return the Multicomponent diffusion coefficients. Units: [m^2/s]. More... | |
| virtual doublereal | viscosity () |
| Viscosity of the mixture (kg /m /s) More... | |
 Public Member Functions inherited from MultiTransport | |
| MultiTransport (ThermoPhase *thermo=0) | |
| default constructor More... | |
| virtual void | getSpeciesFluxes (size_t ndim, const doublereal *const grad_T, size_t ldx, const doublereal *const grad_X, size_t ldf, doublereal *const fluxes) |
| Get the species diffusive mass fluxes wrt to the mass averaged velocity, given the gradients in mole fraction and temperature. More... | |
| virtual void | getMolarFluxes (const doublereal *const state1, const doublereal *const state2, const doublereal delta, doublereal *const fluxes) |
| Get the molar diffusional fluxes [kmol/m^2/s] of the species, given the thermodynamic state at two nearby points. More... | |
| virtual void | getMassFluxes (const doublereal *state1, const doublereal *state2, doublereal delta, doublereal *fluxes) |
| Get the mass diffusional fluxes [kg/m^2/s] of the species, given the thermodynamic state at two nearby points. More... | |
| virtual void | init (ThermoPhase *thermo, int mode=0, int log_level=0) |
| Initialize a transport manager. More... | |
| Public Member Functions inherited from GasTransport | |
| virtual void | getSpeciesViscosities (doublereal *const visc) |
| Get the pure-species viscosities. More... | |
| virtual void | getMixDiffCoeffs (doublereal *const d) |
| Returns the Mixture-averaged diffusion coefficients [m^2/s]. More... | |
| virtual void | getMixDiffCoeffsMole (doublereal *const d) |
| Returns the mixture-averaged diffusion coefficients [m^2/s]. More... | |
| virtual void | getMixDiffCoeffsMass (doublereal *const d) |
| Returns the mixture-averaged diffusion coefficients [m^2/s]. More... | |
| virtual void | getViscosityPolynomial (size_t i, double *coeffs) const |
| Return the polynomial fits to the viscosity of species i. More... | |
| virtual void | getConductivityPolynomial (size_t i, double *coeffs) const |
| Return the temperature fits of the heat conductivity of species i. More... | |
| virtual void | getBinDiffusivityPolynomial (size_t i, size_t j, double *coeffs) const |
| Return the polynomial fits to the binary diffusivity of species pair (i, j) More... | |
| virtual void | getCollisionIntegralPolynomial (size_t i, size_t j, double *astar_coeffs, double *bstar_coeffs, double *cstar_coeffs) const |
| Return the polynomial fits to the collision integral of species pair (i, j) More... | |
| virtual void | setViscosityPolynomial (size_t i, double *coeffs) |
| Modify the polynomial fits to the viscosity of species i. More... | |
| virtual void | setConductivityPolynomial (size_t i, double *coeffs) |
| Modify the temperature fits of the heat conductivity of species i. More... | |
| virtual void | setBinDiffusivityPolynomial (size_t i, size_t j, double *coeffs) |
| Modify the polynomial fits to the binary diffusivity of species pair (i, j) More... | |
| virtual void | setCollisionIntegralPolynomial (size_t i, size_t j, double *astar_coeffs, double *bstar_coeffs, double *cstar_coeffs, bool actualT) |
| Modify the polynomial fits to the collision integral of species pair (i, j) More... | |
| bool | CKMode () const |
| Boolean indicating the form of the transport properties polynomial fits. More... | |
| Public Member Functions inherited from Transport | |
| Transport (ThermoPhase *thermo=0, size_t ndim=1) | |
| Constructor. More... | |
| Transport (const Transport &)=delete | |
| Transport & | operator= (const Transport &)=delete |
| ThermoPhase & | thermo () |
| bool | ready () |
| void | setNDim (const int ndim) |
| Set the number of dimensions to be expected in flux expressions. More... | |
| size_t | nDim () const |
| Return the number of dimensions in flux expressions. More... | |
| void | checkSpeciesIndex (size_t k) const |
| Check that the specified species index is in range. More... | |
| void | checkSpeciesArraySize (size_t kk) const |
| Check that an array size is at least nSpecies(). More... | |
| virtual doublereal | getElectricConduct () |
| Compute the mixture electrical conductivity (S m-1) at the current conditions of the phase (Siemens m-1) More... | |
| virtual void | getElectricCurrent (int ndim, const doublereal *grad_T, int ldx, const doublereal *grad_X, int ldf, const doublereal *grad_V, doublereal *current) |
| Compute the electric current density in A/m^2. More... | |
| virtual void | getSpeciesFluxesES (size_t ndim, const doublereal *grad_T, size_t ldx, const doublereal *grad_X, size_t ldf, const doublereal *grad_Phi, doublereal *fluxes) |
| Get the species diffusive mass fluxes wrt to the mass averaged velocity, given the gradients in mole fraction, temperature and electrostatic potential. More... | |
| virtual void | getSpeciesVdiff (size_t ndim, const doublereal *grad_T, int ldx, const doublereal *grad_X, int ldf, doublereal *Vdiff) |
| Get the species diffusive velocities wrt to the mass averaged velocity, given the gradients in mole fraction and temperature. More... | |
| virtual void | getSpeciesVdiffES (size_t ndim, const doublereal *grad_T, int ldx, const doublereal *grad_X, int ldf, const doublereal *grad_Phi, doublereal *Vdiff) |
| Get the species diffusive velocities wrt to the mass averaged velocity, given the gradients in mole fraction, temperature, and electrostatic potential. More... | |
| virtual void | setParameters (const int type, const int k, const doublereal *const p) |
| Set model parameters for derived classes. More... | |
| AnyMap | parameters () const |
| Return the parameters for a phase definition which are needed to reconstruct an identical object using the newTransport function. More... | |
| void | setVelocityBasis (VelocityBasis ivb) |
| Sets the velocity basis. More... | |
| VelocityBasis | getVelocityBasis () const |
| Gets the velocity basis. More... | |
| virtual doublereal | bulkViscosity () |
| The bulk viscosity in Pa-s. More... | |
| virtual doublereal | ionConductivity () |
| The ionic conductivity in 1/ohm/m. More... | |
| virtual void | getSpeciesIonConductivity (doublereal *const ionCond) |
| Returns the pure species ionic conductivity. More... | |
| virtual void | mobilityRatio (double *mobRat) |
| Returns the pointer to the mobility ratios of the species in the phase. More... | |
| virtual void | getSpeciesMobilityRatio (double **mobRat) |
| Returns the pure species limit of the mobility ratios. More... | |
| virtual doublereal | electricalConductivity () |
| The electrical conductivity (Siemens/m). More... | |
| virtual void | getMobilities (doublereal *const mobil_e) |
| Get the Electrical mobilities (m^2/V/s). More... | |
| virtual void | getFluidMobilities (doublereal *const mobil_f) |
| Get the fluid mobilities (s kmol/kg). More... | |
| virtual void | setThermo (ThermoPhase &thermo) |
| Specifies the ThermoPhase object. More... | |
| virtual void | setRoot (std::shared_ptr< Solution > root) |
| Set root Solution holding all phase information. More... | |
Protected Member Functions | |
| HighPressureGasTransport (ThermoPhase *thermo=0) | |
| default constructor More... | |
| virtual doublereal | Tcrit_i (size_t i) |
| virtual doublereal | Pcrit_i (size_t i) |
| virtual doublereal | Vcrit_i (size_t i) |
| virtual doublereal | Zcrit_i (size_t i) |
| vector_fp | store (size_t i, size_t nsp) |
| virtual doublereal | FQ_i (doublereal Q, doublereal Tr, doublereal MW) |
| virtual doublereal | setPcorr (doublereal Pr, doublereal Tr) |
| Protected Member Functions inherited from MultiTransport | |
| void | update_T () |
| Update basic temperature-dependent quantities if the temperature has changed. More... | |
| void | update_C () |
| Update basic concentration-dependent quantities if the concentrations have changed. More... | |
| void | updateThermal_T () |
| Update the temperature-dependent terms needed to compute the thermal conductivity and thermal diffusion coefficients. More... | |
| void | correctBinDiffCoeffs () |
| void | eval_L0000 (const doublereal *const x) |
| Evaluate the L0000 matrices. More... | |
| void | eval_L0010 (const doublereal *const x) |
| Evaluate the L0010 matrices. More... | |
| void | eval_L1000 () |
| Evaluate the L1000 matrices. More... | |
| void | eval_L0100 () |
| void | eval_L0001 () |
| void | eval_L1010 (const doublereal *x) |
| void | eval_L1001 (const doublereal *x) |
| void | eval_L0110 () |
| void | eval_L0101 (const doublereal *x) |
| bool | hasInternalModes (size_t j) |
| double | pressure_ig () |
| virtual void | solveLMatrixEquation () |
| Protected Member Functions inherited from GasTransport | |
| GasTransport (ThermoPhase *thermo=0) | |
| virtual void | updateViscosity_T () |
| Update the temperature-dependent viscosity terms. More... | |
| virtual void | updateSpeciesViscosities () |
| Update the pure-species viscosities. More... | |
| virtual void | updateDiff_T () |
| Update the binary diffusion coefficients. More... | |
| virtual void | setupCollisionParameters () |
| Setup parameters for a new kinetic-theory-based transport manager for low-density gases. More... | |
| void | setupCollisionIntegral () |
| Setup range for polynomial fits to collision integrals of Monchick & Mason. More... | |
| void | getTransportData () |
| Read the transport database. More... | |
| void | makePolarCorrections (size_t i, size_t j, doublereal &f_eps, doublereal &f_sigma) |
| Corrections for polar-nonpolar binary diffusion coefficients. More... | |
| void | fitCollisionIntegrals (MMCollisionInt &integrals) |
| Generate polynomial fits to collision integrals. More... | |
| virtual void | fitProperties (MMCollisionInt &integrals) |
| Generate polynomial fits to the viscosity and conductivity. More... | |
| virtual void | fitDiffCoeffs (MMCollisionInt &integrals) |
| Generate polynomial fits to the binary diffusion coefficients. More... | |
| void | getBinDiffCorrection (doublereal t, MMCollisionInt &integrals, size_t k, size_t j, doublereal xk, doublereal xj, doublereal &fkj, doublereal &fjk) |
| Second-order correction to the binary diffusion coefficients. More... | |
| Protected Member Functions inherited from Transport | |
| void | finalize () |
| Enable the transport object for use. More... | |
Friends | |
| class | TransportFactory |
Additional Inherited Members | |
| Protected Attributes inherited from MultiTransport | |
| doublereal | m_thermal_tlast |
| DenseMatrix | m_astar |
| Dense matrix for astar. More... | |
| DenseMatrix | m_bstar |
| Dense matrix for bstar. More... | |
| DenseMatrix | m_cstar |
| Dense matrix for cstar. More... | |
| vector_fp | m_cinternal |
| vector_fp | m_sqrt_eps_k |
| DenseMatrix | m_log_eps_k |
| vector_fp | m_frot_298 |
| vector_fp | m_rotrelax |
| doublereal | m_lambda |
| DenseMatrix | m_Lmatrix |
| DenseMatrix | m_aa |
| vector_fp | m_a |
| vector_fp | m_b |
| vector_fp | m_spwork1 |
| vector_fp | m_spwork2 |
| vector_fp | m_spwork3 |
| vector_fp | m_molefracs_last |
| Mole fraction vector from last L-matrix evaluation. More... | |
| bool | m_abc_ok |
| Boolean indicating viscosity is up to date. More... | |
| bool | m_l0000_ok |
| bool | m_lmatrix_soln_ok |
| DenseMatrix | incl |
| bool | m_debug |
| Protected Attributes inherited from GasTransport | |
| vector_fp | m_molefracs |
| Vector of species mole fractions. More... | |
| doublereal | m_viscmix |
| Internal storage for the viscosity of the mixture (kg /m /s) More... | |
| bool | m_visc_ok |
| Update boolean for mixture rule for the mixture viscosity. More... | |
| bool | m_viscwt_ok |
| Update boolean for the weighting factors for the mixture viscosity. More... | |
| bool | m_spvisc_ok |
| Update boolean for the species viscosities. More... | |
| bool | m_bindiff_ok |
| Update boolean for the binary diffusivities at unit pressure. More... | |
| int | m_mode |
| Type of the polynomial fits to temperature. More... | |
| DenseMatrix | m_phi |
| m_phi is a Viscosity Weighting Function. size = m_nsp * n_nsp More... | |
| vector_fp | m_spwork |
| work space length = m_kk More... | |
| vector_fp | m_visc |
| vector of species viscosities (kg /m /s). More... | |
| std::vector< vector_fp > | m_visccoeffs |
| Polynomial fits to the viscosity of each species. More... | |
| vector_fp | m_mw |
| Local copy of the species molecular weights. More... | |
| DenseMatrix | m_wratjk |
| Holds square roots of molecular weight ratios. More... | |
| DenseMatrix | m_wratkj1 |
| Holds square roots of molecular weight ratios. More... | |
| vector_fp | m_sqvisc |
| vector of square root of species viscosities sqrt(kg /m /s). More... | |
| vector_fp | m_polytempvec |
| Powers of the ln temperature, up to fourth order. More... | |
| doublereal | m_temp |
| Current value of the temperature at which the properties in this object are calculated (Kelvin). More... | |
| doublereal | m_kbt |
| Current value of Boltzmann constant times the temperature (Joules) More... | |
| doublereal | m_sqrt_kbt |
| current value of Boltzmann constant times the temperature. More... | |
| doublereal | m_sqrt_t |
| current value of temperature to 1/2 power More... | |
| doublereal | m_logt |
| Current value of the log of the temperature. More... | |
| doublereal | m_t14 |
| Current value of temperature to 1/4 power. More... | |
| doublereal | m_t32 |
| Current value of temperature to the 3/2 power. More... | |
| std::vector< vector_fp > | m_diffcoeffs |
| Polynomial fits to the binary diffusivity of each species. More... | |
| DenseMatrix | m_bdiff |
| Matrix of binary diffusion coefficients at the reference pressure and the current temperature Size is nsp x nsp. More... | |
| std::vector< vector_fp > | m_condcoeffs |
| temperature fits of the heat conduction More... | |
| std::vector< vector_int > | m_poly |
| Indices for the (i,j) interaction in collision integral fits. More... | |
| std::vector< vector_fp > | m_omega22_poly |
| Fit for omega22 collision integral. More... | |
| std::vector< vector_int > | m_star_poly_uses_actualT |
| Flag to indicate for which (i,j) interaction pairs the actual temperature is used instead of the reduced temperature. More... | |
| std::vector< vector_fp > | m_astar_poly |
| Fit for astar collision integral. More... | |
| std::vector< vector_fp > | m_bstar_poly |
| Fit for bstar collision integral. More... | |
| std::vector< vector_fp > | m_cstar_poly |
| Fit for cstar collision integral. More... | |
| vector_fp | m_zrot |
| Rotational relaxation number for each species. More... | |
| vector_fp | m_crot |
| Dimensionless rotational heat capacity of each species. More... | |
| std::vector< bool > | m_polar |
| Vector of booleans indicating whether a species is a polar molecule. More... | |
| vector_fp | m_alpha |
| Polarizability of each species in the phase. More... | |
| vector_fp | m_eps |
| Lennard-Jones well-depth of the species in the current phase. More... | |
| vector_fp | m_sigma |
| Lennard-Jones diameter of the species in the current phase. More... | |
| DenseMatrix | m_reducedMass |
| This is the reduced mass of the interaction between species i and j. More... | |
| DenseMatrix | m_diam |
| hard-sphere diameter for (i,j) collision More... | |
| DenseMatrix | m_epsilon |
| The effective well depth for (i,j) collisions. More... | |
| DenseMatrix | m_dipole |
| The effective dipole moment for (i,j) collisions. More... | |
| DenseMatrix | m_delta |
| Reduced dipole moment of the interaction between two species. More... | |
| vector_fp | m_w_ac |
| Pitzer acentric factor. More... | |
| vector_fp | m_disp |
| Dispersion coefficient. More... | |
| vector_fp | m_quad_polar |
| Quadrupole polarizability. More... | |
| int | m_log_level |
| Level of verbose printing during initialization. More... | |
| Protected Attributes inherited from Transport | |
| ThermoPhase * | m_thermo |
| pointer to the object representing the phase More... | |
| bool | m_ready |
| true if finalize has been called More... | |
| size_t | m_nsp |
| Number of species. More... | |
| size_t | m_nDim |
| Number of dimensions used in flux expressions. More... | |
| int | m_velocityBasis |
| Velocity basis from which diffusion velocities are computed. More... | |
| std::weak_ptr< Solution > | m_root |
| reference to Solution More... | |
Detailed Description
Class MultiTransport implements transport properties for high pressure gas mixtures.
- Attention
- This class currently does not have any test cases or examples. Its implementation may be incomplete, and future changes to Cantera may unexpectedly cause this class to stop working. If you use this class, please consider contributing examples or test cases. In the absence of new tests or examples, this class may be deprecated and removed in a future version of Cantera. See https://github.com/Cantera/cantera/issues/267 for additional information.
The implementation employs a method of corresponding states, using the Takahashi approach for binary diffusion coefficients, (using multicomponent averaging rules for the mixture properties, and the Lucas method for the viscosity of a high-pressure gas mixture.
Definition at line 38 of file HighPressureGasTransport.h.
Constructor & Destructor Documentation
◆ HighPressureGasTransport()
|
protected |
default constructor
- Parameters
-
thermo Optional parameter for the pointer to the ThermoPhase object
Definition at line 29 of file HighPressureGasTransport.cpp.
Member Function Documentation
◆ transportType()
|
inlinevirtual |
Identifies the Transport object type.
Each derived class should override this method to return a meaningful identifier.
Reimplemented from MultiTransport.
Definition at line 48 of file HighPressureGasTransport.h.
◆ getThermalDiffCoeffs()
|
virtual |
Return the thermal diffusion coefficients (kg/m/s)
Currently not implemented for this model
Reimplemented from MultiTransport.
Definition at line 124 of file HighPressureGasTransport.cpp.
◆ thermalConductivity()
|
virtual |
Returns the mixture thermal conductivity in W/m/K.
Units are in W / m K or equivalently kg m / s3 K
- Returns
- thermal conductivity in W/m/K.
Reimplemented from MultiTransport.
Definition at line 34 of file HighPressureGasTransport.cpp.
References Cantera::BigNumber, ThermoPhase::getCp_R_ref(), Phase::getMoleFractions(), Transport::m_nsp, GasTransport::m_temp, Transport::m_thermo, GasTransport::m_w_ac, Phase::nSpecies(), Phase::temperature(), and MultiTransport::update_T().
◆ getBinaryDiffCoeffs()
|
virtual |
Returns the matrix of binary diffusion coefficients
d[ld*j + i] = rp*m_bdiff(i,j)*(DP)_R;
- Parameters
-
ld offset of rows in the storage d output vector of diffusion coefficients. Units of m**2 / s
Reimplemented from GasTransport.
Definition at line 135 of file HighPressureGasTransport.cpp.
References Phase::getMoleFractions(), GasTransport::m_bdiff, GasTransport::m_temp, Transport::m_thermo, Phase::nSpecies(), Phase::pressure(), Cantera::Tiny, MultiTransport::update_T(), and GasTransport::updateDiff_T().
◆ getMultiDiffCoeffs()
|
virtual |
Return the Multicomponent diffusion coefficients. Units: [m^2/s].
If the transport manager implements a multicomponent diffusion model, then this method returns the array of multicomponent diffusion coefficients. Otherwise it throws an exception.
- Parameters
-
[in] ld The dimension of the inner loop of d (usually equal to m_nsp) [out] d flat vector of diffusion coefficients, fortran ordering. d[ld*j+i] is the D_ij diffusion coefficient (the diffusion coefficient for species i due to concentration gradients in species j). Units: m^2/s
Reimplemented from MultiTransport.
Definition at line 192 of file HighPressureGasTransport.cpp.
References MultiTransport::eval_L0000(), Phase::getMoleFractions(), Cantera::invert(), GasTransport::m_bdiff, GasTransport::m_bindiff_ok, GasTransport::m_mw, Transport::m_nsp, GasTransport::m_temp, Transport::m_thermo, Phase::meanMolecularWeight(), Phase::nSpecies(), Phase::pressure(), Cantera::Tiny, MultiTransport::update_C(), MultiTransport::update_T(), GasTransport::updateDiff_T(), and MultiTransport::updateThermal_T().
◆ viscosity()
|
virtual |
Viscosity of the mixture (kg /m /s)
The viscosity is computed using the Wilke mixture rule (kg /m /s)
\[ \mu = \sum_k \frac{\mu_k X_k}{\sum_j \Phi_{k,j} X_j}. \]
Here \( \mu_k \) is the viscosity of pure species k, and
\[ \Phi_{k,j} = \frac{\left[1 + \sqrt{\left(\frac{\mu_k}{\mu_j}\sqrt{\frac{M_j}{M_k}}\right)}\right]^2} {\sqrt{8}\sqrt{1 + M_k/M_j}} \]
- Returns
- the viscosity of the mixture (units = Pa s = kg /m /s)
- See also
- updateViscosity_T();
Reimplemented from GasTransport.
Definition at line 276 of file HighPressureGasTransport.cpp.
References Phase::getMoleFractions(), GasTransport::m_mw, Transport::m_nsp, Transport::m_thermo, Phase::meanMolecularWeight(), Phase::nSpecies(), ThermoPhase::satPressure(), and Phase::temperature().
◆ Tcrit_i()
|
protectedvirtual |
Definition at line 394 of file HighPressureGasTransport.cpp.
◆ Pcrit_i()
|
protectedvirtual |
Definition at line 405 of file HighPressureGasTransport.cpp.
◆ Vcrit_i()
|
protectedvirtual |
Definition at line 416 of file HighPressureGasTransport.cpp.
◆ Zcrit_i()
|
protectedvirtual |
Definition at line 427 of file HighPressureGasTransport.cpp.
◆ store()
|
protected |
Definition at line 438 of file HighPressureGasTransport.cpp.
◆ FQ_i()
|
protectedvirtual |
Definition at line 450 of file HighPressureGasTransport.cpp.
◆ setPcorr()
|
protectedvirtual |
Definition at line 458 of file HighPressureGasTransport.cpp.
Friends And Related Function Documentation
◆ TransportFactory
|
friend |
Definition at line 73 of file HighPressureGasTransport.h.
The documentation for this class was generated from the following files:
