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| | MultiTransport (ThermoPhase *thermo=0) |
| | default constructor
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| string | transportModel () const override |
| | Identifies the model represented by this Transport object.
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| void | getThermalDiffCoeffs (double *const dt) override |
| | Return the thermal diffusion coefficients (kg/m/s)
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| double | thermalConductivity () override |
| | Returns the mixture thermal conductivity in W/m/K.
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| void | getMultiDiffCoeffs (const size_t ld, double *const d) override |
| | Return the Multicomponent diffusion coefficients. Units: [m^2/s].
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| void | getSpeciesFluxes (size_t ndim, const double *const grad_T, size_t ldx, const double *const grad_X, size_t ldf, double *const fluxes) override |
| | Get the species diffusive mass fluxes wrt to the mass averaged velocity, given the gradients in mole fraction and temperature.
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| void | getMolarFluxes (const double *const state1, const double *const state2, const double delta, double *const fluxes) override |
| | Get the molar diffusional fluxes [kmol/m^2/s] of the species, given the thermodynamic state at two nearby points.
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| void | getMassFluxes (const double *state1, const double *state2, double delta, double *fluxes) override |
| | Get the mass diffusional fluxes [kg/m^2/s] of the species, given the thermodynamic state at two nearby points.
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| void | init (ThermoPhase *thermo, int mode=0, int log_level=0) override |
| | Initialize a transport manager.
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| double | viscosity () override |
| | Viscosity of the mixture (kg /m /s)
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| void | getSpeciesViscosities (double *const visc) override |
| | Get the pure-species viscosities.
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| void | getBinaryDiffCoeffs (const size_t ld, double *const d) override |
| | Returns the matrix of binary diffusion coefficients.
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| void | getMixDiffCoeffs (double *const d) override |
| | Returns the Mixture-averaged diffusion coefficients [m^2/s].
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| void | getMixDiffCoeffsMole (double *const d) override |
| | Returns the mixture-averaged diffusion coefficients [m^2/s].
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| void | getMixDiffCoeffsMass (double *const d) override |
| | Returns the mixture-averaged diffusion coefficients [m^2/s].
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| void | getViscosityPolynomial (size_t i, double *coeffs) const override |
| | Return the polynomial fits to the viscosity of species i.
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| void | getConductivityPolynomial (size_t i, double *coeffs) const override |
| | Return the temperature fits of the heat conductivity of species i.
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| void | getBinDiffusivityPolynomial (size_t i, size_t j, double *coeffs) const override |
| | Return the polynomial fits to the binary diffusivity of species pair (i, j)
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| void | getCollisionIntegralPolynomial (size_t i, size_t j, double *astar_coeffs, double *bstar_coeffs, double *cstar_coeffs) const override |
| | Return the polynomial fits to the collision integral of species pair (i, j)
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| void | setViscosityPolynomial (size_t i, double *coeffs) override |
| | Modify the polynomial fits to the viscosity of species i.
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| void | setConductivityPolynomial (size_t i, double *coeffs) override |
| | Modify the temperature fits of the heat conductivity of species i.
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| void | setBinDiffusivityPolynomial (size_t i, size_t j, double *coeffs) override |
| | Modify the polynomial fits to the binary diffusivity of species pair (i, j)
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| void | setCollisionIntegralPolynomial (size_t i, size_t j, double *astar_coeffs, double *bstar_coeffs, double *cstar_coeffs, bool actualT) override |
| | Modify the polynomial fits to the collision integral of species pair (i, j)
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| void | init (ThermoPhase *thermo, int mode=0, int log_level=0) override |
| | Initialize a transport manager.
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| bool | CKMode () const override |
| | Boolean indicating the form of the transport properties polynomial fits.
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| | Transport (ThermoPhase *thermo=0, size_t ndim=npos) |
| | Constructor.
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| Transport (const Transport &)=delete |
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Transport & | operator= (const Transport &)=delete |
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| virtual string | transportModel () const |
| | Identifies the model represented by this Transport object.
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| string | transportType () const |
| | Identifies the Transport object type.
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| ThermoPhase & | thermo () |
| | Phase object.
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| bool | ready () |
| | Returns true if the transport manager is ready for use.
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| void | setNDim (const int ndim) |
| | Set the number of dimensions to be expected in flux expressions.
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| size_t | nDim () const |
| | Return the number of dimensions in flux expressions.
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| void | checkSpeciesIndex (size_t k) const |
| | Check that the specified species index is in range.
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| void | checkSpeciesArraySize (size_t kk) const |
| | Check that an array size is at least nSpecies().
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| virtual double | getElectricConduct () |
| | Compute the mixture electrical conductivity (S m-1) at the current conditions of the phase (Siemens m-1)
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| virtual void | getElectricCurrent (int ndim, const double *grad_T, int ldx, const double *grad_X, int ldf, const double *grad_V, double *current) |
| | Compute the electric current density in A/m^2.
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| virtual void | getSpeciesFluxes (size_t ndim, const double *const grad_T, size_t ldx, const double *const grad_X, size_t ldf, double *const fluxes) |
| | Get the species diffusive mass fluxes wrt to the specified solution averaged velocity, given the gradients in mole fraction and temperature.
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| virtual void | getSpeciesFluxesES (size_t ndim, const double *grad_T, size_t ldx, const double *grad_X, size_t ldf, const double *grad_Phi, double *fluxes) |
| | Get the species diffusive mass fluxes wrt to the mass averaged velocity, given the gradients in mole fraction, temperature and electrostatic potential.
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| virtual void | getSpeciesVdiff (size_t ndim, const double *grad_T, int ldx, const double *grad_X, int ldf, double *Vdiff) |
| | Get the species diffusive velocities wrt to the mass averaged velocity, given the gradients in mole fraction and temperature.
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| virtual void | getSpeciesVdiffES (size_t ndim, const double *grad_T, int ldx, const double *grad_X, int ldf, const double *grad_Phi, double *Vdiff) |
| | Get the species diffusive velocities wrt to the mass averaged velocity, given the gradients in mole fraction, temperature, and electrostatic potential.
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| virtual void | getMolarFluxes (const double *const state1, const double *const state2, const double delta, double *const cfluxes) |
| | Get the molar fluxes [kmol/m^2/s], given the thermodynamic state at two nearby points.
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| virtual void | getMassFluxes (const double *state1, const double *state2, double delta, double *mfluxes) |
| | Get the mass fluxes [kg/m^2/s], given the thermodynamic state at two nearby points.
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| virtual void | getThermalDiffCoeffs (double *const dt) |
| | Return a vector of Thermal diffusion coefficients [kg/m/sec].
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| virtual void | getBinaryDiffCoeffs (const size_t ld, double *const d) |
| | Returns the matrix of binary diffusion coefficients [m^2/s].
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| virtual void | getMultiDiffCoeffs (const size_t ld, double *const d) |
| | Return the Multicomponent diffusion coefficients. Units: [m^2/s].
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| virtual void | getMixDiffCoeffs (double *const d) |
| | Returns a vector of mixture averaged diffusion coefficients.
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| virtual void | getMixDiffCoeffsMole (double *const d) |
| | Returns a vector of mixture averaged diffusion coefficients.
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| virtual void | getMixDiffCoeffsMass (double *const d) |
| | Returns a vector of mixture averaged diffusion coefficients.
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| virtual void | getViscosityPolynomial (size_t i, double *coeffs) const |
| | Return the polynomial fits to the viscosity of species i.
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| virtual void | getConductivityPolynomial (size_t i, double *coeffs) const |
| | Return the temperature fits of the heat conductivity of species i.
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| 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)
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| 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)
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| virtual void | setViscosityPolynomial (size_t i, double *coeffs) |
| | Modify the polynomial fits to the viscosity of species i.
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| virtual void | setConductivityPolynomial (size_t i, double *coeffs) |
| | Modify the temperature fits of the heat conductivity of species i.
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| virtual void | setBinDiffusivityPolynomial (size_t i, size_t j, double *coeffs) |
| | Modify the polynomial fits to the binary diffusivity of species pair (i, j)
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| virtual void | setCollisionIntegralPolynomial (size_t i, size_t j, double *astar_coeffs, double *bstar_coeffs, double *cstar_coeffs, bool flag) |
| | Modify the polynomial fits to the collision integral of species pair (i, j)
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| virtual void | setParameters (const int type, const int k, const double *const p) |
| | Set model parameters for derived classes.
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| AnyMap | parameters () const |
| | Return the parameters for a phase definition which are needed to reconstruct an identical object using the newTransport function.
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| void | setVelocityBasis (VelocityBasis ivb) |
| | Sets the velocity basis.
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| VelocityBasis | getVelocityBasis () const |
| | Gets the velocity basis.
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| virtual double | bulkViscosity () |
| | The bulk viscosity in Pa-s.
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| virtual double | ionConductivity () |
| | The ionic conductivity in 1/ohm/m.
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| virtual void | getSpeciesIonConductivity (double *const ionCond) |
| | Returns the pure species ionic conductivity.
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| virtual void | mobilityRatio (double *mobRat) |
| | Returns the pointer to the mobility ratios of the species in the phase.
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| virtual void | getSpeciesMobilityRatio (double **mobRat) |
| | Returns the pure species limit of the mobility ratios.
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| virtual double | electricalConductivity () |
| | The electrical conductivity (Siemens/m).
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| virtual void | getMobilities (double *const mobil_e) |
| | Get the Electrical mobilities (m^2/V/s).
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| virtual void | getFluidMobilities (double *const mobil_f) |
| | Get the fluid mobilities (s kmol/kg).
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| virtual void | setThermo (ThermoPhase &thermo) |
| | Specifies the ThermoPhase object.
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| virtual void | setRoot (shared_ptr< Solution > root) |
| | Set root Solution holding all phase information.
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| double | m_thermal_tlast |
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| DenseMatrix | m_astar |
| | Dense matrix for astar.
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| DenseMatrix | m_bstar |
| | Dense matrix for bstar.
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| DenseMatrix | m_cstar |
| | Dense matrix for cstar.
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| vector< double > | m_cinternal |
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| vector< double > | m_sqrt_eps_k |
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| DenseMatrix | m_log_eps_k |
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| vector< double > | m_frot_298 |
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| vector< double > | m_rotrelax |
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| double | m_lambda |
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| DenseMatrix | m_Lmatrix |
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| DenseMatrix | m_aa |
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| vector< double > | m_a |
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| vector< double > | m_b |
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| vector< double > | m_spwork1 |
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| vector< double > | m_spwork2 |
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| vector< double > | m_spwork3 |
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| vector< double > | m_molefracs_last |
| | Mole fraction vector from last L-matrix evaluation.
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| bool | m_l0000_ok |
| | Boolean indicating viscosity is up to date.
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| bool | m_lmatrix_soln_ok |
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| bool | m_debug |
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| vector< double > | m_molefracs |
| | Vector of species mole fractions.
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| double | m_viscmix = 0.0 |
| | Internal storage for the viscosity of the mixture (kg /m /s)
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| bool | m_visc_ok = false |
| | Update boolean for mixture rule for the mixture viscosity.
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| bool | m_viscwt_ok = false |
| | Update boolean for the weighting factors for the mixture viscosity.
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| bool | m_spvisc_ok = false |
| | Update boolean for the species viscosities.
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| bool | m_bindiff_ok = false |
| | Update boolean for the binary diffusivities at unit pressure.
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| int | m_mode = 0 |
| | Type of the polynomial fits to temperature.
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| DenseMatrix | m_phi |
| | m_phi is a Viscosity Weighting Function. size = m_nsp * n_nsp
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| vector< double > | m_spwork |
| | work space length = m_kk
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| vector< double > | m_visc |
| | vector of species viscosities (kg /m /s).
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| vector< vector< double > > | m_visccoeffs |
| | Polynomial fits to the viscosity of each species.
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| vector< double > | m_mw |
| | Local copy of the species molecular weights.
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| DenseMatrix | m_wratjk |
| | Holds square roots of molecular weight ratios.
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| DenseMatrix | m_wratkj1 |
| | Holds square roots of molecular weight ratios.
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| vector< double > | m_sqvisc |
| | vector of square root of species viscosities sqrt(kg /m /s).
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| vector< double > | m_polytempvec |
| | Powers of the ln temperature, up to fourth order.
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| double | m_temp = -1.0 |
| | Current value of the temperature at which the properties in this object are calculated (Kelvin).
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| double | m_kbt = 0.0 |
| | Current value of Boltzmann constant times the temperature (Joules)
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| double | m_sqrt_t = 0.0 |
| | current value of temperature to 1/2 power
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| double | m_logt = 0.0 |
| | Current value of the log of the temperature.
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| double | m_t14 = 0.0 |
| | Current value of temperature to 1/4 power.
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| vector< vector< double > > | m_diffcoeffs |
| | Polynomial fits to the binary diffusivity of each species.
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| DenseMatrix | m_bdiff |
| | Matrix of binary diffusion coefficients at the reference pressure and the current temperature Size is nsp x nsp.
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| vector< vector< double > > | m_condcoeffs |
| | temperature fits of the heat conduction
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| vector< vector< int > > | m_poly |
| | Indices for the (i,j) interaction in collision integral fits.
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| vector< vector< double > > | m_omega22_poly |
| | Fit for omega22 collision integral.
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| 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.
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| vector< vector< double > > | m_astar_poly |
| | Fit for astar collision integral.
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| vector< vector< double > > | m_bstar_poly |
| | Fit for bstar collision integral.
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| vector< vector< double > > | m_cstar_poly |
| | Fit for cstar collision integral.
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| vector< double > | m_zrot |
| | Rotational relaxation number for each species.
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| vector< double > | m_crot |
| | Dimensionless rotational heat capacity of each species.
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| vector< bool > | m_polar |
| | Vector of booleans indicating whether a species is a polar molecule.
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| vector< double > | m_alpha |
| | Polarizability of each species in the phase.
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| vector< double > | m_eps |
| | Lennard-Jones well-depth of the species in the current phase.
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| vector< double > | m_sigma |
| | Lennard-Jones diameter of the species in the current phase.
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| DenseMatrix | m_reducedMass |
| | This is the reduced mass of the interaction between species i and j.
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| DenseMatrix | m_diam |
| | hard-sphere diameter for (i,j) collision
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| DenseMatrix | m_epsilon |
| | The effective well depth for (i,j) collisions.
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| DenseMatrix | m_dipole |
| | The effective dipole moment for (i,j) collisions.
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| DenseMatrix | m_delta |
| | Reduced dipole moment of the interaction between two species.
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| vector< double > | m_w_ac |
| | Pitzer acentric factor.
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| vector< double > | m_disp |
| | Dispersion coefficient.
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| vector< double > | m_quad_polar |
| | Quadrupole polarizability.
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| int | m_log_level = 0 |
| | Level of verbose printing during initialization.
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| ThermoPhase * | m_thermo |
| | pointer to the object representing the phase
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| bool | m_ready = false |
| | true if finalize has been called
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| size_t | m_nsp = 0 |
| | Number of species.
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| size_t | m_nDim |
| | Number of dimensions used in flux expressions.
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| int | m_velocityBasis = VB_MASSAVG |
| | Velocity basis from which diffusion velocities are computed.
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| std::weak_ptr< Solution > | m_root |
| | reference to Solution
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Public Member Functions inherited from GasTransport
1.9.7