Cantera
2.1.2
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Transport properties that act like pairwise interactions as in binary diffusion coefficients. More...
#include <LiquidTranInteraction.h>
Public Member Functions | |
LTI_Pairwise_Interaction (TransportPropertyType tp_ind=TP_UNKNOWN) | |
void | setParameters (LiquidTransportParams &trParam) |
Copy constructor. More... | |
doublereal | getMixTransProp (doublereal *valueSpecies, doublereal *weightSpecies=0) |
Return the mixture transport property value. More... | |
doublereal | getMixTransProp (std::vector< LTPspecies * > LTPptrs) |
void | getMatrixTransProp (DenseMatrix &mat, doublereal *speciesValues=0) |
Return the matrix of binary interaction parameters. More... | |
Public Member Functions inherited from LiquidTranInteraction | |
LiquidTranInteraction (TransportPropertyType tp_ind=TP_UNKNOWN) | |
Constructor. More... | |
LiquidTranInteraction (const LiquidTranInteraction &right) | |
LiquidTranInteraction & | operator= (const LiquidTranInteraction &right) |
virtual void | init (const XML_Node &compModelNode=XML_Node(), thermo_t *thermo=0) |
initialize LiquidTranInteraction objects with thermo and XML node More... | |
Protected Attributes | |
std::vector< LTPspecies * > | m_diagonals |
Protected Attributes inherited from LiquidTranInteraction | |
LiquidTranMixingModel | m_model |
Model for species interaction effects Takes enum LiquidTranMixingModel. More... | |
TransportPropertyType | m_property |
enum indicating what property this is (i.e viscosity) More... | |
thermo_t * | m_thermo |
pointer to thermo object to get current temperature More... | |
std::vector< DenseMatrix * > | m_Aij |
Matrix of interaction coefficients for polynomial in molefraction*weight of speciesA (no temperature dependence, dimensionless) More... | |
std::vector< DenseMatrix * > | m_Bij |
Matrix of interaction coefficients for polynomial in molefraction*weight of speciesA (linear temperature dependence, units 1/K) More... | |
DenseMatrix | m_Eij |
Matrix of interactions (in energy units, 1/RT temperature dependence) More... | |
std::vector< DenseMatrix * > | m_Hij |
Matrix of interaction coefficients for polynomial in molefraction*weight of speciesA (in energy units, 1/RT temperature dependence) More... | |
std::vector< DenseMatrix * > | m_Sij |
Matrix of interaction coefficients for polynomial in molefraction*weight of speciesA (in entropy units, divided by R) More... | |
DenseMatrix | m_Dij |
Matrix of interactions. More... | |
Transport properties that act like pairwise interactions as in binary diffusion coefficients.
This class holds parameters for transport properties expressed as a matrix of pairwise interaction parameters. Input can be provided for constant or Arrhenius forms of the separate parameters.
Sample input for this method is
* <transport model="Liquid"> * <speciesDiffusivity> * <compositionDependence model="pairwiseInteraction"> * <interaction speciesA="LiCl(L)" speciesB="KCl(L)"> * <Dij units="m/s"> 1.0e-8 </Dij> * <Eij units="J/kmol"> 24.0e6 </Eij> * </interaction> * </compositionDependence> * </speciesDiffusivity> * </transport> *
Definition at line 383 of file LiquidTranInteraction.h.
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virtual |
Copy constructor.
Assignment operator
Reimplemented from LiquidTranInteraction.
Definition at line 509 of file LiquidTranInteraction.cpp.
References LiquidTransportParams::LTData, LiquidTranInteraction::m_thermo, Phase::nSpecies(), and LiquidTransportData::speciesDiffusivity.
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virtual |
Return the mixture transport property value.
Takes the separate species transport properties as input (this method does not know what transport property it is at this point.
Reimplemented from LiquidTranInteraction.
Definition at line 522 of file LiquidTranInteraction.cpp.
References Phase::getMoleFractions(), LiquidTranInteraction::m_thermo, and Phase::nSpecies().
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virtual |
Return the matrix of binary interaction parameters.
Takes the proper mixing rule for the binary interaction parameters and calculates them
Reimplemented from LiquidTranInteraction.
Definition at line 548 of file LiquidTranInteraction.cpp.
References Phase::getMoleFractions(), LiquidTranInteraction::m_Dij, LiquidTranInteraction::m_Eij, LiquidTranInteraction::m_thermo, Phase::nSpecies(), DenseMatrix::resize(), and Phase::temperature().