EdgeKinetics Class Reference

Heterogeneous reactions at one-dimensional interfaces between multiple adjacent two-dimensional surfaces. More...

#include <EdgeKinetics.h>

Inheritance diagram for EdgeKinetics:

Collaboration diagram for EdgeKinetics:

Public Member Functions
	EdgeKinetics ()
	Constructor. More...
	EdgeKinetics (const EdgeKinetics &right)
EdgeKinetics &	operator= (const EdgeKinetics &right)
virtual Kinetics *	duplMyselfAsKinetics (const std::vector< thermo_t * > &tpVector) const
	Duplication routine for objects which inherit from Kinetics. More...
virtual int	type () const
	Identifies the kinetics manager type. More...
virtual void	finalize ()
	Finish adding reactions and prepare for use. More...
Public Member Functions inherited from InterfaceKinetics
	InterfaceKinetics (thermo_t *thermo=0)
	Constructor. More...
virtual	~InterfaceKinetics ()
	Destructor. More...
	InterfaceKinetics (const InterfaceKinetics &right)
	Copy Constructor for the Kinetics object. More...
InterfaceKinetics &	operator= (const InterfaceKinetics &right)
	Assignment operator. More...
void	setElectricPotential (int n, doublereal V)
	Set the electric potential in the nth phase. More...
void	updateROP ()
	Internal routine that updates the Rates of Progress of the reactions. More...
void	_update_rates_T ()
	Update properties that depend on temperature. More...
void	_update_rates_phi ()
	Update properties that depend on the electric potential. More...
void	_update_rates_C ()
	Update properties that depend on the species mole fractions and/or concentration,. More...
void	advanceCoverages (doublereal tstep)
	Advance the surface coverages in time. More...
void	solvePseudoSteadyStateProblem (int ifuncOverride=-1, doublereal timeScaleOverride=1.0)
	Solve for the pseudo steady-state of the surface problem. More...
void	setIOFlag (int ioFlag)
void	checkPartialEquil ()
size_t	reactionNumber () const
void	addElementaryReaction (ReactionData &r)
void	addGlobalReaction (const ReactionData &r)
void	installReagents (const ReactionData &r)
void	updateKc ()
	Update the equilibrium constants in molar units for all reversible reactions. More...
void	registerReaction (size_t rxnNumber, int type, size_t loc)
	Write values into m_index. More...
void	applyButlerVolmerCorrection (doublereal *const kf)
	Apply corrections for interfacial charge transfer reactions. More...
void	applyExchangeCurrentDensityFormulation (doublereal *const kfwd)
	When an electrode reaction rate is optionally specified in terms of its exchange current density, extra vectors need to be precalculated. More...
void	setPhaseExistence (const size_t iphase, const int exists)
	Set the existence of a phase in the reaction object. More...
void	setPhaseStability (const size_t iphase, const int isStable)
	Set the stability of a phase in the reaction object. More...
int	phaseExistence (const size_t iphase) const
	Gets the phase existence int for the ith phase. More...
int	phaseStability (const size_t iphase) const
	Gets the phase stability int for the ith phase. More...
virtual void	getFwdRatesOfProgress (doublereal *fwdROP)
	Return the forward rates of progress of the reactions. More...
virtual void	getRevRatesOfProgress (doublereal *revROP)
	Return the Reverse rates of progress of the reactions. More...
virtual void	getNetRatesOfProgress (doublereal *netROP)
	Net rates of progress. More...
virtual void	getEquilibriumConstants (doublereal *kc)
	Return a vector of Equilibrium constants. More...
void	getExchangeCurrentQuantities ()
virtual void	getDeltaGibbs (doublereal *deltaG)
	Return the vector of values for the reaction gibbs free energy change. More...
virtual void	getDeltaElectrochemPotentials (doublereal *deltaM)
	Return the vector of values for the reaction electrochemical free energy change. More...
virtual void	getDeltaEnthalpy (doublereal *deltaH)
	Return the vector of values for the reactions change in enthalpy. More...
virtual void	getDeltaEntropy (doublereal *deltaS)
	Return the vector of values for the reactions change in entropy. More...
virtual void	getDeltaSSGibbs (doublereal *deltaG)
	Return the vector of values for the reaction standard state gibbs free energy change. More...
virtual void	getDeltaSSEnthalpy (doublereal *deltaH)
	Return the vector of values for the change in the standard state enthalpies of reaction. More...
virtual void	getDeltaSSEntropy (doublereal *deltaS)
	Return the vector of values for the change in the standard state entropies for each reaction. More...
virtual void	getCreationRates (doublereal *cdot)
	Species creation rates [kmol/m^3/s or kmol/m^2/s]. More...
virtual void	getDestructionRates (doublereal *ddot)
	Species destruction rates [kmol/m^3/s or kmol/m^2/s]. More...
virtual void	getNetProductionRates (doublereal *net)
	Species net production rates [kmol/m^3/s or kmol/m^2/s]. More...
virtual doublereal	reactantStoichCoeff (size_t k, size_t i) const
	Stoichiometric coefficient of species k as a reactant in reaction i. More...
virtual doublereal	productStoichCoeff (size_t k, size_t i) const
	Stoichiometric coefficient of species k as a product in reaction i. More...
virtual int	reactionType (size_t i) const
	Flag specifying the type of reaction. More...
virtual void	getActivityConcentrations (doublereal *const conc)
	Get the vector of activity concentrations used in the kinetics object. More...
doublereal	electrochem_beta (size_t irxn) const
	Return the charge transfer rxn Beta parameter for the ith reaction. More...
virtual bool	isReversible (size_t i)
	True if reaction i has been declared to be reversible. More...
virtual std::string	reactionString (size_t i) const
	Return a string representing the reaction. More...
virtual void	getFwdRateConstants (doublereal *kfwd)
	Return the forward rate constants. More...
virtual void	getRevRateConstants (doublereal *krev, bool doIrreversible=false)
	Return the reverse rate constants. More...
virtual void	getActivationEnergies (doublereal *E)
	Return the activation energies in Kelvin. More...
virtual void	addPhase (thermo_t &thermo)
	Add a phase to the kinetics manager object. More...
virtual void	init ()
	Prepare the class for the addition of reactions. More...
virtual void	addReaction (ReactionData &r)
	Add a single reaction to the mechanism. More...
virtual bool	ready () const
	Returns true if the kinetics manager has been properly initialized and finalized. More...
Public Member Functions inherited from Kinetics
void	incrementRxnCount ()
	Increment the number of reactions in the mechanism by one. More...
void	selectPhase (const doublereal *data, const thermo_t *phase, doublereal *phase_data)
	Kinetics ()
	Default constructor. More...
virtual	~Kinetics ()
	Destructor. More...
	Kinetics (const Kinetics &)
	Copy Constructor for the Kinetics object. More...
Kinetics &	operator= (const Kinetics &right)
	Assignment operator. More...
virtual void	assignShallowPointers (const std::vector< thermo_t * > &tpVector)
	Reassign the pointers within the Kinetics object. More...
size_t	nReactions () const
	Number of reactions in the reaction mechanism. More...
void	checkReactionIndex (size_t m) const
	Check that the specified reaction index is in range Throws an exception if i is greater than nReactions() More...
void	checkReactionArraySize (size_t ii) const
	Check that an array size is at least nReactions() Throws an exception if ii is less than nReactions(). More...
void	checkSpeciesIndex (size_t k) const
	Check that the specified species index is in range Throws an exception if k is greater than nSpecies()-1. More...
void	checkSpeciesArraySize (size_t mm) const
	Check that an array size is at least nSpecies() Throws an exception if kk is less than nSpecies(). More...
size_t	nPhases () const
	The number of phases participating in the reaction mechanism. More...
void	checkPhaseIndex (size_t m) const
	Check that the specified phase index is in range Throws an exception if m is greater than nPhases() More...
void	checkPhaseArraySize (size_t mm) const
	Check that an array size is at least nPhases() Throws an exception if mm is less than nPhases(). More...
size_t	phaseIndex (const std::string &ph)
	Return the phase index of a phase in the list of phases defined within the object. More...
size_t	surfacePhaseIndex ()
	This returns the integer index of the phase which has ThermoPhase type cSurf. More...
size_t	reactionPhaseIndex ()
	Phase where the reactions occur. More...
thermo_t &	thermo (size_t n=0)
	This method returns a reference to the nth ThermoPhase object defined in this kinetics mechanism. More...
const thermo_t &	thermo (size_t n=0) const
size_t	nTotalSpecies () const
	The total number of species in all phases participating in the kinetics mechanism. More...
size_t	kineticsSpeciesIndex (size_t k, size_t n) const
	The location of species k of phase n in species arrays. More...
std::string	kineticsSpeciesName (size_t k) const
	Return the name of the kth species in the kinetics manager. More...
size_t	kineticsSpeciesIndex (const std::string &nm) const
	This routine will look up a species number based on the input std::string nm. More...
size_t	kineticsSpeciesIndex (const std::string &nm, const std::string &ph) const
	This routine will look up a species number based on the input std::string nm. More...
thermo_t &	speciesPhase (const std::string &nm)
	This function looks up the name of a species and returns a reference to the ThermoPhase object of the phase where the species resides. More...
thermo_t &	speciesPhase (size_t k)
	This function takes as an argument the kineticsSpecies index (i.e., the list index in the list of species in the kinetics manager) and returns the species' owning ThermoPhase object. More...
size_t	speciesPhaseIndex (size_t k)
	This function takes as an argument the kineticsSpecies index (i.e., the list index in the list of species in the kinetics manager) and returns the index of the phase owning the species. More...
virtual void	getReactionDelta (const doublereal *property, doublereal *deltaProperty)
	Change in species properties. More...
virtual doublereal	reactantOrder (size_t k, size_t i) const
	Reactant order of species k in reaction i. More...
virtual doublereal	productOrder (int k, int i) const
	product Order of species k in reaction i. More...
virtual const std::vector < size_t > &	reactants (size_t i) const
	Returns a read-only reference to the vector of reactant index numbers for reaction i. More...
virtual const std::vector < size_t > &	products (size_t i) const
	Returns a read-only reference to the vector of product index numbers for reaction i. More...
virtual const std::vector < grouplist_t > &	reactantGroups (size_t i)
virtual const std::vector < grouplist_t > &	productGroups (size_t i)
doublereal	multiplier (size_t i) const
	The current value of the multiplier for reaction i. More...
void	setMultiplier (size_t i, doublereal f)
	Set the multiplier for reaction i to f. More...

Additional Inherited Members
Protected Attributes inherited from InterfaceKinetics
vector_fp	m_grt
	Temporary work vector of length m_kk. More...
std::vector< size_t >	m_revindex
	List of reactions numbers which are reversible reactions. More...
Rate1< SurfaceArrhenius >	m_rates
	Templated class containing the vector of reactions for this interface. More...
bool	m_redo_rates
std::map< size_t, std::pair < int, size_t > >	m_index
	Vector of information about reactions in the mechanism. More...
std::vector< size_t >	m_irrev
	Vector of irreversible reaction numbers. More...
ReactionStoichMgr	m_rxnstoich
	Stoichiometric manager for the reaction mechanism. More...
size_t	m_nirrev
	Number of irreversible reactions in the mechanism. More...
size_t	m_nrev
	Number of reversible reactions in the mechanism. More...
std::vector< std::map< size_t, doublereal > >	m_rrxn
	m_rrxn is a vector of maps, containing the reactant stoichiometric coefficient information More...
std::vector< std::map< size_t, doublereal > >	m_prxn
	m_prxn is a vector of maps, containing the reactant stoichiometric coefficient information More...
std::vector< std::string >	m_rxneqn
	String expression for each rxn. More...
vector_fp	m_conc
	an array of generalized concentrations for each species More...
vector_fp	m_mu0
	Vector of standard state chemical potentials. More...
vector_fp	m_phi
	Vector of phase electric potentials. More...
vector_fp	m_pot
	Vector of potential energies due to Voltages. More...
vector_fp	m_rwork
	Vector temporary. More...
vector_fp	m_E
	Vector of raw activation energies for the reactions. More...
SurfPhase *	m_surf
	Pointer to the single surface phase. More...
ImplicitSurfChem *	m_integrator
	Pointer to the Implicit surface chemistry object. More...
vector_fp	m_beta
std::vector< size_t >	m_ctrxn
	Vector of reaction indexes specifying the id of the current transfer reactions in the mechanism. More...
vector_int	m_ctrxn_ecdf
	Vector of booleans indicating whether the charge transfer reaction may be described by an exchange current density expression. More...
vector_fp	m_StandardConc
vector_fp	m_deltaG0
vector_fp	m_ProdStanConcReac
doublereal	m_logp0
doublereal	m_logc0
vector_fp	m_ropf
vector_fp	m_ropr
vector_fp	m_ropnet
bool	m_ROP_ok
doublereal	m_temp
	Current temperature of the data. More...
doublereal	m_logtemp
	Current log of the temperature. More...
vector_fp	m_rfn
vector_fp	m_rkcn
bool	m_finalized
	boolean indicating whether mechanism has been finalized More...
bool	m_has_coverage_dependence
	Boolean flag indicating whether any reaction in the mechanism has a coverage dependent forward reaction rate. More...
bool	m_has_electrochem_rxns
	Boolean flag indicating whether any reaction in the mechanism has a beta electrochemical parameter. More...
bool	m_has_exchange_current_density_formulation
	Boolean flag indicating whether any reaction in the mechanism is described by an exchange current density expression. More...
int	m_phaseExistsCheck
	Int flag to indicate that some phases in the kinetics mechanism are non-existent. More...
std::vector< bool >	m_phaseExists
	Vector of booleans indicating whether phases exist or not. More...
std::vector< int >	m_phaseIsStable
	Vector of int indicating whether phases are stable or not. More...
std::vector< std::vector< bool > >	m_rxnPhaseIsReactant
	Vector of vector of booleans indicating whether a phase participates in a reaction as a reactant. More...
std::vector< std::vector< bool > >	m_rxnPhaseIsProduct
	Vector of vector of booleans indicating whether a phase participates in a reaction as a product. More...
int	m_ioFlag
Protected Attributes inherited from Kinetics
size_t	m_ii
	Number of reactions in the mechanism. More...
size_t	m_kk
	The number of species in all of the phases that participate in this kinetics mechanism. More...
vector_fp	m_perturb
	Vector of perturbation factors for each reaction's rate of progress vector. More...
std::vector< std::vector < size_t > >	m_reactants
	This is a vector of vectors containing the reactants for each reaction. More...
std::vector< std::vector < size_t > >	m_products
	This is a vector of vectors containing the products for each reaction. More...
std::vector< thermo_t * >	m_thermo
	m_thermo is a vector of pointers to ThermoPhase objects that are involved with this kinetics operator More...
std::vector< size_t >	m_start
	m_start is a vector of integers specifying the beginning position for the species vector for the n'th phase in the kinetics class. More...
std::map< std::string, size_t >	m_phaseindex
	Mapping of the phase id, i.e., the id attribute in the xml phase element to the position of the phase within the kinetics object. More...
size_t	m_surfphase
	Index in the list of phases of the one surface phase. More...
size_t	m_rxnphase
	Phase Index where reactions are assumed to be taking place. More...
size_t	m_mindim
	number of spatial dimensions of lowest-dimensional phase. More...

Detailed Description

Heterogeneous reactions at one-dimensional interfaces between multiple adjacent two-dimensional surfaces.

Definition at line 20 of file EdgeKinetics.h.

Constructor & Destructor Documentation

EdgeKinetics ( )

inline

Constructor.

Definition at line 24 of file EdgeKinetics.h.

Referenced by EdgeKinetics::duplMyselfAsKinetics().

Member Function Documentation

virtual Kinetics* duplMyselfAsKinetics ( const std::vector< thermo_t * > &  tpVector ) const

inlinevirtual

Duplication routine for objects which inherit from Kinetics.

This function can be used to duplicate objects derived from Kinetics even if the application only has a pointer to Kinetics to work with.

These routines are basically wrappers around the derived copy constructor.

Parameters

tpVector

Vector of pointers to ThermoPhase objects. this is the m_thermo vector within this object

Reimplemented from InterfaceKinetics.

Definition at line 38 of file EdgeKinetics.h.

References Kinetics::assignShallowPointers(), and EdgeKinetics::EdgeKinetics().

virtual int type ( ) const

inlinevirtual

Identifies the kinetics manager type.

Each class derived from Kinetics should overload this method to return a unique integer. Standard values are defined in file mix_defs.h.

Reimplemented from InterfaceKinetics.

Definition at line 44 of file EdgeKinetics.h.

void finalize ( )

virtual

Finish adding reactions and prepare for use.

This method is called by importKinetics() after all reactions have been entered into the mechanism and before the mechanism is used to calculate reaction rates. The base class method does nothing, but derived classes may use this to perform any initialization (allocating arrays, etc.) that must be done after the reactions are entered.

Reimplemented from InterfaceKinetics.

Definition at line 1124 of file InterfaceKinetics.cpp.

References Cantera::int2str(), InterfaceKinetics::m_finalized, Kinetics::m_perturb, InterfaceKinetics::m_rwork, InterfaceKinetics::m_surf, Phase::nDim(), Cantera::npos, Kinetics::nReactions(), Kinetics::reactionPhaseIndex(), and Kinetics::thermo().

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The documentation for this class was generated from the following files:

• EdgeKinetics.h
• InterfaceKinetics.cpp