Transport Properties for Species in Phases

These classes provide transport properties. More...

Collaboration diagram for Transport Properties for Species in Phases:

Classes
class	MMCollisionInt
	Calculation of Collision integrals. More...
class	DustyGasTransport
	Class DustyGasTransport implements the Dusty Gas model for transport in porous media. More...
class	GasTransport
	Class GasTransport implements some functions and properties that are shared by the MixTransport and MultiTransport classes. More...
class	HighPressureGasTransport
	Class MultiTransport implements transport properties for high pressure gas mixtures. More...
class	IonGasTransport
	Class IonGasTransport implements Stockmayer-(n,6,4) model for transport of ions. More...
class	MixTransport
	Class MixTransport implements mixture-averaged transport properties for ideal gas mixtures. More...
class	MultiTransport
	Class MultiTransport implements multicomponent transport properties for ideal gas mixtures. More...
class	Transport
	Base class for transport property managers. More...
class	TransportFactory
	Factory class for creating new instances of classes derived from Transport. More...
class	UnityLewisTransport
	Class UnityLewisTransport implements the unity Lewis number approximation for the mixture-averaged species diffusion coefficients. More...
class	WaterTransport
	Transport Parameters for pure water. More...

Typedefs
typedef int	VelocityBasis
	The diffusion fluxes must be referenced to a particular reference fluid velocity. More...

Functions
Transport *	newDefaultTransportMgr (thermo_t *thermo, int loglevel=0)
	Create a new transport manager instance. More...

Detailed Description

These classes provide transport properties.

Typedef Documentation

VelocityBasis

typedef int VelocityBasis

The diffusion fluxes must be referenced to a particular reference fluid velocity.

Most typical is to reference the diffusion fluxes to the mass averaged velocity, but referencing to the mole averaged velocity is suitable for some liquid flows, and referencing to a single species is suitable for solid phase transport within a lattice. Currently, the identity of the reference velocity is coded into each transport object as a typedef named VelocityBasis, which is equated to an integer. Negative values of this variable refer to mass or mole-averaged velocities. Zero or positive quantities refers to the reference velocity being referenced to a particular species. Below are the predefined constants for its value.

• VB_MASSAVG Diffusion velocities are based on the mass averaged velocity
• VB_MOLEAVG Diffusion velocities are based on the mole averaged velocities
• VB_SPECIES_0 Diffusion velocities are based on the relative motion wrt species 0
• ...
• VB_SPECIES_3 Diffusion velocities are based on the relative motion wrt species 3

Definition at line 57 of file TransportBase.h.

Function Documentation

newDefaultTransportMgr()

Transport * newDefaultTransportMgr	(	thermo_t *	thermo,
		int	loglevel = 0
	)

Create a new transport manager instance.

Parameters

thermo	ThermoPhase object associated with the phase
loglevel	int containing the Loglevel, defaults to zero

Returns

a transport manager for the phase

Definition at line 123 of file TransportFactory.cpp.

Referenced by Cantera::newSolution().