#include <cs_lagr.h>

Collaboration diagram for cs_lagr_source_terms_t:

Data Fields
int	ltsdyn

int	ltsmas

int	ltsthe

int	itsli

int	itske

int	itste

int	itsti

int	itsmas

int *	itsmv1

int *	itsmv2

int	itsco

int	itsfp4

int	nstits

int	npts

int	ntxerr

cs_real_t	vmax

cs_real_t	tmamax

cs_real_t *	st_val

Detailed Description

2-way coupling and source term information.

Field Documentation

◆ itsco

int itsco

source term for the carbon released during heterogeneous combustion

◆ itsfp4

int itsfp4

variance of the air scalar

◆ itske

int itske

◆ itsli

int itsli

implicit source term for the continuous phase velocity and for the turbulent energy if the $k-\varepsilon$ model is used

◆ itsmas

int itsmas

mass source term

◆ itsmv1

int* itsmv1

◆ itsmv2

int* itsmv2

◆ itste

int itste

explicit thermal source term for the thermal scalar of the continuous phase

◆ itsti

int itsti

implicit thermal source term for the thermal scalar of the continuous phase

◆ ltsdyn

int ltsdyn

activation (=1) or not (=0) of the two-way coupling on the dynamics of the continuous phase. Useful if iilagr = CS_LAGR_TWOWAY_COUPLING and iccvfg = 0

◆ ltsmas

int ltsmas

activation (=1) or not (=0) of the two-way coupling on the mass. Useful if iilagr = CS_LAGR_TWOWAY_COUPLING, physical_model = 1 and impvar = 1

◆ ltsthe

int ltsthe

◆ npts

int npts

number of time steps for source terms accumulations

◆ nstits

int nstits

number of absolute time steps (including the restarts) after which a time-average of the two-way coupling source terms is calculated. indeed, if the flow is steady (isttio=1), the average quantities that appear in the two-way coupling source terms can be calculated over different time steps, in order to get a better precision. if the number of absolute time steps is strictly inferior to nstits, the code considers that the flow has not yet reached its steady state (transition period) and the averages appearing in the source terms are reinitialized at each time step, as it is the case for unsteady flows (isttio=0). Useful if iilagr = CS_LAGR_TWOWAY_COUPLING and isttio = 1

◆ ntxerr

int ntxerr

number of cells, whose vulumetric rate DODO (concentration ?)is greather than 0.8

◆ st_val

cs_real_t* st_val

source term values

◆ tmamax

cs_real_t tmamax

maximum massic concentration reached

◆ vmax

cs_real_t vmax

maximum volumetric concentration reached

The documentation for this struct was generated from the following file:

src/lagr/cs_lagr.h

Data Fields