1 #ifndef __CS_TURBULENCE_KE_H__
2 #define __CS_TURBULENCE_KE_H__
#define BEGIN_C_DECLS
Definition: cs_defs.h:514
double cs_real_t
Floating-point value.
Definition: cs_defs.h:319
cs_real_t cs_real_6_t[6]
vector of 6 floating-point values
Definition: cs_defs.h:336
#define END_C_DECLS
Definition: cs_defs.h:515
int cs_lnum_t
local mesh entity id
Definition: cs_defs.h:313
@ rij
Definition: cs_field_pointer.h:73
@ dt
Definition: cs_field_pointer.h:65
void cs_turbulence_ke_q_mu_t(int phase_id)
Calculation of turbulent viscosity for the non-linear quadratic K-epsilon from Baglietto et al....
Definition: cs_turbulence_ke.c:2454
void cs_turbulence_ke_clip(int phase_id, cs_lnum_t n_cells, int iclip)
Clipping of the turbulent kinetic energy and turbulent dissipation.
Definition: cs_turbulence_ke.c:2134
void cs_turbulence_ke_q(int phase_id, cs_real_6_t rij[])
Calculation of non linear terms of the quadratic k-epsilon model (Baglietto et al....
Definition: cs_turbulence_ke.c:2566
void cs_turbulence_ke(int phase_id, cs_lnum_t ncesmp, cs_lnum_t icetsm[], int itypsm[], const cs_real_t *dt, cs_real_t smacel[], cs_real_t *prdv2f)
Solve the k-epsilon equations.
void cs_turbulence_ke_mu_t(int phase_id)
Calculation of turbulent viscosity for the K-epsilon model.
Definition: cs_turbulence_ke.c:2372
integer, dimension(:), allocatable, target icetsm
number of the ncetsm cells in which a mass injection is imposed. See iicesm and the cs_equation_add_v...
Definition: pointe.f90:176
double precision, dimension(:,:), allocatable, target smacel
value of the mass source term for pressure. For the other variables, eventual imposed injection value...
Definition: pointe.f90:191
integer, dimension(:,:), allocatable, target itypsm
type of mass source term for each variable
Definition: pointe.f90:185