#include "cs_defs.h"#include <assert.h>#include <errno.h>#include <stdio.h>#include <stdlib.h>#include <stdarg.h>#include <string.h>#include <math.h>#include <float.h>#include "bft_mem.h"#include "bft_error.h"#include "bft_printf.h"#include "cs_array.h"#include "cs_balance.h"#include "cs_blas.h"#include "cs_convection_diffusion.h"#include "cs_dispatch.h"#include "cs_equation.h"#include "cs_equation_iterative_solve.h"#include "cs_face_viscosity.h"#include "cs_field.h"#include "cs_field_default.h"#include "cs_field_pointer.h"#include "cs_field_operator.h"#include "cs_gradient.h"#include "cs_lagr.h"#include "cs_log.h"#include "cs_log_iteration.h"#include "cs_mass_source_terms.h"#include "cs_math.h"#include "cs_mesh.h"#include "cs_mesh_quantities.h"#include "cs_parall.h"#include "cs_physical_constants.h"#include "cs_physical_model.h"#include "cs_porous_model.h"#include "cs_prototypes.h"#include "cs_rotation.h"#include "cs_solid_zone.h"#include "cs_thermal_model.h"#include "cs_time_step.h"#include "cs_turbulence_model.h"#include "cs_turbulence_rotation.h"#include "cs_volume_mass_injection.h"#include "cs_velocity_pressure.h"#include "cs_wall_functions.h"#include "cs_at_data_assim.h"#include "cs_atprke.h"#include "cs_turbulence_ke.h"Functions | |
| void | cs_turbulence_ke (int phase_id, cs_real_t *prdv2f) |
| Solve the k-epsilon equations. | |
| void | cs_turbulence_ke_clip (int phase_id, cs_lnum_t n_cells, int iclip) |
| Clipping of the turbulent kinetic energy and turbulent dissipation. | |
| void | cs_turbulence_ke_mu_t (int phase_id) |
| Calculation of turbulent viscosity for the K-epsilon model. | |
| 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. (2005) | |
| 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.) | |
Solve the 
| void cs_turbulence_ke | ( | int | phase_id, |
| cs_real_t * | prdv2f ) |
Solve the k-epsilon equations.
Solve the 
| [in] | phase_id | turbulent phase id (-1 for single phase flow) |
| [out] | prdv2f | v2f production term |
| void cs_turbulence_ke_clip | ( | int | phase_id, |
| cs_lnum_t | n_cells, | ||
| int | iclip ) |
Clipping of the turbulent kinetic energy and turbulent dissipation.
| [in] | phase_id | turbulent phase id (-1 for single phase flow) |
| [in] | n_cells | number of cells |
| [in] | iclip | indicator = 0 if viscl0 is used otherwise viscl is used. |
| void cs_turbulence_ke_mu_t | ( | int | phase_id | ) |
Calculation of turbulent viscosity for the K-epsilon model.
| [in] | phase_id | turbulent phase id (-1 for single phase flow) |
| 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.)
| [in] | phase_id | turbulent phase id (-1 for single phase flow) |
| [out] | rij | non linear terms of quadratic Boussinesq approximation |
| 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. (2005)
| [in] | phase_id | turbulent phase id (-1 for single phase flow) |