1 #ifndef __CS_TURBOMACHINERY_H__
2 #define __CS_TURBOMACHINERY_H__
92 double rotation_velocity,
93 const double rotation_axis[3],
94 const double rotation_invariant[3]);
cs_turbomachinery_model_t
Definition: cs_turbomachinery.h:50
Definition: cs_turbomachinery.h:54
void cs_turbomachinery_rotation_matrix(int rotor_num, double theta, cs_real_t matrix[3][4])
Compute rotation matrix.
Definition: cs_turbomachinery.c:1208
void cs_turbomachinery_set_model(cs_turbomachinery_model_t model)
Define rotor/stator model.
Definition: cs_turbomachinery.c:702
void cs_turbomachinery_relative_velocity(int rotor_num, const cs_real_t coords[3], cs_real_t velocity[3])
Compute velocity relative to fixed coordinates at a given point.
Definition: cs_turbomachinery.c:1369
void cs_turbomachinery_rotate_fields(const cs_real_t dt[])
Rotation of vector and tensor fields.
Definition: cs_turbomachinery.c:1259
Definition: cs_turbomachinery.h:53
#define BEGIN_C_DECLS
Definition: cs_defs.h:429
void cs_turbomachinery_initialize(void)
Initializations for turbomachinery computation.
Definition: cs_turbomachinery.c:1030
int cs_turbomachinery_join_add(const char *sel_criteria, float fraction, float plane, int verbosity, int visualization)
Add a cs_join_t structure to the list of rotor/stator joinings.
Definition: cs_turbomachinery.c:787
Definition: cs_turbomachinery.h:52
const int * cs_turbomachinery_get_cell_rotor_num(void)
Return cell rotor number.
Definition: cs_turbomachinery.c:1231
double cs_turbomachinery_get_rotation_velocity(int rotor_num)
Return rotation velocity.
Definition: cs_turbomachinery.c:1245
void cs_turbomachinery_update_mesh(double t_cur_mob, double *t_elapsed)
Update mesh for unsteady rotor/stator computation.
Definition: cs_turbomachinery.c:824
cs_turbomachinery_model_t cs_turbomachinery_get_model(void)
Return rotor/stator model.
Definition: cs_turbomachinery.c:723
void cs_turbomachinery_resize_cell_fields(void)
Resize cell-based fields.
Definition: cs_turbomachinery.c:1146
void cs_turbomachinery_add_rotor(const char *cell_criteria, double rotation_velocity, const double rotation_axis[3], const double rotation_invariant[3])
Define a rotor by its axis and cell selection criteria.
Definition: cs_turbomachinery.c:743
Definition: cs_field_pointer.h:64
void matrix(const cs_int_t *const iconvp, const cs_int_t *const idiffp, const cs_int_t *const ndircp, const cs_int_t *const isym, const cs_real_t *const thetap, const cs_int_t *const imucpp, const cs_real_t coefbp[], const cs_real_t cofbfp[], const cs_real_t rovsdt[], const cs_real_t i_massflux[], const cs_real_t b_massflux[], const cs_real_t i_visc[], const cs_real_t b_visc[], const cs_real_t xcpp[], cs_real_t da[], cs_real_t xa[])
Definition: cs_matrix_building.c:111
double precision, dimension(:,:,:), allocatable theta
Definition: atimbr.f90:123
void cs_turbomachinery_finalize(void)
Free turbomachinery structure.
Definition: cs_turbomachinery.c:1092
void cs_turbomachinery_reinit_i_face_fields(void)
Reinitialize interior face-based fields.
Definition: cs_turbomachinery.c:1123
#define END_C_DECLS
Definition: cs_defs.h:430
double cs_real_t
Definition: cs_defs.h:296