8.3
general documentation
cs_hgn_phase_thermo.h
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1#ifndef __CS_HGN_PHASE_THERMO_H__
2#define __CS_HGN_PHASE_THERMO_H__
3
4/*============================================================================
5 * Phase thermodynamic for the compressible homogeneous two-phase model
6 *============================================================================*/
7
8/*
9 This file is part of code_saturne, a general-purpose CFD tool.
10
11 Copyright (C) 1998-2024 EDF S.A.
12
13 This program is free software; you can redistribute it and/or modify it under
14 the terms of the GNU General Public License as published by the Free Software
15 Foundation; either version 2 of the License, or (at your option) any later
16 version.
17
18 This program is distributed in the hope that it will be useful, but WITHOUT
19 ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
20 FOR A PARTICULAR PURPOSE. See the GNU General Public License for more
21 details.
22
23 You should have received a copy of the GNU General Public License along with
24 this program; if not, write to the Free Software Foundation, Inc., 51 Franklin
25 Street, Fifth Floor, Boston, MA 02110-1301, USA.
26*/
27
28/*----------------------------------------------------------------------------*/
29
30#include "cs_defs.h"
31
32/*----------------------------------------------------------------------------
33 * Standard C library headers
34 *----------------------------------------------------------------------------*/
35
36/*----------------------------------------------------------------------------*/
37
38BEGIN_C_DECLS
39
40/*============================================================================
41 * Public function definitions
42 *============================================================================*/
43
44/*----------------------------------------------------------------------------*/
55/*----------------------------------------------------------------------------*/
56
57void
58cs_hgn_thermo_define_stiffened_gas(int iph,
59 cs_real_t cv,
60 cs_real_t gamma,
61 cs_real_t pinf,
62 cs_real_t qprim,
63 cs_real_t q);
64
65/*----------------------------------------------------------------------------*/
76/*----------------------------------------------------------------------------*/
77
78cs_real_t
79cs_hgn_phase_thermo_entropy_ve(cs_real_t vol,
80 cs_real_t energ,
81 int iph);
82
83/*----------------------------------------------------------------------------*/
94/*----------------------------------------------------------------------------*/
95
96cs_real_t
97cs_hgn_phase_thermo_temperature_ve(cs_real_t vol,
98 cs_real_t energ,
99 int iph);
100
101/*----------------------------------------------------------------------------*/
112/*----------------------------------------------------------------------------*/
113
114cs_real_t
115cs_hgn_phase_thermo_pressure_ve(cs_real_t vol,
116 cs_real_t energ,
117 int iph);
118
119/*----------------------------------------------------------------------------*/
127/*----------------------------------------------------------------------------*/
128
129cs_real_t
130cs_hgn_phase_thermo_internal_energy_tp(cs_real_t T,
131 cs_real_t P,
132 int iph);
133
134/*----------------------------------------------------------------------------*/
142/*----------------------------------------------------------------------------*/
143
144cs_real_t
145cs_hgn_phase_thermo_specific_volume_tp(cs_real_t T,
146 cs_real_t P,
147 int iph);
148
149/*----------------------------------------------------------------------------*/
157/*----------------------------------------------------------------------------*/
158
159cs_real_t
160cs_hgn_phase_thermo_entropy_tp(cs_real_t T,
161 cs_real_t P,
162 int iph);
163
164/*----------------------------------------------------------------------------*/
172/*----------------------------------------------------------------------------*/
173
174cs_real_t
175cs_hgn_phase_thermo_internal_energy_sv(cs_real_t s,
176 cs_real_t v,
177 int iph);
178
179/*----------------------------------------------------------------------------*/
180
181END_C_DECLS
182
183#endif /* __CS_HGN_PHASE_THERMO_H__ */
cs_defs.h
BEGIN_C_DECLS
#define BEGIN_C_DECLS
Definition: cs_defs.h:542
cs_real_t
double cs_real_t
Floating-point value.
Definition: cs_defs.h:342
END_C_DECLS
#define END_C_DECLS
Definition: cs_defs.h:543
gamma
@ gamma
Definition: cs_field_pointer.h:224
cv
@ cv
Definition: cs_field_pointer.h:103
cs_hgn_phase_thermo_temperature_ve
cs_real_t cs_hgn_phase_thermo_temperature_ve(cs_real_t vol, cs_real_t energ, int iph)
Computation of the temperature of phase iph.
Definition: cs_hgn_phase_thermo.cpp:173
cs_hgn_phase_thermo_internal_energy_tp
cs_real_t cs_hgn_phase_thermo_internal_energy_tp(cs_real_t T, cs_real_t P, int iph)
Computation of internal energy of phase iph in plane (T,P).
Definition: cs_hgn_phase_thermo.cpp:215
cs_hgn_phase_thermo_specific_volume_tp
cs_real_t cs_hgn_phase_thermo_specific_volume_tp(cs_real_t T, cs_real_t P, int iph)
Computation of specific volume of phase iph in plane (T,P).
Definition: cs_hgn_phase_thermo.cpp:236
cs_hgn_phase_thermo_internal_energy_sv
cs_real_t cs_hgn_phase_thermo_internal_energy_sv(cs_real_t s, cs_real_t v, int iph)
Computation of internal energy of phase iph in plane (s,v).
Definition: cs_hgn_phase_thermo.cpp:279
cs_hgn_phase_thermo_pressure_ve
cs_real_t cs_hgn_phase_thermo_pressure_ve(cs_real_t vol, cs_real_t energ, int iph)
Computation of the pressure of phase iph.
Definition: cs_hgn_phase_thermo.cpp:194
cs_hgn_phase_thermo_entropy_ve
cs_real_t cs_hgn_phase_thermo_entropy_ve(cs_real_t vol, cs_real_t energ, int iph)
Computation of the entropy of phase iph (0 or 1).
Definition: cs_hgn_phase_thermo.cpp:152
cs_hgn_thermo_define_stiffened_gas
void cs_hgn_thermo_define_stiffened_gas(int iph, cs_real_t cv, cs_real_t gamma, cs_real_t pinf, cs_real_t qprim, cs_real_t q)
Define stiffened gas parameters for phase iph.
Definition: cs_hgn_phase_thermo.cpp:118
cs_hgn_phase_thermo_entropy_tp
cs_real_t cs_hgn_phase_thermo_entropy_tp(cs_real_t T, cs_real_t P, int iph)
Computation of entropy of phase iph in plane (T,P).
Definition: cs_hgn_phase_thermo.cpp:257
atimbr::v
double precision, dimension(:,:,:), allocatable v
Definition: atimbr.f90:113