Variables | |
| integer | nmodmx |
| number of specific physics | |
| integer(c_int), dimension(:), pointer, save | ippmod |
| global indicator for speciphic physics By default, all the indicators ippmod(i.....) are initialized to -1, which means that no specific physics is activated. | |
| integer | iphpar |
| ippmod(iphpar) is a global indicator for the specific physics: | |
| integer | icod3p |
| pointer for specific physics | |
| integer | islfm |
| pointer to specify steady laminar flamelet approach | |
| integer | icoebu |
| pointer to specify Eddy Break Up pre-mixed flame with indicator ippmod(icoebu) | |
| integer | icolwc |
| pointer to specify Libby-Williams pre-mixed flame withy indicator ippmod(icolwc) | |
| integer | ieljou |
| pointer to specify Joule effect module (Laplace forces not taken into account) with indicator ippmod(ieljou): | |
| integer | ielarc |
| pointer to specify Electric arcs module (Joule effect and Laplace forces) with indicator ippmod(ielarc): | |
| integer | iccoal |
| pointer to specify multi-coals and multi-classes pulverised coal combustion with indicator ippmod(iccoal). The number of different coals must be inferior or equal to ncharm = 3. The number of particle size classes nclpch(icha) for the coal icha, must be inferior or equal to ncpcmx = 10. | |
| integer | icompf |
| pointer to specify compressible module with indicator ippmod(icompf) | |
| integer | iatmos |
| pointer to specify atmospheric flow module with indicator ippmod(iatmos) | |
| integer | iaeros |
| pointer to specify cooling towers module with indicator ippmod(iaeros) | |
| integer | igmix |
| pointer to specify gas mixture module with indicator ippmod(igmix) | |
| integer iaeros |
pointer to specify cooling towers module with indicator ippmod(iaeros)
| integer iatmos |
pointer to specify atmospheric flow module with indicator ippmod(iatmos)
| integer iccoal |
pointer to specify multi-coals and multi-classes pulverised coal combustion with indicator ippmod(iccoal). The number of different coals must be inferior or equal to ncharm = 3. The number of particle size classes nclpch(icha) for the coal icha, must be inferior or equal to ncpcmx = 10.
| integer icod3p |
pointer for specific physics
| integer icoebu |
pointer to specify Eddy Break Up pre-mixed flame with indicator ippmod(icoebu)
| integer icolwc |
pointer to specify Libby-Williams pre-mixed flame withy indicator ippmod(icolwc)
| integer icompf |
pointer to specify compressible module with indicator ippmod(icompf)
| integer ielarc |
pointer to specify Electric arcs module (Joule effect and Laplace forces) with indicator ippmod(ielarc):
| integer ieljou |
pointer to specify Joule effect module (Laplace forces not taken into account) with indicator ippmod(ieljou):
| integer igmix |
pointer to specify gas mixture module with indicator ippmod(igmix)
| integer iphpar |
ippmod(iphpar) is a global indicator for the specific physics:
| integer(c_int), dimension(:), pointer, save ippmod |
global indicator for speciphic physics By default, all the indicators ippmod(i.....) are initialized to -1, which means that no specific physics is activated.
Eddy Break Up pre-mixed flame: indicator ippmod(icoebu)
Libby-Williams pre-mixed flame: indicator ippmod(icolwc)
Multi-coals and multi-classes pulverised coal combustion: indicator ippmod(iccoal)
The number of different coals must be inferior or equal to ncharm = 5. The number of particle size classes nclpch(icha) for the coal icha, must be inferior or equal to ncpcmx = 20.
Electric arcs module (Joule effect and Laplace forces): indicator ippmod(ielarc)
Joule effect module (Laplace forces not taken into account): indicator ippmod(ieljou)
compressible flow module: indicator ippmod(icompf)
atmospheric flow module: indicator ippmod(iatmos)
| integer islfm |
pointer to specify steady laminar flamelet approach
| integer nmodmx |
number of specific physics