pointe Module Reference

Data Types
type	pmapper_double_r1
	container for rank 1 double precision array pointer. More...
type	pmapper_double_r2
	container for rank 2 double precision array pointer. More...
type	pmapper_double_r3
	container for rank 3 double precision array pointer. More...

Functions/Subroutines
subroutine	init_aux_arrays (ncelet, nfabor)
subroutine	resize_aux_arrays
subroutine	finalize_aux_arrays
subroutine	init_kpdc
subroutine	finalize_kpdc
subroutine	init_tsma (nvar)
subroutine	finalize_tsma
subroutine	init_pcond (nvar)
subroutine	finalize_pcond
subroutine	init_vcond (nvar, ncelet)
subroutine	finalize_vcond
subroutine	boundary_conditions_init
subroutine	boundary_conditions_finalize
subroutine	init_1d_wall_thermal
	Allocate the cs_glob_1d_wall_thermal structure.
subroutine	cs_1d_wall_thermal_get_faces (ifpt1d)
	Return pointer to the ifpt1d array for the 1D wall thermal module.
subroutine	cs_1d_wall_thermal_get_temp (tppt1d)
	Return pointer to the tppt1d array for the 1D wall thermal module.

Variables
integer, dimension(1), target	ivoid1
integer, dimension(1, 1), target	ivoid2
double precision, dimension(1), target	rvoid1
double precision, dimension(1, 1), target	rvoid2
double precision, dimension(1, 1, 1), target	rvoid3
integer, dimension(:), pointer, save	itypfb
	boundary condition type at the boundary face ifac (see user subroutine cs_user_boundary_conditions)
integer, dimension(:), allocatable	itrifb
	indirection array allowing to sort the boundary faces according to their boundary condition type itypfb
integer, dimension(:), pointer	izfppp
	to identify boundary zones associated with boundary faces (specific physics models)
integer, dimension(:), allocatable	idfstr
	the index of the structure, (idfstr(ifac) where ifac is the index of the face), 0 if the face is not coupled to any structure.
integer(c_int), pointer, save	nfpt1d
	number of boundary faces which are coupled with a wall 1D thermal module. See the user subroutine cs_user_1d_wall_thermal
integer(c_int), pointer, save	nfpt1t
	global number of boundary faces which are coupled with a wall 1D thermal module. (ie sum over all ranks of nfpt1d)
integer, save	ncepdc
	number of cells in which a pressure drop is imposed.
integer, dimension(:), allocatable	icepdc
	number of the ncepdc cells in which a pressure drop is imposed. See {iicepd}
integer, dimension(:), allocatable	izcpdc
	zones with head losses
double precision, dimension(:,:), allocatable	ckupdc
	value of the coefficients of the pressure drop tensor of the ncepdc cells in which a pressure drop is imposed. Note the 6 values are interleaved as follows: (k11, k22, k33, k12, k23, k13). See ickpdc
double precision, dimension(:), allocatable	b_head_loss
	Head loss factor of the fluid outside the domain, between infinity and the entrance (for ifrent boundary type). The default value is 0, dimensionless factor. The user may give a value in cs_user_boundary_conditions in the array rcodcl(ifac, ipr, 2).
integer, save	ncetsm
	number of the ncetsm cells in which a mass source term is imposed. See iicesm and the user subroutine Examples of data settings for mass source terms (cs_user_mass_source_terms.f90)
integer, dimension(:), allocatable	icetsm
	number of the ncetsm cells in which a mass source term is imposed. See iicesm and the user subroutine Examples of data settings for mass source terms (cs_user_mass_source_terms.f90)}}
integer, dimension(:), allocatable	izctsm
	zone where a mass source term is imposed.
integer, dimension(:,:), allocatable	itypsm
	type of mass source term for each variable
double precision, dimension(:,:), allocatable	smacel
	value of the mass source term for pressure. For the other variables, eventual imposed injection value. See the user subroutine Examples of data settings for mass source terms (cs_user_mass_source_terms.f90)
double precision, dimension(:), allocatable	gamcav
	liquid-vapour mass transfer term for cavitating flows and its derivative with respect to pressure
double precision, dimension(:), allocatable	dgdpca
integer, save	nfbpcd
	number of the nfbpcd faces in which a condensation source terms is imposed. See ifbpcd and the user subroutine cs_user_boundary_mass_source_terms
integer, dimension(:), allocatable	ifbpcd
	list on the nfbpcd faces in which a condensation source terms is imposed. See ifbpcd and the user subroutine cs_user_boundary_mass_source_terms
integer, dimension(:), allocatable	izftcd
	zone where a condensation source terms is imposed.
integer, dimension(:,:), allocatable	itypcd
	type of condensation source terms for each variable
double precision, dimension(:,:), allocatable	spcond
	value of the condensation source terms for pressure. For the other variables, eventual imposed specific value. See the user subroutine cs_user_boundary_mass_source_terms
double precision, dimension(:), allocatable	thermal_condensation_flux
	value of the thermal flux for the condensation model. See the user subroutine cs_user_boundary_mass_source_terms
double precision, dimension(:), allocatable	hpcond
	value of the thermal exchange coefficient associated to the condensation model used. See the user subroutine cs_user_boundary_mass_source_terms
double precision, dimension(:), allocatable	flthr
	Specific 1D thermal model with implicit time scheme (only used with condensation modelling to the cold wall) flthr ! external heat flux used as flux conditions ! of the 1d thermal model (in unit ).
double precision, dimension(:), allocatable	dflthr
	dflthr ! external heat flux derivative used as flux conditions ! of the 1d thermal model (in unit ).
integer, save	ncmast
	number of the ncmast cells in which a condensation source terms is imposed. See lstmast list and the subroutine cs_user_metal_structures_source_terms
integer, dimension(:), allocatable	ltmast
	list on the ncmast cells in which a condensation source terms is imposed. See the user subroutine cs_user_metal_structures_source_terms.
integer, dimension(:), allocatable	izmast
	zone type where a condensation source terms is imposed to model the metal structures condensation on a volumic zone.
integer, dimension(:,:), allocatable	itypst
	type of condensation source terms for each variable
double precision, dimension(:,:), allocatable	svcond
	value of the condensation source terms for pressure associated to the metal structures modelling. For the other variables, eventual imposed specific value. See the user subroutine cs_user_metal_structures_source_terms.
double precision, dimension(:), allocatable	flxmst
	value of the thermal flux for the condensation model associated to the metal structures modelling. See the user subroutine cs_user_metal_structures_source_terms.
double precision, dimension(:,:), pointer, save	tslagr

Function/Subroutine Documentation

boundary_conditions_finalize()

subroutine boundary_conditions_finalize

boundary_conditions_init()

subroutine boundary_conditions_init

cs_1d_wall_thermal_get_faces()

subroutine cs_1d_wall_thermal_get_faces

(

integer, dimension(:), intent(out), pointer

ifpt1d

)

Return pointer to the ifpt1d array for the 1D wall thermal module.

Parameters

[out]

ifpt1d

pointer to ifpt1d

cs_1d_wall_thermal_get_temp()

subroutine cs_1d_wall_thermal_get_temp

(

double precision, dimension(:), intent(out), pointer

tppt1d

)

Return pointer to the tppt1d array for the 1D wall thermal module.

Parameters

[out]

tppt1d

pointer to tppt1d

finalize_aux_arrays()

subroutine finalize_aux_arrays

finalize_kpdc()

subroutine finalize_kpdc

finalize_pcond()

subroutine finalize_pcond

finalize_tsma()

subroutine finalize_tsma

finalize_vcond()

subroutine finalize_vcond

init_1d_wall_thermal()

subroutine init_1d_wall_thermal

Allocate the cs_glob_1d_wall_thermal structure.

init_aux_arrays()

subroutine init_aux_arrays	(	integer, intent(in)	ncelet,
		integer, intent(in)	nfabor
	)

init_kpdc()

subroutine init_kpdc

init_pcond()

subroutine init_pcond

(

integer

nvar

)

init_tsma()

subroutine init_tsma

(

integer

nvar

)

init_vcond()

subroutine init_vcond	(	integer	nvar,
		integer	ncelet
	)

resize_aux_arrays()

subroutine resize_aux_arrays