Collaboration diagram for Auxiliary:

Variables
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 $W.m^{-2}$ ).

double precision, dimension(:), allocatable	dflthr
	dflthr ! external heat flux derivative used as flux conditions ! of the 1d thermal model (in unit $W.m^{-3}$ ).

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.

Detailed Description

Variable Documentation

◆ b_head_loss

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).

◆ ckupdc

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

◆ dflthr

double precision, dimension(:), allocatable dflthr

dflthr ! external heat flux derivative used as flux conditions ! of the 1d thermal model (in unit $W.m^{-3}$ ).

◆ dgdpca

double precision, dimension(:), allocatable dgdpca

◆ flthr

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 $W.m^{-2}$ ).

◆ flxmst

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.

◆ gamcav

double precision, dimension(:), allocatable gamcav

liquid-vapour mass transfer term for cavitating flows and its derivative with respect to pressure

◆ hpcond

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

◆ icepdc

integer, dimension(:), allocatable icepdc

number of the ncepdc cells in which a pressure drop is imposed. See {iicepd}

◆ icetsm

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)}}

◆ ifbpcd

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

◆ itypcd

integer, dimension(:,:), allocatable itypcd

type of condensation source terms for each variable

0 for an variable at ambient value,
1 for an variable at imposed value. See the user subroutine cs_user_boundary_mass_source_terms

◆ itypsm

integer, dimension(:,:), allocatable itypsm

type of mass source term for each variable

0 for an injection at ambient value,
1 for an injection at imposed value. See the user subroutine Examples of data settings for mass source terms (cs_user_mass_source_terms.f90)

◆ itypst

integer, dimension(:,:), allocatable itypst

type of condensation source terms for each variable

0 for a variable at ambient value,
1 for a variable at imposed value. See the user subroutine cs_user_metal_structures_source_terms.

◆ izcpdc

integer, dimension(:), allocatable izcpdc

zones with head losses

◆ izctsm

integer, dimension(:), allocatable izctsm

zone where a mass source term is imposed.

◆ izftcd

integer, dimension(:), allocatable izftcd

zone where a condensation source terms is imposed.

◆ izmast

integer, dimension(:), allocatable izmast

zone type where a condensation source terms is imposed to model the metal structures condensation on a volumic zone.

◆ ltmast

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.

◆ ncepdc

integer, save ncepdc

number of cells in which a pressure drop is imposed.

◆ ncetsm

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)

◆ ncmast

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

◆ nfbpcd

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

◆ smacel

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)

◆ spcond

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

◆ svcond

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.

◆ thermal_condensation_flux

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

Variables