Keywords introduced by TrioCFD that extend the Condlim_base family. See Keywords derived from condlim_base for the base-class documentation and the canonical keyword list.

cond_lim_k_complique_transition_flux_nul_demi

Adaptive wall law boundary condition for turbulent kinetic energy

cond_lim_k_simple_flux_nul

Adaptive wall law boundary condition for turbulent kinetic energy

cond_lim_omega_demi

Adaptive wall law boundary condition for turbulent dissipation rate

cond_lim_omega_dix

Adaptive wall law boundary condition for turbulent dissipation rate

contact_vdf_vef

Boundary condition in the case of two problems (VDF -> VEF).

Parameters:

champ (type: front_field_base) Boundary field type.

contact_vef_vdf

Boundary condition in the case of two problems (VEF -> VDF).

Parameters:

champ (type: front_field_base) Boundary field type.

courant_impose

Neumann boundary condition for imposed courant (multiphase problem)

Parameters:

ch (type: front_field_base) Boundary field type.

echange_contact_vdf_ft_disc

echange_conatct_vdf en prescisant la phase

Parameters:

autre_probleme (type: string) name of other problem
autre_bord (type: string) name of other boundary
autre_champ_temperature (type: string) name of other field
nom_mon_indicatrice (type: string) name of indicatrice
[ri_liq] (type: float) interficial thermal resitence of liquid
phase (type: int) phase

echange_contact_vdf_ft_disc_solid

echange_conatct_vdf en prescisant la phase

Parameters:

autre_probleme (type: string) name of other problem
autre_bord (type: string) name of other boundary
autre_champ_temperature_indic1 (type: string) name of temperature indic 1
autre_champ_temperature_indic0 (type: string) name of temperature indic 0
autre_champ_indicatrice (type: string) name of indicatrice
[dt_impr_tw] (type: float) not_set
[ri_liq] (type: float) interficial thermal resitence of liquid

frontiere_ouverte_k_eps_impose

Turbulence condition imposed on an open boundary called bord (edge) (this situation corresponds to a fluid inlet). This condition must be associated with an imposed inlet velocity condition.

Parameters:

ch (type: front_field_base) Boundary field type.

frontiere_ouverte_k_omega_impose

Turbulence condition imposed on an open boundary called bord (edge) (this situation corresponds to a fluid inlet). This condition must be associated with an imposed inlet velocity condition.

Parameters:

ch (type: front_field_base) Boundary field type.

frontiere_ouverte_rayo_semi_transp

Open boundary (free outlet) condition for the semi-transparent radiation model. Mirrors the already-declared frontiere_ouverte_rayo_transp; declared here in TrioCFD pending an upstream // XD annotation.

Parameters:

var_name (type: string into ['t_ext', 'c_ext', 'y_ext', 'k_eps_ext', 'k_omega_ext', 'fluctu_temperature_ext', 'flux_chaleur_turb_ext', 'v2_ext', 'a_ext', 'tau_ext', 'k_ext', 'omega_ext', 'h_ext', 'a_i_ext']) Field name.
ch (type: front_field_base) Boundary field type.

frontiere_ouverte_temperature_imposee_rayo_semi_transp

Imposed-temperature open boundary condition (fluid inlet) for the semi-transparent radiation model. Mirrors the already-declared frontiere_ouverte_temperature_imposee_rayo_transp; declared here in TrioCFD pending an upstream // XD annotation.

Parameters:

ch (type: front_field_base) Boundary field type.

frontiere_ouverte_vitesse_imposee_ale

Class for velocity boundary condition on a mobile boundary (ALE framework).

The imposed velocity field is vectorial of type Ch_front_input_ALE, Champ_front_ALE or Champ_front_ALE_Beam.

Example: frontiere_ouverte_vitesse_imposee_ALE Champ_front_ALE 2 0.5*cos(0.5*t) 0.0

Parameters:

ch (type: front_field_base) Boundary field type.

mixte_shear

not_set

paroi_echange_contact_odvm_vdf

not_set

Parameters:

autrepb (type: string) Name of other problem.
nameb (type: string) Name of bord.
temp (type: string) Name of field.
h (type: float) Value assigned to a coefficient (expressed in W.K-1m-2) that characterises the contact between the two mediums. In order to model perfect contact, h must be taken to be infinite. This value must obviously be the same in both the two problems blocks. The surface thermal flux exchanged between the two mediums is represented by : fi = h (T1-T2) where 1/h = d1/lambda1 + 1/val_h_contact + d2/lambda2 where di : distance between the node where Ti and the wall is found.

paroi_echange_contact_vdf_ft

This boundary condition is used between a conduction problem and a thermohydraulic problem with two phases flow (Front-Tracking method) to modelize heat exchange.

Parameters:

autrepb (type: string) Name of other problem.
nameb (type: string) Name of bord.
temp (type: string) Name of field.
h (type: float) Value assigned to a coefficient (expressed in W.K-1m-2) that characterises the contact between the two mediums. In order to model perfect contact, h must be taken to be infinite. This value must obviously be the same in both the two problems blocks. The surface thermal flux exchanged between the two mediums is represented by : fi = h (T1-T2) where 1/h = d1/lambda1 + 1/val_h_contact + d2/lambda2 where di : distance between the node where Ti and the wall is found.

paroi_frottante_loi

Adaptive wall-law boundary condition for velocity

paroi_frottante_simple

Adaptive wall-law boundary condition for velocity

paroi_ft_disc

Boundary condition for Front-Tracking problem in the discontinuous version.

Parameters:

type (type: paroi_ft_disc_deriv) Symetrie condition.

paroi_rugueuse

Rough wall boundary

Parameters:

erugu (type: float) Constant value for roughness

perio

not_set

sortie_libre_rho_variable

Class to define an outlet boundary condition at which the pressure is defined through the given field, whereas the density of the two-phase flow may varies (value of P/rho given in Pa/kg.m-3).

Parameters:

ch (type: front_field_base) Boundary field type.