There is no sense to talk about numerical simulations without talking about the boundary conditions! In order to close the discretized the system, consistent boundary conditions must be defined.

The platform TRUST implements a huge number of boundary conditions (BC). Here is a short summary of the available classes aliases that can be used to define your BC's in a TRUST simulation.

Dirichlet-type Boundary Conditions

Fluid Inlet boundary conditions

Boundary Condition Keyword	Description
Frontiere_ouverte_alpha_impose	Imposed void fraction condition at an open boundary called bord (french for edge) (corresponding to a fluid inlet). This condition must be associated with an imposed inlet velocity condition.
Frontiere_ouverte_concentration_imposee	Imposed concentration condition at an open boundary (corresponding to a fluid inlet). This condition must be associated with an imposed inlet velocity condition.
Frontiere_ouverte_fraction_massique_imposee	Imposed mass fraction condition at an open boundary (corresponding to a fluid inlet). This condition must be associated with an imposed inlet velocity condition.
Frontiere_ouverte_temperature_imposee	Imposed temperature condition at the open boundary (in the case of fluid inlet). This condition must be associated with an imposed inlet velocity condition. The imposed temperature value is expressed in C or K.
Entree_temperature_imposee_H	Particular case of class frontiere_ouverte_temperature_imposee for enthalpy equation.
Frontiere_ouverte_vitesse_imposee	Class for velocity-inlet boundary condition. The imposed velocity field at the inlet is vectorial and the imposed velocity values are expressed in m.s-1.
Frontiere_ouverte_rho_u_impose	This keyword is used to designate a condition of imposed mass rate at an open boundary. The imposed mass rate field at the inlet is vectorial and the imposed velocity values are expressed in kg.s-1. This boundary condition can be used only with the dilatable model (Low Mach Number).

Dirichlet boundary conditions

Boundary Condition Keyword	Description
Dirichlet_loi_paroi	Used for Multiphase Problem with wall laws.
Paroi_defilante	Keyword to designate a condition where tangential velocity is imposed on the wall. If the velocity components set by the user is not tangential, projection is used.
Paroi_Knudsen_non_negligeable	Boundary condition for a Knudsen number (Kn) above 0.001 where slip-flow condition appears: the velocity near the wall depends on the shear stress : Kn = l/L with l is the mean-free-path of the molecules and L a characteristic length scale.
Scalaire_impose_paroi	Imposed temperature condition at the wall.
Temperature_imposee_paroi	Imposed temperature condition at the wall.
Paroi_fixe	Keyword to designate a situation of adherence to the wall (normal and tangential velocity at the edge is zero).
Paroi	Impermeability condition at a wall (standard flux zero). This condition must be associated with a wall type hydraulic condition (Dirichlet_paroi_fixe).
Paroi_Temperature_imposee	Imposed temperature condition at the wall.

Navier boundary conditions

Boundary Condition Keyword	Description
Frottement_externe_impose	External friction BC used in Multi-Phase problems.
Frottement_global_impose	Global friction BC used in Multi-Phase problems.
Symetrie	For Navier-Stokes equations, this keyword is used to designate a symmetry condition concerning the velocity at the boundary (normal velocity at the edge equal to zero and tangential velocity gradient at the edge equal to zero). For scalar transport equation, this keyword is used to set a symmetry condition on scalar on the boundary.

Periodic boundary conditions

Boundary Condition Keyword	Description
Periodique	For Navier-Stokes equations, this keyword is used to indicate that the horizontal inlet velocity values are the same as the outlet velocity values, at every moment. As regards meshing, the inlet and outlet edges bear the same name. For scalar transport equation, this keyword is used to set a periodic condition on scalar. The two edges dealing with this periodic condition bear the same name.

Neumann-type Boundary Conditions

Wall boundary conditions

Boundary Condition Keyword	Description
Neumann_paroi_adiabatique	Adiabatic wall neumann boundary condition.
Paroi_adiabatique	Normal zero flux condition at the wall.
Paroi_flux_impose	Normal flux condition at the wall. The surface area of the flux (W.m-1 in 2D or W.m-2 in 3D) is imposed at the boundary.

Outlet boundary conditions

Boundary Condition Keyword	Description
Neumann_sortie_libre_Temp_H	Open boundary for heat equation with enthalpy as unknown.
Frontiere_ouverte_Gradient_Pression_impose	Normal imposed pressure gradient condition on the open boundary. This boundary condition may be only used in VDF discretization. The imposed pressure gradient value is expressed in Pa.m-1.
Frontiere_ouverte_pression_imposee	Imposed pressure condition at the open boundary. The imposed pressure field is expressed in Pa.
Frontiere_ouverte_Pression_imposee_Orlansky	This boundary condition may only be used with VDF discretization. There is no reference for pressure for this boundary condition so it is better to add pressure condition (with Frontiere_ouverte_pression_imposee) on one or two cells (for symetry in a channel) of the boundary where Orlansky conditions are imposed.
Frontiere_ouverte_Gradient_Pression_libre	Class for outlet boundary condition in VEF like Orlansky. There is no reference for pressure for theses boundary conditions so it is better to add pressure condition (with Frontiere_ouverte_pression_imposee) on one or two cells (for symmetry in a channel) of the boundary where Orlansky conditions are imposed.
Frontiere_ouverte_pression_moyenne_imposee	Class for open boundary with pressure mean level imposed.
Frontiere_ouverte_vitesse_imposee_sortie	Sub-class for velocity boundary condition. The imposed velocity field at the open boundary is vectorial and the imposed velocity values are expressed in m.s-1.

Coupling-type Boundary Conditions

Boundary Condition Keyword	Description
Echange_couplage_thermique	Thermal coupling boundary condition.
Paroi_contact	Thermal condition between two domains. Important: the name of the boundaries in the two domains should be the same. (Warning: there is also an old limitation not yet fixed on the sequential algorithm in VDF to detect the matching faces on the two boundaries: faces should be ordered in the same way). The kind of condition depends on the discretization. In VDF, it is a heat exchange condition, and in VEF, a temperature condition. Such a coupling requires coincident meshes for the moment. In case of non-coincident meshes, run is stopped and two external files are automatically generated in VEF (connectivity_failed_boundary_name and connectivity_failed_pb_name.med). In 2D, the keyword Decouper_bord_coincident associated to the connectivity_failed_boundary_name file allows to generate a new coincident mesh. In 3D, for a first preliminary cut domain with HOMARD (fluid for instance), the second problem associated to pb_name (solide in a fluid/solid coupling problem) has to be submitted to HOMARD cutting procedure with connectivity_failed_pb_name.med.
Paroi_contact_fictif	This keyword is derivated from paroi_contact and is especially dedicated to compute coupled fluid/solid/fluid problem in case of thin material. Thanks to this option, solid is considered as a fictitious media (no mesh, no domain associated), and coupling is performed by considering instantaneous thermal equilibrium in it (for the moment).
Echange_contact_VDF	Boundary condition type to model the heat flux between two problems. Important: the name of the boundaries in the two problems should be the same.

Robin-type Boundary Conditions

Boundary Condition Keyword	Description
Echange_externe_impose	External type exchange condition with a heat exchange coefficient and an imposed external temperature.
Echange_externe_impose_H	Particular case of class paroi_echange_externe_impose for enthalpy equation.
Echange_interne_impose	Internal heat exchange boundary condition with exchange coefficient.
Echange_interne_parfait	Internal heat exchange boundary condition with perfect (infinite) exchange coefficient.
Echange_global_impose	Global type exchange condition (internal) that is to say that diffusion on the first fluid mesh is not taken into consideration.
Echange_contact_Correlation	Class to define a thermohydraulic 1D model which will apply to a boundary of 2D or 3D domain.
Echange_interne_global_impose	Internal heat exchange boundary condition with global exchange coefficient.
Echange_interne_global_parfait	Internal heat exchange boundary condition with perfect (infinite) exchange coefficient.
Robin_VEF	Available only with the VEF Pnc-P0 discretization. Robin flux term for Navier-Stokes equations. Uses Robin coefficients alpha (normal) and beta (tangential), and a field flux_normal_et_tangentiel (concatenation of normal and tangential flux components).