numerics#

class ansys.fluent.core.generated.solver.tui_251.main_menu.define.phases.set_domain_properties.interaction_domain.numerics(service, version, mode, path)#

Bases: TUIMenu

Enters the menu to set numerics models. This menu is available for multiphase models with the sharp-dispersed and phase localized discretization interface modeling options (set in define/models/multiphase/interface-modeling-options).

Methods:

__init__(service, version, mode, path)

__init__ method of TUIMenu class.

Classes:

cavitation(service, version, mode, path)

Enter the menu to set cavitation models.

drag(service, version, mode, path)

Specify the drag function for each pair of phases.

heat_coeff(service, version, mode, path)

Specify the heat transfer coefficient function between each pair of phases.

interfacial_area(service, version, mode, path)

Set the interfacial area parameters for each pair of phases.

interphase_discretization(service, version, ...)

Enters the menu to set interphase discretization models.

interphase_viscous_dissipation(service, ...)

Enter the menu to set interphase viscous dissipation related models.

lift(service, version, mode, path)

Enter the menu to set lift models.

mass_transfer(service, version, mode, path)

Specify the mass transfer mechanisms.

model_transition(service, version, mode, path)

Set the model transition mechanism.

reactions(service, version, mode, path)

Define multiple heterogeneous reactions and stoichiometry.

restitution(service, version, mode, path)

Specify the restitution coefficient for collisions between each pair of granular phases and for collisions between particles of the same granular phase.

slip_velocity(service, version, mode, path)

Specify the slip velocity function for each secondary phase with respect to the primary phase.

surface_tension(service, version, mode, path)

Enter the menu to set surface tension models.

turbulence_interaction(service, version, ...)

Specify the turbulence interaction model for each primary-secondary phase pair.

turbulent_dispersion(service, version, mode, ...)

Specify the turbulent dispersion model for each primary-secondary phase pair.

virtual_mass(service, version, mode, path)

Enter the menu to set virtual mass models.

wall_lubrication(service, version, mode, path)

Specify the wall lubrication model for each primary-secondary phase pair.

__init__(service, version, mode, path)#

__init__ method of TUIMenu class.

class drag(service, version, mode, path)#

Bases: TUIMethod

Specify the drag function for each pair of phases. It also enables drag modification and allow specifying the drag factor.

class heat_coeff(service, version, mode, path)#

Bases: TUIMethod

Specify the heat transfer coefficient function between each pair of phases.

class interfacial_area(service, version, mode, path)#

Bases: TUIMethod

Set the interfacial area parameters for each pair of phases.

class mass_transfer(service, version, mode, path)#

Bases: TUIMethod

Specify the mass transfer mechanisms.

class model_transition(service, version, mode, path)#

Bases: TUIMethod

Set the model transition mechanism.

class reactions(service, version, mode, path)#

Bases: TUIMethod

Define multiple heterogeneous reactions and stoichiometry.

class restitution(service, version, mode, path)#

Bases: TUIMethod

Specify the restitution coefficient for collisions between each pair of granular phases and for collisions between particles of the same granular phase.

class slip_velocity(service, version, mode, path)#

Bases: TUIMethod

Specify the slip velocity function for each secondary phase with respect to the primary phase.

class turbulence_interaction(service, version, mode, path)#

Bases: TUIMethod

Specify the turbulence interaction model for each primary-secondary phase pair.

class turbulent_dispersion(service, version, mode, path)#

Bases: TUIMethod

Specify the turbulent dispersion model for each primary-secondary phase pair.

class wall_lubrication(service, version, mode, path)#

Bases: TUIMethod

Specify the wall lubrication model for each primary-secondary phase pair.