interaction_domain#

class ansys.fluent.core.generated.solver.tui_242.main_menu.define.phases.set_domain_properties.interaction_domain(service, version, mode, path)#

Bases: TUIMenu

Enters the menu to set the interaction domain properties.

Methods:

__init__(service, version, mode, path)

__init__ method of TUIMenu class.

Classes:

`forces`(service, version, mode, path)	Enters the menu to set interfacial forces models.
`heat_mass_reactions`(service, version, mode, path)	Enters the menu to set heat, mass-transfer, and reaction models.
`interfacial_area`(service, version, mode, path)	Enters the menu to set interfacial area models.
`model_transition`(service, version, mode, path)	Enters the menu to set model transition mechanisms.
`numerics`(service, version, mode, path)	Enters the menu to set numerics models.

__init__(service, version, mode, path)#: __init__ method of TUIMenu class.

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

Bases: TUIMenu

Enters the menu to set interfacial forces models.

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)	Specifies the drag function, drag modification, and drag factor 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, ...)	Enter 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)	Enters the menu to set the lift force.
`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)	Specifies 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)	Specifies the slip velocity function for each secondary phase with respect to the primary phase.
`surface_tension`(service, version, mode, path)	Enters the menu to set surface tension models.
`turbulence_interaction`(service, version, ...)	Specifies the turbulence interaction model for each primary-secondary phase pair.
`turbulent_dispersion`(service, version, mode, ...)	Specifies the turbulent dispersion model for each primary-secondary phase pair.
`virtual_mass`(service, version, mode, path)	Enters the menu to set virtual mass models.
`wall_lubrication`(service, version, mode, path)	Specifies the wall lubrication model for each primary-secondary phase pair.

__init__(service, version, mode, path)#: __init__ method of TUIMenu class.

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

Bases: TUIMenu

Enter the menu to set cavitation models.

Methods:

__init__(service, version, mode, path)

__init__ method of TUIMenu class.

Classes:

`cavitation`(service, version, mode, path)	Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.
`interphase_discr`(service, version, mode, path)	Enable the phase localized compressive discretization scheme where the degree of diffusion/sharpness is controlled through the value of the slope limiters?.
`interphase_visc_disp`(service, version, mode, ...)	Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.
`jump_adhesion`(service, version, mode, path)	Enable the treatment of the contact angle specification at the porous jump boundary?.
`lift`(service, version, mode, path)
`lift_montoya`(service, version, mode, path)	Include the Montoya correction for Lift.
`lift_shaver_podowski`(service, version, mode, ...)	Include the Shaver-Podowski correction for Lift.
`sfc_model_type`(service, version, mode, path)	Select the surface tension model.
`sfc_modeling`(service, version, mode, path)	Include the effects of surface tension along the fluid-fluid interface?.
`sfc_tension_coeff`(service, version, mode, path)	Specify the surface tension coefficient for each pair of phases.
`slope_limiter`(service, version, mode, path)	Specify the slope limiter to set a specific discretization scheme.
`virtual_mass`(service, version, mode, path)	Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.
`visc_disp_factor`(service, version, mode, path)	Set the dissipation intensity.
`vmass_coeff`(service, version, mode, path)	Specify the virtual mass coefficient for each pair of phases.
`vmass_implicit`(service, version, mode, path)	Enable the implicit method for the virtual mass force?.
`vmass_implicit_options`(service, version, ...)	Select the virtual mass implicit option.
`wall_adhesion`(service, version, mode, path)	Enable the specification for a wall adhesion angle?.

__init__(service, version, mode, path)#: __init__ method of TUIMenu class.

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

Bases: TUIMethod

Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.

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

Bases: TUIMethod

Enable the phase localized compressive discretization scheme where the degree of diffusion/sharpness is controlled through the value of the slope limiters?.

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

Bases: TUIMethod

Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.

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

Bases: TUIMethod

Enable the treatment of the contact angle specification at the porous jump boundary?.

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

Bases: TUIMethod

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

Bases: TUIMethod

Include the Montoya correction for Lift.

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

Bases: TUIMethod

Include the Shaver-Podowski correction for Lift.

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

Bases: TUIMethod

Select the surface tension model.

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

Bases: TUIMethod

Include the effects of surface tension along the fluid-fluid interface?.

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

Bases: TUIMethod

Specify the surface tension coefficient for each pair of phases.

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

Bases: TUIMethod

Specify the slope limiter to set a specific discretization scheme. 0: first order upwind, 1: second order reconstruction bounded by the global minimum/maximum of the volume fraction, 2: compressive. Value between 0 and 2: blended scheme.

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

Bases: TUIMethod

Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.

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

Bases: TUIMethod

Set the dissipation intensity.

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

Bases: TUIMethod

Specify the virtual mass coefficient for each pair of phases.

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

Bases: TUIMethod

Enable the implicit method for the virtual mass force?.

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

Bases: TUIMethod

Select the virtual mass implicit option.

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

Bases: TUIMethod

Enable the specification for a wall adhesion angle?.

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

Bases: TUIMethod

Specifies the drag function, drag modification, and drag factor for each pair of phases. This command is available only with the Eulerian and Mixture multiphase models.

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 interphase_discretization(service, version, mode, path)#

Bases: TUIMenu

Enter the menu to set interphase discretization models.

Methods:

__init__(service, version, mode, path)

__init__ method of TUIMenu class.

Classes:

`cavitation`(service, version, mode, path)	Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.
`interphase_discr`(service, version, mode, path)	Enable the phase localized compressive discretization scheme where the degree of diffusion/sharpness is controlled through the value of the slope limiters?.
`interphase_visc_disp`(service, version, mode, ...)	Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.
`jump_adhesion`(service, version, mode, path)	Enable the treatment of the contact angle specification at the porous jump boundary?.
`lift`(service, version, mode, path)
`lift_montoya`(service, version, mode, path)	Include the Montoya correction for Lift.
`lift_shaver_podowski`(service, version, mode, ...)	Include the Shaver-Podowski correction for Lift.
`sfc_model_type`(service, version, mode, path)	Select the surface tension model.
`sfc_modeling`(service, version, mode, path)	Include the effects of surface tension along the fluid-fluid interface?.
`sfc_tension_coeff`(service, version, mode, path)	Specify the surface tension coefficient for each pair of phases.
`slope_limiter`(service, version, mode, path)	Specify the slope limiter to set a specific discretization scheme.
`virtual_mass`(service, version, mode, path)	Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.
`visc_disp_factor`(service, version, mode, path)	Set the dissipation intensity.
`vmass_coeff`(service, version, mode, path)	Specify the virtual mass coefficient for each pair of phases.
`vmass_implicit`(service, version, mode, path)	Enable the implicit method for the virtual mass force?.
`vmass_implicit_options`(service, version, ...)	Select the virtual mass implicit option.
`wall_adhesion`(service, version, mode, path)	Enable the specification for a wall adhesion angle?.

__init__(service, version, mode, path)#: __init__ method of TUIMenu class.

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

Bases: TUIMethod

Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.

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

Bases: TUIMethod

Enable the phase localized compressive discretization scheme where the degree of diffusion/sharpness is controlled through the value of the slope limiters?.

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

Bases: TUIMethod

Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.

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

Bases: TUIMethod

Enable the treatment of the contact angle specification at the porous jump boundary?.

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

Bases: TUIMethod

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

Bases: TUIMethod

Include the Montoya correction for Lift.

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

Bases: TUIMethod

Include the Shaver-Podowski correction for Lift.

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

Bases: TUIMethod

Select the surface tension model.

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

Bases: TUIMethod

Include the effects of surface tension along the fluid-fluid interface?.

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

Bases: TUIMethod

Specify the surface tension coefficient for each pair of phases.

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

Bases: TUIMethod

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

Bases: TUIMethod

Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.

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

Bases: TUIMethod

Set the dissipation intensity.

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

Bases: TUIMethod

Specify the virtual mass coefficient for each pair of phases.

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

Bases: TUIMethod

Enable the implicit method for the virtual mass force?.

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

Bases: TUIMethod

Select the virtual mass implicit option.

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

Bases: TUIMethod

Enable the specification for a wall adhesion angle?.

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

Bases: TUIMenu

Enter the menu to set interphase viscous dissipation related models.

Methods:

__init__(service, version, mode, path)

__init__ method of TUIMenu class.

Classes:

`cavitation`(service, version, mode, path)	Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.
`interphase_discr`(service, version, mode, path)	Enable the phase localized compressive discretization scheme where the degree of diffusion/sharpness is controlled through the value of the slope limiters?.
`interphase_visc_disp`(service, version, mode, ...)	Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.
`jump_adhesion`(service, version, mode, path)	Enable the treatment of the contact angle specification at the porous jump boundary?.
`lift`(service, version, mode, path)
`lift_montoya`(service, version, mode, path)	Include the Montoya correction for Lift.
`lift_shaver_podowski`(service, version, mode, ...)	Include the Shaver-Podowski correction for Lift.
`sfc_model_type`(service, version, mode, path)	Select the surface tension model.
`sfc_modeling`(service, version, mode, path)	Include the effects of surface tension along the fluid-fluid interface?.
`sfc_tension_coeff`(service, version, mode, path)	Specify the surface tension coefficient for each pair of phases.
`slope_limiter`(service, version, mode, path)	Specify the slope limiter to set a specific discretization scheme.
`virtual_mass`(service, version, mode, path)	Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.
`visc_disp_factor`(service, version, mode, path)	Set the dissipation intensity.
`vmass_coeff`(service, version, mode, path)	Specify the virtual mass coefficient for each pair of phases.
`vmass_implicit`(service, version, mode, path)	Enable the implicit method for the virtual mass force?.
`vmass_implicit_options`(service, version, ...)	Select the virtual mass implicit option.
`wall_adhesion`(service, version, mode, path)	Enable the specification for a wall adhesion angle?.

__init__(service, version, mode, path)#: __init__ method of TUIMenu class.

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

Bases: TUIMethod

Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.

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

Bases: TUIMethod

Enable the phase localized compressive discretization scheme where the degree of diffusion/sharpness is controlled through the value of the slope limiters?.

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

Bases: TUIMethod

Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.

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

Bases: TUIMethod

Enable the treatment of the contact angle specification at the porous jump boundary?.

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

Bases: TUIMethod

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

Bases: TUIMethod

Include the Montoya correction for Lift.

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

Bases: TUIMethod

Include the Shaver-Podowski correction for Lift.

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

Bases: TUIMethod

Select the surface tension model.

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

Bases: TUIMethod

Include the effects of surface tension along the fluid-fluid interface?.

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

Bases: TUIMethod

Specify the surface tension coefficient for each pair of phases.

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

Bases: TUIMethod

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

Bases: TUIMethod

Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.

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

Bases: TUIMethod

Set the dissipation intensity.

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

Bases: TUIMethod

Specify the virtual mass coefficient for each pair of phases.

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

Bases: TUIMethod

Enable the implicit method for the virtual mass force?.

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

Bases: TUIMethod

Select the virtual mass implicit option.

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

Bases: TUIMethod

Enable the specification for a wall adhesion angle?.

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

Bases: TUIMenu

Enters the menu to set the lift force. This item is available only with the Eulerian multiphase model.

Methods:

__init__(service, version, mode, path)

__init__ method of TUIMenu class.

Classes:

`cavitation`(service, version, mode, path)	Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.
`interphase_discr`(service, version, mode, path)	Enable the phase localized compressive discretization scheme where the degree of diffusion/sharpness is controlled through the value of the slope limiters?.
`interphase_visc_disp`(service, version, mode, ...)	Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.
`jump_adhesion`(service, version, mode, path)	Enable the treatment of the contact angle specification at the porous jump boundary?.
`lift`(service, version, mode, path)	Specifies the lift function for each pair of phases.
`lift_montoya`(service, version, mode, path)	Include the Montoya correction for Lift.
`lift_shaver_podowski`(service, version, mode, ...)	Enables/disables the Shaver-Podowski lift correction.
`sfc_model_type`(service, version, mode, path)	Select the surface tension model.
`sfc_modeling`(service, version, mode, path)	Include the effects of surface tension along the fluid-fluid interface?.
`sfc_tension_coeff`(service, version, mode, path)	Specify the surface tension coefficient for each pair of phases.
`slope_limiter`(service, version, mode, path)	Specify the slope limiter to set a specific discretization scheme.
`virtual_mass`(service, version, mode, path)	Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.
`visc_disp_factor`(service, version, mode, path)	Set the dissipation intensity.
`vmass_coeff`(service, version, mode, path)	Specify the virtual mass coefficient for each pair of phases.
`vmass_implicit`(service, version, mode, path)	Enable the implicit method for the virtual mass force?.
`vmass_implicit_options`(service, version, ...)	Select the virtual mass implicit option.
`wall_adhesion`(service, version, mode, path)	Enable the specification for a wall adhesion angle?.

__init__(service, version, mode, path)#: __init__ method of TUIMenu class.

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

Bases: TUIMethod

Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.

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

Bases: TUIMethod

Enable the phase localized compressive discretization scheme where the degree of diffusion/sharpness is controlled through the value of the slope limiters?.

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

Bases: TUIMethod

Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.

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

Bases: TUIMethod

Enable the treatment of the contact angle specification at the porous jump boundary?.

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

Bases: TUIMethod

Specifies the lift function for each pair of phases.

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

Bases: TUIMethod

Include the Montoya correction for Lift.

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

Bases: TUIMethod

Enables/disables the Shaver-Podowski lift correction.

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

Bases: TUIMethod

Select the surface tension model.

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

Bases: TUIMethod

Include the effects of surface tension along the fluid-fluid interface?.

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

Bases: TUIMethod

Specify the surface tension coefficient for each pair of phases.

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

Bases: TUIMethod

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

Bases: TUIMethod

Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.

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

Bases: TUIMethod

Set the dissipation intensity.

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

Bases: TUIMethod

Specify the virtual mass coefficient for each pair of phases.

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

Bases: TUIMethod

Enable the implicit method for the virtual mass force?.

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

Bases: TUIMethod

Select the virtual mass implicit option.

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

Bases: TUIMethod

Enable the specification for a wall adhesion angle?.

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

Specifies the restitution coefficient for collisions between each pair of granular phases, and for collisions between particles of the same granular phase. This command is available only for multiphase flows with two or more granular phases.

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

Bases: TUIMethod

Specifies the slip velocity function for each secondary phase with respect to the primary phase. This command is available only for the Mixture multiphase model.

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

Bases: TUIMenu

Enters the menu to set surface tension models.

Methods:

__init__(service, version, mode, path)

__init__ method of TUIMenu class.

Classes:

`cavitation`(service, version, mode, path)	Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.
`interphase_discr`(service, version, mode, path)	Enable the phase localized compressive discretization scheme where the degree of diffusion/sharpness is controlled through the value of the slope limiters?.
`interphase_visc_disp`(service, version, mode, ...)	Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.
`jump_adhesion`(service, version, mode, path)	Enables/disables the treatment of the contact angle specification at the porous jump boundary.
`lift`(service, version, mode, path)
`lift_montoya`(service, version, mode, path)	Include the Montoya correction for Lift.
`lift_shaver_podowski`(service, version, mode, ...)	Include the Shaver-Podowski correction for Lift.
`sfc_model_type`(service, version, mode, path)	Selects the surface tension model.
`sfc_modeling`(service, version, mode, path)	Allows you to include the effects of surface tension along the fluid-fluid interface.
`sfc_tension_coeff`(service, version, mode, path)	Specifies the surface tension coefficient for each pair of phases.
`slope_limiter`(service, version, mode, path)	Specify the slope limiter to set a specific discretization scheme.
`virtual_mass`(service, version, mode, path)	Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.
`visc_disp_factor`(service, version, mode, path)	Set the dissipation intensity.
`vmass_coeff`(service, version, mode, path)	Specify the virtual mass coefficient for each pair of phases.
`vmass_implicit`(service, version, mode, path)	Enable the implicit method for the virtual mass force?.
`vmass_implicit_options`(service, version, ...)	Select the virtual mass implicit option.
`wall_adhesion`(service, version, mode, path)	Enables/disables the specification for a wall adhesion angle.

__init__(service, version, mode, path)#: __init__ method of TUIMenu class.

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

Bases: TUIMethod

Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.

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

Bases: TUIMethod

Enable the phase localized compressive discretization scheme where the degree of diffusion/sharpness is controlled through the value of the slope limiters?.

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

Bases: TUIMethod

Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.

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

Bases: TUIMethod

Enables/disables the treatment of the contact angle specification at the porous jump boundary. This command is available only for the VOF multiphase model with the continuum surface stress model option and when sfc-modeling? is enabled.

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

Bases: TUIMethod

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

Bases: TUIMethod

Include the Montoya correction for Lift.

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

Bases: TUIMethod

Include the Shaver-Podowski correction for Lift.

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

Bases: TUIMethod

Selects the surface tension model. You can choose between the continuum surface force and continuum surface stress methods. This item is available only when sfc-modeling? is enabled.

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

Bases: TUIMethod

Allows you to include the effects of surface tension along the fluid-fluid interface. This option is only available for the VOF and Eulerian multiphase models.

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

Bases: TUIMethod

Specifies the surface tension coefficient for each pair of phases.

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

Bases: TUIMethod

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

Bases: TUIMethod

Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.

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

Bases: TUIMethod

Set the dissipation intensity.

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

Bases: TUIMethod

Specify the virtual mass coefficient for each pair of phases.

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

Bases: TUIMethod

Enable the implicit method for the virtual mass force?.

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

Bases: TUIMethod

Select the virtual mass implicit option.

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

Bases: TUIMethod

Enables/disables the specification for a wall adhesion angle. This item is available only whensfc-modeling? is enabled.

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

Bases: TUIMethod

Specifies the turbulence interaction model for each primary-secondary phase pair. This command is available only with the Eulerian multiphase model.

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

Bases: TUIMethod

Specifies the turbulent dispersion model for each primary-secondary phase pair. This command is available only with the Eulerian multiphase model.

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

Bases: TUIMenu

Enters the menu to set virtual mass models.

Methods:

__init__(service, version, mode, path)

__init__ method of TUIMenu class.

Classes:

`cavitation`(service, version, mode, path)	Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.
`interphase_discr`(service, version, mode, path)	Enable the phase localized compressive discretization scheme where the degree of diffusion/sharpness is controlled through the value of the slope limiters?.
`interphase_visc_disp`(service, version, mode, ...)	Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.
`jump_adhesion`(service, version, mode, path)	Enable the treatment of the contact angle specification at the porous jump boundary?.
`lift`(service, version, mode, path)
`lift_montoya`(service, version, mode, path)	Include the Montoya correction for Lift.
`lift_shaver_podowski`(service, version, mode, ...)	Include the Shaver-Podowski correction for Lift.
`sfc_model_type`(service, version, mode, path)	Select the surface tension model.
`sfc_modeling`(service, version, mode, path)	Include the effects of surface tension along the fluid-fluid interface?.
`sfc_tension_coeff`(service, version, mode, path)	Specify the surface tension coefficient for each pair of phases.
`slope_limiter`(service, version, mode, path)	Specify the slope limiter to set a specific discretization scheme.
`virtual_mass`(service, version, mode, path)	Allows you to include the virtual mass force effect that occurs when a secondary phase accelerates relative to the primary phase.
`visc_disp_factor`(service, version, mode, path)	Set the dissipation intensity.
`vmass_coeff`(service, version, mode, path)	Specifies the virtual mass coefficient for each pair of phases.
`vmass_implicit`(service, version, mode, path)	Enables/disables the implicit method for the virtual mass force.
`vmass_implicit_options`(service, version, ...)	Specifies what form of the implicit method to use (default, option-2, or option-3).
`wall_adhesion`(service, version, mode, path)	Enable the specification for a wall adhesion angle?.

__init__(service, version, mode, path)#: __init__ method of TUIMenu class.

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

Bases: TUIMethod

Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.

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

Bases: TUIMethod

Enable the phase localized compressive discretization scheme where the degree of diffusion/sharpness is controlled through the value of the slope limiters?.

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

Bases: TUIMethod

Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.

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

Bases: TUIMethod

Enable the treatment of the contact angle specification at the porous jump boundary?.

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

Bases: TUIMethod

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

Bases: TUIMethod

Include the Montoya correction for Lift.

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

Bases: TUIMethod

Include the Shaver-Podowski correction for Lift.

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

Bases: TUIMethod

Select the surface tension model.

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

Bases: TUIMethod

Include the effects of surface tension along the fluid-fluid interface?.

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

Bases: TUIMethod

Specify the surface tension coefficient for each pair of phases.

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

Bases: TUIMethod

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

Bases: TUIMethod

Allows you to include the virtual mass force effect that occurs when a secondary phase accelerates relative to the primary phase. This command is available only with the Eulerian multiphase model.

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

Bases: TUIMethod

Set the dissipation intensity.

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

Bases: TUIMethod

Specifies the virtual mass coefficient for each pair of phases. This option is available only ifvirtual-mass? is enabled.

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

Bases: TUIMethod

Enables/disables the implicit method for the virtual mass force. This option can improve convergence in some cases. This option is available only if virtual-mass? is enabled.

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

Bases: TUIMethod

Specifies what form of the implicit method to use (default, option-2, or option-3). default models the entire virtual mass force while option-2 and option-3 model truncated expressions which may further improve convergence. This option is available only if vmass-implicit? is enabled.

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

Bases: TUIMethod

Enable the specification for a wall adhesion angle?.

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

Bases: TUIMethod

Specifies the wall lubrication model for each primary-secondary phase pair. This command is available only with the Eulerian multiphase model.

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

Bases: TUIMenu

Enters the menu to set heat, mass-transfer, and reaction models.

Methods:

__init__(service, version, mode, path)

__init__ method of TUIMenu class.

Classes:

`cavitation`(service, version, mode, path)	Enters 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)	Species the heat transfer coefficient function between each pair of phases (constant-htc, nusselt-number, ranz-marshall, hughmark, tomiyama, fixed-to-sat-temp, two-resistance, or user-defined).
`interfacial_area`(service, version, mode, path)	Set the interfacial area parameters for each pair of phases.
`interphase_discretization`(service, version, ...)	Enter 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)	Allows you to 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 cavitation(service, version, mode, path)#

Bases: TUIMenu

Enters the menu to set cavitation models. This option is available only for the Mixture multiphase model with the Singhal-et-al cavitation model enabled via solve/set/advanced/singhal-et-al-cavitation-model.

Methods:

__init__(service, version, mode, path)

__init__ method of TUIMenu class.

Classes:

`cavitation`(service, version, mode, path)	Sets the vaporization pressure, surface tension coefficient, and non-condensable gas mass fraction.
`interphase_discr`(service, version, mode, path)	Enable the phase localized compressive discretization scheme where the degree of diffusion/sharpness is controlled through the value of the slope limiters?.
`interphase_visc_disp`(service, version, mode, ...)	Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.
`jump_adhesion`(service, version, mode, path)	Enable the treatment of the contact angle specification at the porous jump boundary?.
`lift`(service, version, mode, path)
`lift_montoya`(service, version, mode, path)	Include the Montoya correction for Lift.
`lift_shaver_podowski`(service, version, mode, ...)	Include the Shaver-Podowski correction for Lift.
`sfc_model_type`(service, version, mode, path)	Select the surface tension model.
`sfc_modeling`(service, version, mode, path)	Include the effects of surface tension along the fluid-fluid interface?.
`sfc_tension_coeff`(service, version, mode, path)	Specify the surface tension coefficient for each pair of phases.
`slope_limiter`(service, version, mode, path)	Specify the slope limiter to set a specific discretization scheme.
`virtual_mass`(service, version, mode, path)	Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.
`visc_disp_factor`(service, version, mode, path)	Set the dissipation intensity.
`vmass_coeff`(service, version, mode, path)	Specify the virtual mass coefficient for each pair of phases.
`vmass_implicit`(service, version, mode, path)	Enable the implicit method for the virtual mass force?.
`vmass_implicit_options`(service, version, ...)	Select the virtual mass implicit option.
`wall_adhesion`(service, version, mode, path)	Enable the specification for a wall adhesion angle?.

__init__(service, version, mode, path)#: __init__ method of TUIMenu class.

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

Bases: TUIMethod

Sets the vaporization pressure, surface tension coefficient, and non-condensable gas mass fraction. This command is available only when cavitation? is enabled.

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

Bases: TUIMethod

Enable the phase localized compressive discretization scheme where the degree of diffusion/sharpness is controlled through the value of the slope limiters?.

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

Bases: TUIMethod

Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.

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

Bases: TUIMethod

Enable the treatment of the contact angle specification at the porous jump boundary?.

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

Bases: TUIMethod

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

Bases: TUIMethod

Include the Montoya correction for Lift.

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

Bases: TUIMethod

Include the Shaver-Podowski correction for Lift.

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

Bases: TUIMethod

Select the surface tension model.

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

Bases: TUIMethod

Include the effects of surface tension along the fluid-fluid interface?.

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

Bases: TUIMethod

Specify the surface tension coefficient for each pair of phases.

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

Bases: TUIMethod

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

Bases: TUIMethod

Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.

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

Bases: TUIMethod

Set the dissipation intensity.

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

Bases: TUIMethod

Specify the virtual mass coefficient for each pair of phases.

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

Bases: TUIMethod

Enable the implicit method for the virtual mass force?.

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

Bases: TUIMethod

Select the virtual mass implicit option.

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

Bases: TUIMethod

Enable the specification for a wall adhesion angle?.

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

Species the heat transfer coefficient function between each pair of phases (constant-htc, nusselt-number, ranz-marshall, hughmark, tomiyama, fixed-to-sat-temp, two-resistance, or user-defined). This command is enable only with the Eulerian multiphase model.

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

Bases: TUIMethod

Set the interfacial area parameters for each pair of phases.

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

Bases: TUIMenu

Enter the menu to set interphase discretization models.

Methods:

__init__(service, version, mode, path)

__init__ method of TUIMenu class.

Classes:

`cavitation`(service, version, mode, path)	Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.
`interphase_discr`(service, version, mode, path)	Enable the phase localized compressive discretization scheme where the degree of diffusion/sharpness is controlled through the value of the slope limiters?.
`interphase_visc_disp`(service, version, mode, ...)	Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.
`jump_adhesion`(service, version, mode, path)	Enable the treatment of the contact angle specification at the porous jump boundary?.
`lift`(service, version, mode, path)
`lift_montoya`(service, version, mode, path)	Include the Montoya correction for Lift.
`lift_shaver_podowski`(service, version, mode, ...)	Include the Shaver-Podowski correction for Lift.
`sfc_model_type`(service, version, mode, path)	Select the surface tension model.
`sfc_modeling`(service, version, mode, path)	Include the effects of surface tension along the fluid-fluid interface?.
`sfc_tension_coeff`(service, version, mode, path)	Specify the surface tension coefficient for each pair of phases.
`slope_limiter`(service, version, mode, path)	Specify the slope limiter to set a specific discretization scheme.
`virtual_mass`(service, version, mode, path)	Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.
`visc_disp_factor`(service, version, mode, path)	Set the dissipation intensity.
`vmass_coeff`(service, version, mode, path)	Specify the virtual mass coefficient for each pair of phases.
`vmass_implicit`(service, version, mode, path)	Enable the implicit method for the virtual mass force?.
`vmass_implicit_options`(service, version, ...)	Select the virtual mass implicit option.
`wall_adhesion`(service, version, mode, path)	Enable the specification for a wall adhesion angle?.

__init__(service, version, mode, path)#: __init__ method of TUIMenu class.

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

Bases: TUIMethod

Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.

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

Bases: TUIMethod

Enable the phase localized compressive discretization scheme where the degree of diffusion/sharpness is controlled through the value of the slope limiters?.

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

Bases: TUIMethod

Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.

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

Bases: TUIMethod

Enable the treatment of the contact angle specification at the porous jump boundary?.

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

Bases: TUIMethod

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

Bases: TUIMethod

Include the Montoya correction for Lift.

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

Bases: TUIMethod

Include the Shaver-Podowski correction for Lift.

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

Bases: TUIMethod

Select the surface tension model.

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

Bases: TUIMethod

Include the effects of surface tension along the fluid-fluid interface?.

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

Bases: TUIMethod

Specify the surface tension coefficient for each pair of phases.

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

Bases: TUIMethod

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

Bases: TUIMethod

Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.

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

Bases: TUIMethod

Set the dissipation intensity.

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

Bases: TUIMethod

Specify the virtual mass coefficient for each pair of phases.

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

Bases: TUIMethod

Enable the implicit method for the virtual mass force?.

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

Bases: TUIMethod

Select the virtual mass implicit option.

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

Bases: TUIMethod

Enable the specification for a wall adhesion angle?.

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

Bases: TUIMenu

Enter the menu to set interphase viscous dissipation related models.

Methods:

__init__(service, version, mode, path)

__init__ method of TUIMenu class.

Classes:

`cavitation`(service, version, mode, path)	Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.
`interphase_discr`(service, version, mode, path)	Enable the phase localized compressive discretization scheme where the degree of diffusion/sharpness is controlled through the value of the slope limiters?.
`interphase_visc_disp`(service, version, mode, ...)	Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.
`jump_adhesion`(service, version, mode, path)	Enable the treatment of the contact angle specification at the porous jump boundary?.
`lift`(service, version, mode, path)
`lift_montoya`(service, version, mode, path)	Include the Montoya correction for Lift.
`lift_shaver_podowski`(service, version, mode, ...)	Include the Shaver-Podowski correction for Lift.
`sfc_model_type`(service, version, mode, path)	Select the surface tension model.
`sfc_modeling`(service, version, mode, path)	Include the effects of surface tension along the fluid-fluid interface?.
`sfc_tension_coeff`(service, version, mode, path)	Specify the surface tension coefficient for each pair of phases.
`slope_limiter`(service, version, mode, path)	Specify the slope limiter to set a specific discretization scheme.
`virtual_mass`(service, version, mode, path)	Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.
`visc_disp_factor`(service, version, mode, path)	Set the dissipation intensity.
`vmass_coeff`(service, version, mode, path)	Specify the virtual mass coefficient for each pair of phases.
`vmass_implicit`(service, version, mode, path)	Enable the implicit method for the virtual mass force?.
`vmass_implicit_options`(service, version, ...)	Select the virtual mass implicit option.
`wall_adhesion`(service, version, mode, path)	Enable the specification for a wall adhesion angle?.

__init__(service, version, mode, path)#: __init__ method of TUIMenu class.

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

Bases: TUIMethod

Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.

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

Bases: TUIMethod

Enable the phase localized compressive discretization scheme where the degree of diffusion/sharpness is controlled through the value of the slope limiters?.

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

Bases: TUIMethod

Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.

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

Bases: TUIMethod

Enable the treatment of the contact angle specification at the porous jump boundary?.

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

Bases: TUIMethod

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

Bases: TUIMethod

Include the Montoya correction for Lift.

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

Bases: TUIMethod

Include the Shaver-Podowski correction for Lift.

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

Bases: TUIMethod

Select the surface tension model.

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

Bases: TUIMethod

Include the effects of surface tension along the fluid-fluid interface?.

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

Bases: TUIMethod

Specify the surface tension coefficient for each pair of phases.

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

Bases: TUIMethod

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

Bases: TUIMethod

Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.

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

Bases: TUIMethod

Set the dissipation intensity.

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

Bases: TUIMethod

Specify the virtual mass coefficient for each pair of phases.

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

Bases: TUIMethod

Enable the implicit method for the virtual mass force?.

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

Bases: TUIMethod

Select the virtual mass implicit option.

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

Bases: TUIMethod

Enable the specification for a wall adhesion angle?.

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

Bases: TUIMenu

Enter the menu to set lift models.

Methods:

__init__(service, version, mode, path)

__init__ method of TUIMenu class.

Classes:

`cavitation`(service, version, mode, path)	Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.
`interphase_discr`(service, version, mode, path)	Enable the phase localized compressive discretization scheme where the degree of diffusion/sharpness is controlled through the value of the slope limiters?.
`interphase_visc_disp`(service, version, mode, ...)	Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.
`jump_adhesion`(service, version, mode, path)	Enable the treatment of the contact angle specification at the porous jump boundary?.
`lift`(service, version, mode, path)
`lift_montoya`(service, version, mode, path)	Include the Montoya correction for Lift.
`lift_shaver_podowski`(service, version, mode, ...)	Include the Shaver-Podowski correction for Lift.
`sfc_model_type`(service, version, mode, path)	Select the surface tension model.
`sfc_modeling`(service, version, mode, path)	Include the effects of surface tension along the fluid-fluid interface?.
`sfc_tension_coeff`(service, version, mode, path)	Specify the surface tension coefficient for each pair of phases.
`slope_limiter`(service, version, mode, path)	Specify the slope limiter to set a specific discretization scheme.
`virtual_mass`(service, version, mode, path)	Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.
`visc_disp_factor`(service, version, mode, path)	Set the dissipation intensity.
`vmass_coeff`(service, version, mode, path)	Specify the virtual mass coefficient for each pair of phases.
`vmass_implicit`(service, version, mode, path)	Enable the implicit method for the virtual mass force?.
`vmass_implicit_options`(service, version, ...)	Select the virtual mass implicit option.
`wall_adhesion`(service, version, mode, path)	Enable the specification for a wall adhesion angle?.

__init__(service, version, mode, path)#: __init__ method of TUIMenu class.

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

Bases: TUIMethod

Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.

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

Bases: TUIMethod

Enable the phase localized compressive discretization scheme where the degree of diffusion/sharpness is controlled through the value of the slope limiters?.

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

Bases: TUIMethod

Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.

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

Bases: TUIMethod

Enable the treatment of the contact angle specification at the porous jump boundary?.

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

Bases: TUIMethod

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

Bases: TUIMethod

Include the Montoya correction for Lift.

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

Bases: TUIMethod

Include the Shaver-Podowski correction for Lift.

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

Bases: TUIMethod

Select the surface tension model.

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

Bases: TUIMethod

Include the effects of surface tension along the fluid-fluid interface?.

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

Bases: TUIMethod

Specify the surface tension coefficient for each pair of phases.

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

Bases: TUIMethod

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

Bases: TUIMethod

Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.

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

Bases: TUIMethod

Set the dissipation intensity.

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

Bases: TUIMethod

Specify the virtual mass coefficient for each pair of phases.

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

Bases: TUIMethod

Enable the implicit method for the virtual mass force?.

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

Bases: TUIMethod

Select the virtual mass implicit option.

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

Bases: TUIMethod

Enable the specification for a wall adhesion angle?.

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

Allows you to define multiple heterogeneous reactions and stoichiometry. This option is available only with the species model.

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 surface_tension(service, version, mode, path)#

Bases: TUIMenu

Enter the menu to set surface tension models.

Methods:

__init__(service, version, mode, path)

__init__ method of TUIMenu class.

Classes:

`cavitation`(service, version, mode, path)	Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.
`interphase_discr`(service, version, mode, path)	Enable the phase localized compressive discretization scheme where the degree of diffusion/sharpness is controlled through the value of the slope limiters?.
`interphase_visc_disp`(service, version, mode, ...)	Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.
`jump_adhesion`(service, version, mode, path)	Enable the treatment of the contact angle specification at the porous jump boundary?.
`lift`(service, version, mode, path)
`lift_montoya`(service, version, mode, path)	Include the Montoya correction for Lift.
`lift_shaver_podowski`(service, version, mode, ...)	Include the Shaver-Podowski correction for Lift.
`sfc_model_type`(service, version, mode, path)	Select the surface tension model.
`sfc_modeling`(service, version, mode, path)	Include the effects of surface tension along the fluid-fluid interface?.
`sfc_tension_coeff`(service, version, mode, path)	Specify the surface tension coefficient for each pair of phases.
`slope_limiter`(service, version, mode, path)	Specify the slope limiter to set a specific discretization scheme.
`virtual_mass`(service, version, mode, path)	Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.
`visc_disp_factor`(service, version, mode, path)	Set the dissipation intensity.
`vmass_coeff`(service, version, mode, path)	Specify the virtual mass coefficient for each pair of phases.
`vmass_implicit`(service, version, mode, path)	Enable the implicit method for the virtual mass force?.
`vmass_implicit_options`(service, version, ...)	Select the virtual mass implicit option.
`wall_adhesion`(service, version, mode, path)	Enable the specification for a wall adhesion angle?.

__init__(service, version, mode, path)#: __init__ method of TUIMenu class.

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

Bases: TUIMethod

Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.

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

Bases: TUIMethod

Enable the phase localized compressive discretization scheme where the degree of diffusion/sharpness is controlled through the value of the slope limiters?.

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

Bases: TUIMethod

Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.

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

Bases: TUIMethod

Enable the treatment of the contact angle specification at the porous jump boundary?.

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

Bases: TUIMethod

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

Bases: TUIMethod

Include the Montoya correction for Lift.

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

Bases: TUIMethod

Include the Shaver-Podowski correction for Lift.

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

Bases: TUIMethod

Select the surface tension model.

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

Bases: TUIMethod

Include the effects of surface tension along the fluid-fluid interface?.

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

Bases: TUIMethod

Specify the surface tension coefficient for each pair of phases.

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

Bases: TUIMethod

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

Bases: TUIMethod

Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.

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

Bases: TUIMethod

Set the dissipation intensity.

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

Bases: TUIMethod

Specify the virtual mass coefficient for each pair of phases.

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

Bases: TUIMethod

Enable the implicit method for the virtual mass force?.

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

Bases: TUIMethod

Select the virtual mass implicit option.

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

Bases: TUIMethod

Enable the specification for a wall adhesion angle?.

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 virtual_mass(service, version, mode, path)#

Bases: TUIMenu

Enter the menu to set virtual mass models.

Methods:

__init__(service, version, mode, path)

__init__ method of TUIMenu class.

Classes:

`cavitation`(service, version, mode, path)	Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.
`interphase_discr`(service, version, mode, path)	Enable the phase localized compressive discretization scheme where the degree of diffusion/sharpness is controlled through the value of the slope limiters?.
`interphase_visc_disp`(service, version, mode, ...)	Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.
`jump_adhesion`(service, version, mode, path)	Enable the treatment of the contact angle specification at the porous jump boundary?.
`lift`(service, version, mode, path)
`lift_montoya`(service, version, mode, path)	Include the Montoya correction for Lift.
`lift_shaver_podowski`(service, version, mode, ...)	Include the Shaver-Podowski correction for Lift.
`sfc_model_type`(service, version, mode, path)	Select the surface tension model.
`sfc_modeling`(service, version, mode, path)	Include the effects of surface tension along the fluid-fluid interface?.
`sfc_tension_coeff`(service, version, mode, path)	Specify the surface tension coefficient for each pair of phases.
`slope_limiter`(service, version, mode, path)	Specify the slope limiter to set a specific discretization scheme.
`virtual_mass`(service, version, mode, path)	Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.
`visc_disp_factor`(service, version, mode, path)	Set the dissipation intensity.
`vmass_coeff`(service, version, mode, path)	Specify the virtual mass coefficient for each pair of phases.
`vmass_implicit`(service, version, mode, path)	Enable the implicit method for the virtual mass force?.
`vmass_implicit_options`(service, version, ...)	Select the virtual mass implicit option.
`wall_adhesion`(service, version, mode, path)	Enable the specification for a wall adhesion angle?.

__init__(service, version, mode, path)#: __init__ method of TUIMenu class.

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

Bases: TUIMethod

Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.

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

Bases: TUIMethod

Enable the phase localized compressive discretization scheme where the degree of diffusion/sharpness is controlled through the value of the slope limiters?.

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

Bases: TUIMethod

Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.

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

Bases: TUIMethod

Enable the treatment of the contact angle specification at the porous jump boundary?.

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

Bases: TUIMethod

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

Bases: TUIMethod

Include the Montoya correction for Lift.

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

Bases: TUIMethod

Include the Shaver-Podowski correction for Lift.

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

Bases: TUIMethod

Select the surface tension model.

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

Bases: TUIMethod

Include the effects of surface tension along the fluid-fluid interface?.

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

Bases: TUIMethod

Specify the surface tension coefficient for each pair of phases.

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

Bases: TUIMethod

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

Bases: TUIMethod

Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.

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

Bases: TUIMethod

Set the dissipation intensity.

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

Bases: TUIMethod

Specify the virtual mass coefficient for each pair of phases.

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

Bases: TUIMethod

Enable the implicit method for the virtual mass force?.

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

Bases: TUIMethod

Select the virtual mass implicit option.

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

Bases: TUIMethod

Enable the specification for a wall adhesion angle?.

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

Bases: TUIMethod

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

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

Bases: TUIMenu

Enters the menu to set interfacial area models. This menu is available only for the Mixture and Eulerian multiphase models.

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)	Specifies the interfacial area model for each pair of phases.
`interphase_discretization`(service, version, ...)	Enter 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 cavitation(service, version, mode, path)#

Bases: TUIMenu

Enter the menu to set cavitation models.

Methods:

__init__(service, version, mode, path)

__init__ method of TUIMenu class.

Classes:

`cavitation`(service, version, mode, path)	Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.
`interphase_discr`(service, version, mode, path)	Enable the phase localized compressive discretization scheme where the degree of diffusion/sharpness is controlled through the value of the slope limiters?.
`interphase_visc_disp`(service, version, mode, ...)	Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.
`jump_adhesion`(service, version, mode, path)	Enable the treatment of the contact angle specification at the porous jump boundary?.
`lift`(service, version, mode, path)
`lift_montoya`(service, version, mode, path)	Include the Montoya correction for Lift.
`lift_shaver_podowski`(service, version, mode, ...)	Include the Shaver-Podowski correction for Lift.
`sfc_model_type`(service, version, mode, path)	Select the surface tension model.
`sfc_modeling`(service, version, mode, path)	Include the effects of surface tension along the fluid-fluid interface?.
`sfc_tension_coeff`(service, version, mode, path)	Specify the surface tension coefficient for each pair of phases.
`slope_limiter`(service, version, mode, path)	Specify the slope limiter to set a specific discretization scheme.
`virtual_mass`(service, version, mode, path)	Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.
`visc_disp_factor`(service, version, mode, path)	Set the dissipation intensity.
`vmass_coeff`(service, version, mode, path)	Specify the virtual mass coefficient for each pair of phases.
`vmass_implicit`(service, version, mode, path)	Enable the implicit method for the virtual mass force?.
`vmass_implicit_options`(service, version, ...)	Select the virtual mass implicit option.
`wall_adhesion`(service, version, mode, path)	Enable the specification for a wall adhesion angle?.

__init__(service, version, mode, path)#: __init__ method of TUIMenu class.

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

Bases: TUIMethod

Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.

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

Bases: TUIMethod

Enable the phase localized compressive discretization scheme where the degree of diffusion/sharpness is controlled through the value of the slope limiters?.

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

Bases: TUIMethod

Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.

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

Bases: TUIMethod

Enable the treatment of the contact angle specification at the porous jump boundary?.

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

Bases: TUIMethod

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

Bases: TUIMethod

Include the Montoya correction for Lift.

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

Bases: TUIMethod

Include the Shaver-Podowski correction for Lift.

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

Bases: TUIMethod

Select the surface tension model.

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

Bases: TUIMethod

Include the effects of surface tension along the fluid-fluid interface?.

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

Bases: TUIMethod

Specify the surface tension coefficient for each pair of phases.

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

Bases: TUIMethod

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

Bases: TUIMethod

Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.

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

Bases: TUIMethod

Set the dissipation intensity.

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

Bases: TUIMethod

Specify the virtual mass coefficient for each pair of phases.

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

Bases: TUIMethod

Enable the implicit method for the virtual mass force?.

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

Bases: TUIMethod

Select the virtual mass implicit option.

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

Bases: TUIMethod

Enable the specification for a wall adhesion angle?.

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

Specifies the interfacial area model for each pair of phases.

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

Bases: TUIMenu

Enter the menu to set interphase discretization models.

Methods:

__init__(service, version, mode, path)

__init__ method of TUIMenu class.

Classes:

`cavitation`(service, version, mode, path)	Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.
`interphase_discr`(service, version, mode, path)	Enable the phase localized compressive discretization scheme where the degree of diffusion/sharpness is controlled through the value of the slope limiters?.
`interphase_visc_disp`(service, version, mode, ...)	Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.
`jump_adhesion`(service, version, mode, path)	Enable the treatment of the contact angle specification at the porous jump boundary?.
`lift`(service, version, mode, path)
`lift_montoya`(service, version, mode, path)	Include the Montoya correction for Lift.
`lift_shaver_podowski`(service, version, mode, ...)	Include the Shaver-Podowski correction for Lift.
`sfc_model_type`(service, version, mode, path)	Select the surface tension model.
`sfc_modeling`(service, version, mode, path)	Include the effects of surface tension along the fluid-fluid interface?.
`sfc_tension_coeff`(service, version, mode, path)	Specify the surface tension coefficient for each pair of phases.
`slope_limiter`(service, version, mode, path)	Specify the slope limiter to set a specific discretization scheme.
`virtual_mass`(service, version, mode, path)	Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.
`visc_disp_factor`(service, version, mode, path)	Set the dissipation intensity.
`vmass_coeff`(service, version, mode, path)	Specify the virtual mass coefficient for each pair of phases.
`vmass_implicit`(service, version, mode, path)	Enable the implicit method for the virtual mass force?.
`vmass_implicit_options`(service, version, ...)	Select the virtual mass implicit option.
`wall_adhesion`(service, version, mode, path)	Enable the specification for a wall adhesion angle?.

__init__(service, version, mode, path)#: __init__ method of TUIMenu class.

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

Bases: TUIMethod

Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.

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

Bases: TUIMethod

Enable the phase localized compressive discretization scheme where the degree of diffusion/sharpness is controlled through the value of the slope limiters?.

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

Bases: TUIMethod

Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.

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

Bases: TUIMethod

Enable the treatment of the contact angle specification at the porous jump boundary?.

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

Bases: TUIMethod

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

Bases: TUIMethod

Include the Montoya correction for Lift.

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

Bases: TUIMethod

Include the Shaver-Podowski correction for Lift.

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

Bases: TUIMethod

Select the surface tension model.

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

Bases: TUIMethod

Include the effects of surface tension along the fluid-fluid interface?.

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

Bases: TUIMethod

Specify the surface tension coefficient for each pair of phases.

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

Bases: TUIMethod

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

Bases: TUIMethod

Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.

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

Bases: TUIMethod

Set the dissipation intensity.

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

Bases: TUIMethod

Specify the virtual mass coefficient for each pair of phases.

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

Bases: TUIMethod

Enable the implicit method for the virtual mass force?.

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

Bases: TUIMethod

Select the virtual mass implicit option.

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

Bases: TUIMethod

Enable the specification for a wall adhesion angle?.

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

Bases: TUIMenu

Enter the menu to set interphase viscous dissipation related models.

Methods:

__init__(service, version, mode, path)

__init__ method of TUIMenu class.

Classes:

`cavitation`(service, version, mode, path)	Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.
`interphase_discr`(service, version, mode, path)	Enable the phase localized compressive discretization scheme where the degree of diffusion/sharpness is controlled through the value of the slope limiters?.
`interphase_visc_disp`(service, version, mode, ...)	Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.
`jump_adhesion`(service, version, mode, path)	Enable the treatment of the contact angle specification at the porous jump boundary?.
`lift`(service, version, mode, path)
`lift_montoya`(service, version, mode, path)	Include the Montoya correction for Lift.
`lift_shaver_podowski`(service, version, mode, ...)	Include the Shaver-Podowski correction for Lift.
`sfc_model_type`(service, version, mode, path)	Select the surface tension model.
`sfc_modeling`(service, version, mode, path)	Include the effects of surface tension along the fluid-fluid interface?.
`sfc_tension_coeff`(service, version, mode, path)	Specify the surface tension coefficient for each pair of phases.
`slope_limiter`(service, version, mode, path)	Specify the slope limiter to set a specific discretization scheme.
`virtual_mass`(service, version, mode, path)	Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.
`visc_disp_factor`(service, version, mode, path)	Set the dissipation intensity.
`vmass_coeff`(service, version, mode, path)	Specify the virtual mass coefficient for each pair of phases.
`vmass_implicit`(service, version, mode, path)	Enable the implicit method for the virtual mass force?.
`vmass_implicit_options`(service, version, ...)	Select the virtual mass implicit option.
`wall_adhesion`(service, version, mode, path)	Enable the specification for a wall adhesion angle?.

__init__(service, version, mode, path)#: __init__ method of TUIMenu class.

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

Bases: TUIMethod

Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.

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

Bases: TUIMethod

Enable the phase localized compressive discretization scheme where the degree of diffusion/sharpness is controlled through the value of the slope limiters?.

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

Bases: TUIMethod

Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.

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

Bases: TUIMethod

Enable the treatment of the contact angle specification at the porous jump boundary?.

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

Bases: TUIMethod

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

Bases: TUIMethod

Include the Montoya correction for Lift.

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

Bases: TUIMethod

Include the Shaver-Podowski correction for Lift.

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

Bases: TUIMethod

Select the surface tension model.

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

Bases: TUIMethod

Include the effects of surface tension along the fluid-fluid interface?.

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

Bases: TUIMethod

Specify the surface tension coefficient for each pair of phases.

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

Bases: TUIMethod

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

Bases: TUIMethod

Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.

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

Bases: TUIMethod

Set the dissipation intensity.

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

Bases: TUIMethod

Specify the virtual mass coefficient for each pair of phases.

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

Bases: TUIMethod

Enable the implicit method for the virtual mass force?.

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

Bases: TUIMethod

Select the virtual mass implicit option.

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

Bases: TUIMethod

Enable the specification for a wall adhesion angle?.

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

Bases: TUIMenu

Enter the menu to set lift models.

Methods:

__init__(service, version, mode, path)

__init__ method of TUIMenu class.

Classes:

`cavitation`(service, version, mode, path)	Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.
`interphase_discr`(service, version, mode, path)	Enable the phase localized compressive discretization scheme where the degree of diffusion/sharpness is controlled through the value of the slope limiters?.
`interphase_visc_disp`(service, version, mode, ...)	Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.
`jump_adhesion`(service, version, mode, path)	Enable the treatment of the contact angle specification at the porous jump boundary?.
`lift`(service, version, mode, path)
`lift_montoya`(service, version, mode, path)	Include the Montoya correction for Lift.
`lift_shaver_podowski`(service, version, mode, ...)	Include the Shaver-Podowski correction for Lift.
`sfc_model_type`(service, version, mode, path)	Select the surface tension model.
`sfc_modeling`(service, version, mode, path)	Include the effects of surface tension along the fluid-fluid interface?.
`sfc_tension_coeff`(service, version, mode, path)	Specify the surface tension coefficient for each pair of phases.
`slope_limiter`(service, version, mode, path)	Specify the slope limiter to set a specific discretization scheme.
`virtual_mass`(service, version, mode, path)	Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.
`visc_disp_factor`(service, version, mode, path)	Set the dissipation intensity.
`vmass_coeff`(service, version, mode, path)	Specify the virtual mass coefficient for each pair of phases.
`vmass_implicit`(service, version, mode, path)	Enable the implicit method for the virtual mass force?.
`vmass_implicit_options`(service, version, ...)	Select the virtual mass implicit option.
`wall_adhesion`(service, version, mode, path)	Enable the specification for a wall adhesion angle?.

__init__(service, version, mode, path)#: __init__ method of TUIMenu class.

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

Bases: TUIMethod

Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.

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

Bases: TUIMethod

Enable the phase localized compressive discretization scheme where the degree of diffusion/sharpness is controlled through the value of the slope limiters?.

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

Bases: TUIMethod

Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.

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

Bases: TUIMethod

Enable the treatment of the contact angle specification at the porous jump boundary?.

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

Bases: TUIMethod

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

Bases: TUIMethod

Include the Montoya correction for Lift.

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

Bases: TUIMethod

Include the Shaver-Podowski correction for Lift.

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

Bases: TUIMethod

Select the surface tension model.

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

Bases: TUIMethod

Include the effects of surface tension along the fluid-fluid interface?.

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

Bases: TUIMethod

Specify the surface tension coefficient for each pair of phases.

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

Bases: TUIMethod

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

Bases: TUIMethod

Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.

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

Bases: TUIMethod

Set the dissipation intensity.

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

Bases: TUIMethod

Specify the virtual mass coefficient for each pair of phases.

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

Bases: TUIMethod

Enable the implicit method for the virtual mass force?.

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

Bases: TUIMethod

Select the virtual mass implicit option.

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

Bases: TUIMethod

Enable the specification for a wall adhesion angle?.

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 surface_tension(service, version, mode, path)#

Bases: TUIMenu

Enter the menu to set surface tension models.

Methods:

__init__(service, version, mode, path)

__init__ method of TUIMenu class.

Classes:

`cavitation`(service, version, mode, path)	Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.
`interphase_discr`(service, version, mode, path)	Enable the phase localized compressive discretization scheme where the degree of diffusion/sharpness is controlled through the value of the slope limiters?.
`interphase_visc_disp`(service, version, mode, ...)	Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.
`jump_adhesion`(service, version, mode, path)	Enable the treatment of the contact angle specification at the porous jump boundary?.
`lift`(service, version, mode, path)
`lift_montoya`(service, version, mode, path)	Include the Montoya correction for Lift.
`lift_shaver_podowski`(service, version, mode, ...)	Include the Shaver-Podowski correction for Lift.
`sfc_model_type`(service, version, mode, path)	Select the surface tension model.
`sfc_modeling`(service, version, mode, path)	Include the effects of surface tension along the fluid-fluid interface?.
`sfc_tension_coeff`(service, version, mode, path)	Specify the surface tension coefficient for each pair of phases.
`slope_limiter`(service, version, mode, path)	Specify the slope limiter to set a specific discretization scheme.
`virtual_mass`(service, version, mode, path)	Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.
`visc_disp_factor`(service, version, mode, path)	Set the dissipation intensity.
`vmass_coeff`(service, version, mode, path)	Specify the virtual mass coefficient for each pair of phases.
`vmass_implicit`(service, version, mode, path)	Enable the implicit method for the virtual mass force?.
`vmass_implicit_options`(service, version, ...)	Select the virtual mass implicit option.
`wall_adhesion`(service, version, mode, path)	Enable the specification for a wall adhesion angle?.

__init__(service, version, mode, path)#: __init__ method of TUIMenu class.

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

Bases: TUIMethod

Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.

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

Bases: TUIMethod

Enable the phase localized compressive discretization scheme where the degree of diffusion/sharpness is controlled through the value of the slope limiters?.

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

Bases: TUIMethod

Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.

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

Bases: TUIMethod

Enable the treatment of the contact angle specification at the porous jump boundary?.

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

Bases: TUIMethod

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

Bases: TUIMethod

Include the Montoya correction for Lift.

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

Bases: TUIMethod

Include the Shaver-Podowski correction for Lift.

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

Bases: TUIMethod

Select the surface tension model.

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

Bases: TUIMethod

Include the effects of surface tension along the fluid-fluid interface?.

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

Bases: TUIMethod

Specify the surface tension coefficient for each pair of phases.

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

Bases: TUIMethod

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

Bases: TUIMethod

Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.

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

Bases: TUIMethod

Set the dissipation intensity.

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

Bases: TUIMethod

Specify the virtual mass coefficient for each pair of phases.

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

Bases: TUIMethod

Enable the implicit method for the virtual mass force?.

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

Bases: TUIMethod

Select the virtual mass implicit option.

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

Bases: TUIMethod

Enable the specification for a wall adhesion angle?.

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 virtual_mass(service, version, mode, path)#

Bases: TUIMenu

Enter the menu to set virtual mass models.

Methods:

__init__(service, version, mode, path)

__init__ method of TUIMenu class.

Classes:

`cavitation`(service, version, mode, path)	Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.
`interphase_discr`(service, version, mode, path)	Enable the phase localized compressive discretization scheme where the degree of diffusion/sharpness is controlled through the value of the slope limiters?.
`interphase_visc_disp`(service, version, mode, ...)	Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.
`jump_adhesion`(service, version, mode, path)	Enable the treatment of the contact angle specification at the porous jump boundary?.
`lift`(service, version, mode, path)
`lift_montoya`(service, version, mode, path)	Include the Montoya correction for Lift.
`lift_shaver_podowski`(service, version, mode, ...)	Include the Shaver-Podowski correction for Lift.
`sfc_model_type`(service, version, mode, path)	Select the surface tension model.
`sfc_modeling`(service, version, mode, path)	Include the effects of surface tension along the fluid-fluid interface?.
`sfc_tension_coeff`(service, version, mode, path)	Specify the surface tension coefficient for each pair of phases.
`slope_limiter`(service, version, mode, path)	Specify the slope limiter to set a specific discretization scheme.
`virtual_mass`(service, version, mode, path)	Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.
`visc_disp_factor`(service, version, mode, path)	Set the dissipation intensity.
`vmass_coeff`(service, version, mode, path)	Specify the virtual mass coefficient for each pair of phases.
`vmass_implicit`(service, version, mode, path)	Enable the implicit method for the virtual mass force?.
`vmass_implicit_options`(service, version, ...)	Select the virtual mass implicit option.
`wall_adhesion`(service, version, mode, path)	Enable the specification for a wall adhesion angle?.

__init__(service, version, mode, path)#: __init__ method of TUIMenu class.

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

Bases: TUIMethod

Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.

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

Bases: TUIMethod

Enable the phase localized compressive discretization scheme where the degree of diffusion/sharpness is controlled through the value of the slope limiters?.

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

Bases: TUIMethod

Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.

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

Bases: TUIMethod

Enable the treatment of the contact angle specification at the porous jump boundary?.

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

Bases: TUIMethod

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

Bases: TUIMethod

Include the Montoya correction for Lift.

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

Bases: TUIMethod

Include the Shaver-Podowski correction for Lift.

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

Bases: TUIMethod

Select the surface tension model.

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

Bases: TUIMethod

Include the effects of surface tension along the fluid-fluid interface?.

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

Bases: TUIMethod

Specify the surface tension coefficient for each pair of phases.

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

Bases: TUIMethod

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

Bases: TUIMethod

Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.

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

Bases: TUIMethod

Set the dissipation intensity.

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

Bases: TUIMethod

Specify the virtual mass coefficient for each pair of phases.

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

Bases: TUIMethod

Enable the implicit method for the virtual mass force?.

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

Bases: TUIMethod

Select the virtual mass implicit option.

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

Bases: TUIMethod

Enable the specification for a wall adhesion angle?.

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

Bases: TUIMethod

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

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

Bases: TUIMenu

Enters the menu to set model transition mechanisms.

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, ...)	Enter 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)	Sets the VOF-to-DPM 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 cavitation(service, version, mode, path)#

Bases: TUIMenu

Enter the menu to set cavitation models.

Methods:

__init__(service, version, mode, path)

__init__ method of TUIMenu class.

Classes:

`cavitation`(service, version, mode, path)	Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.
`interphase_discr`(service, version, mode, path)	Enable the phase localized compressive discretization scheme where the degree of diffusion/sharpness is controlled through the value of the slope limiters?.
`interphase_visc_disp`(service, version, mode, ...)	Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.
`jump_adhesion`(service, version, mode, path)	Enable the treatment of the contact angle specification at the porous jump boundary?.
`lift`(service, version, mode, path)
`lift_montoya`(service, version, mode, path)	Include the Montoya correction for Lift.
`lift_shaver_podowski`(service, version, mode, ...)	Include the Shaver-Podowski correction for Lift.
`sfc_model_type`(service, version, mode, path)	Select the surface tension model.
`sfc_modeling`(service, version, mode, path)	Include the effects of surface tension along the fluid-fluid interface?.
`sfc_tension_coeff`(service, version, mode, path)	Specify the surface tension coefficient for each pair of phases.
`slope_limiter`(service, version, mode, path)	Specify the slope limiter to set a specific discretization scheme.
`virtual_mass`(service, version, mode, path)	Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.
`visc_disp_factor`(service, version, mode, path)	Set the dissipation intensity.
`vmass_coeff`(service, version, mode, path)	Specify the virtual mass coefficient for each pair of phases.
`vmass_implicit`(service, version, mode, path)	Enable the implicit method for the virtual mass force?.
`vmass_implicit_options`(service, version, ...)	Select the virtual mass implicit option.
`wall_adhesion`(service, version, mode, path)	Enable the specification for a wall adhesion angle?.

__init__(service, version, mode, path)#: __init__ method of TUIMenu class.

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

Bases: TUIMethod

Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.

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

Bases: TUIMethod

Enable the phase localized compressive discretization scheme where the degree of diffusion/sharpness is controlled through the value of the slope limiters?.

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

Bases: TUIMethod

Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.

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

Bases: TUIMethod

Enable the treatment of the contact angle specification at the porous jump boundary?.

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

Bases: TUIMethod

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

Bases: TUIMethod

Include the Montoya correction for Lift.

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

Bases: TUIMethod

Include the Shaver-Podowski correction for Lift.

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

Bases: TUIMethod

Select the surface tension model.

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

Bases: TUIMethod

Include the effects of surface tension along the fluid-fluid interface?.

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

Bases: TUIMethod

Specify the surface tension coefficient for each pair of phases.

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

Bases: TUIMethod

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

Bases: TUIMethod

Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.

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

Bases: TUIMethod

Set the dissipation intensity.

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

Bases: TUIMethod

Specify the virtual mass coefficient for each pair of phases.

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

Bases: TUIMethod

Enable the implicit method for the virtual mass force?.

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

Bases: TUIMethod

Select the virtual mass implicit option.

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

Bases: TUIMethod

Enable the specification for a wall adhesion angle?.

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 interphase_discretization(service, version, mode, path)#

Bases: TUIMenu

Enter the menu to set interphase discretization models.

Methods:

__init__(service, version, mode, path)

__init__ method of TUIMenu class.

Classes:

`cavitation`(service, version, mode, path)	Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.
`interphase_discr`(service, version, mode, path)	Enable the phase localized compressive discretization scheme where the degree of diffusion/sharpness is controlled through the value of the slope limiters?.
`interphase_visc_disp`(service, version, mode, ...)	Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.
`jump_adhesion`(service, version, mode, path)	Enable the treatment of the contact angle specification at the porous jump boundary?.
`lift`(service, version, mode, path)
`lift_montoya`(service, version, mode, path)	Include the Montoya correction for Lift.
`lift_shaver_podowski`(service, version, mode, ...)	Include the Shaver-Podowski correction for Lift.
`sfc_model_type`(service, version, mode, path)	Select the surface tension model.
`sfc_modeling`(service, version, mode, path)	Include the effects of surface tension along the fluid-fluid interface?.
`sfc_tension_coeff`(service, version, mode, path)	Specify the surface tension coefficient for each pair of phases.
`slope_limiter`(service, version, mode, path)	Specify the slope limiter to set a specific discretization scheme.
`virtual_mass`(service, version, mode, path)	Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.
`visc_disp_factor`(service, version, mode, path)	Set the dissipation intensity.
`vmass_coeff`(service, version, mode, path)	Specify the virtual mass coefficient for each pair of phases.
`vmass_implicit`(service, version, mode, path)	Enable the implicit method for the virtual mass force?.
`vmass_implicit_options`(service, version, ...)	Select the virtual mass implicit option.
`wall_adhesion`(service, version, mode, path)	Enable the specification for a wall adhesion angle?.

__init__(service, version, mode, path)#: __init__ method of TUIMenu class.

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

Bases: TUIMethod

Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.

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

Bases: TUIMethod

Enable the phase localized compressive discretization scheme where the degree of diffusion/sharpness is controlled through the value of the slope limiters?.

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

Bases: TUIMethod

Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.

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

Bases: TUIMethod

Enable the treatment of the contact angle specification at the porous jump boundary?.

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

Bases: TUIMethod

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

Bases: TUIMethod

Include the Montoya correction for Lift.

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

Bases: TUIMethod

Include the Shaver-Podowski correction for Lift.

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

Bases: TUIMethod

Select the surface tension model.

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

Bases: TUIMethod

Include the effects of surface tension along the fluid-fluid interface?.

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

Bases: TUIMethod

Specify the surface tension coefficient for each pair of phases.

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

Bases: TUIMethod

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

Bases: TUIMethod

Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.

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

Bases: TUIMethod

Set the dissipation intensity.

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

Bases: TUIMethod

Specify the virtual mass coefficient for each pair of phases.

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

Bases: TUIMethod

Enable the implicit method for the virtual mass force?.

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

Bases: TUIMethod

Select the virtual mass implicit option.

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

Bases: TUIMethod

Enable the specification for a wall adhesion angle?.

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

Bases: TUIMenu

Enter the menu to set interphase viscous dissipation related models.

Methods:

__init__(service, version, mode, path)

__init__ method of TUIMenu class.

Classes:

`cavitation`(service, version, mode, path)	Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.
`interphase_discr`(service, version, mode, path)	Enable the phase localized compressive discretization scheme where the degree of diffusion/sharpness is controlled through the value of the slope limiters?.
`interphase_visc_disp`(service, version, mode, ...)	Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.
`jump_adhesion`(service, version, mode, path)	Enable the treatment of the contact angle specification at the porous jump boundary?.
`lift`(service, version, mode, path)
`lift_montoya`(service, version, mode, path)	Include the Montoya correction for Lift.
`lift_shaver_podowski`(service, version, mode, ...)	Include the Shaver-Podowski correction for Lift.
`sfc_model_type`(service, version, mode, path)	Select the surface tension model.
`sfc_modeling`(service, version, mode, path)	Include the effects of surface tension along the fluid-fluid interface?.
`sfc_tension_coeff`(service, version, mode, path)	Specify the surface tension coefficient for each pair of phases.
`slope_limiter`(service, version, mode, path)	Specify the slope limiter to set a specific discretization scheme.
`virtual_mass`(service, version, mode, path)	Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.
`visc_disp_factor`(service, version, mode, path)	Set the dissipation intensity.
`vmass_coeff`(service, version, mode, path)	Specify the virtual mass coefficient for each pair of phases.
`vmass_implicit`(service, version, mode, path)	Enable the implicit method for the virtual mass force?.
`vmass_implicit_options`(service, version, ...)	Select the virtual mass implicit option.
`wall_adhesion`(service, version, mode, path)	Enable the specification for a wall adhesion angle?.

__init__(service, version, mode, path)#: __init__ method of TUIMenu class.

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

Bases: TUIMethod

Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.

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

Bases: TUIMethod

Enable the phase localized compressive discretization scheme where the degree of diffusion/sharpness is controlled through the value of the slope limiters?.

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

Bases: TUIMethod

Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.

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

Bases: TUIMethod

Enable the treatment of the contact angle specification at the porous jump boundary?.

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

Bases: TUIMethod

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

Bases: TUIMethod

Include the Montoya correction for Lift.

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

Bases: TUIMethod

Include the Shaver-Podowski correction for Lift.

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

Bases: TUIMethod

Select the surface tension model.

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

Bases: TUIMethod

Include the effects of surface tension along the fluid-fluid interface?.

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

Bases: TUIMethod

Specify the surface tension coefficient for each pair of phases.

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

Bases: TUIMethod

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

Bases: TUIMethod

Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.

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

Bases: TUIMethod

Set the dissipation intensity.

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

Bases: TUIMethod

Specify the virtual mass coefficient for each pair of phases.

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

Bases: TUIMethod

Enable the implicit method for the virtual mass force?.

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

Bases: TUIMethod

Select the virtual mass implicit option.

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

Bases: TUIMethod

Enable the specification for a wall adhesion angle?.

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

Bases: TUIMenu

Enter the menu to set lift models.

Methods:

__init__(service, version, mode, path)

__init__ method of TUIMenu class.

Classes:

`cavitation`(service, version, mode, path)	Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.
`interphase_discr`(service, version, mode, path)	Enable the phase localized compressive discretization scheme where the degree of diffusion/sharpness is controlled through the value of the slope limiters?.
`interphase_visc_disp`(service, version, mode, ...)	Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.
`jump_adhesion`(service, version, mode, path)	Enable the treatment of the contact angle specification at the porous jump boundary?.
`lift`(service, version, mode, path)
`lift_montoya`(service, version, mode, path)	Include the Montoya correction for Lift.
`lift_shaver_podowski`(service, version, mode, ...)	Include the Shaver-Podowski correction for Lift.
`sfc_model_type`(service, version, mode, path)	Select the surface tension model.
`sfc_modeling`(service, version, mode, path)	Include the effects of surface tension along the fluid-fluid interface?.
`sfc_tension_coeff`(service, version, mode, path)	Specify the surface tension coefficient for each pair of phases.
`slope_limiter`(service, version, mode, path)	Specify the slope limiter to set a specific discretization scheme.
`virtual_mass`(service, version, mode, path)	Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.
`visc_disp_factor`(service, version, mode, path)	Set the dissipation intensity.
`vmass_coeff`(service, version, mode, path)	Specify the virtual mass coefficient for each pair of phases.
`vmass_implicit`(service, version, mode, path)	Enable the implicit method for the virtual mass force?.
`vmass_implicit_options`(service, version, ...)	Select the virtual mass implicit option.
`wall_adhesion`(service, version, mode, path)	Enable the specification for a wall adhesion angle?.

__init__(service, version, mode, path)#: __init__ method of TUIMenu class.

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

Bases: TUIMethod

Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.

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

Bases: TUIMethod

Enable the phase localized compressive discretization scheme where the degree of diffusion/sharpness is controlled through the value of the slope limiters?.

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

Bases: TUIMethod

Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.

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

Bases: TUIMethod

Enable the treatment of the contact angle specification at the porous jump boundary?.

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

Bases: TUIMethod

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

Bases: TUIMethod

Include the Montoya correction for Lift.

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

Bases: TUIMethod

Include the Shaver-Podowski correction for Lift.

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

Bases: TUIMethod

Select the surface tension model.

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

Bases: TUIMethod

Include the effects of surface tension along the fluid-fluid interface?.

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

Bases: TUIMethod

Specify the surface tension coefficient for each pair of phases.

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

Bases: TUIMethod

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

Bases: TUIMethod

Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.

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

Bases: TUIMethod

Set the dissipation intensity.

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

Bases: TUIMethod

Specify the virtual mass coefficient for each pair of phases.

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

Bases: TUIMethod

Enable the implicit method for the virtual mass force?.

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

Bases: TUIMethod

Select the virtual mass implicit option.

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

Bases: TUIMethod

Enable the specification for a wall adhesion angle?.

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

Bases: TUIMethod

Specify the mass transfer mechanisms.

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

Bases: TUIMethod

Sets the VOF-to-DPM 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 surface_tension(service, version, mode, path)#

Bases: TUIMenu

Enter the menu to set surface tension models.

Methods:

__init__(service, version, mode, path)

__init__ method of TUIMenu class.

Classes:

`cavitation`(service, version, mode, path)	Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.
`interphase_discr`(service, version, mode, path)	Enable the phase localized compressive discretization scheme where the degree of diffusion/sharpness is controlled through the value of the slope limiters?.
`interphase_visc_disp`(service, version, mode, ...)	Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.
`jump_adhesion`(service, version, mode, path)	Enable the treatment of the contact angle specification at the porous jump boundary?.
`lift`(service, version, mode, path)
`lift_montoya`(service, version, mode, path)	Include the Montoya correction for Lift.
`lift_shaver_podowski`(service, version, mode, ...)	Include the Shaver-Podowski correction for Lift.
`sfc_model_type`(service, version, mode, path)	Select the surface tension model.
`sfc_modeling`(service, version, mode, path)	Include the effects of surface tension along the fluid-fluid interface?.
`sfc_tension_coeff`(service, version, mode, path)	Specify the surface tension coefficient for each pair of phases.
`slope_limiter`(service, version, mode, path)	Specify the slope limiter to set a specific discretization scheme.
`virtual_mass`(service, version, mode, path)	Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.
`visc_disp_factor`(service, version, mode, path)	Set the dissipation intensity.
`vmass_coeff`(service, version, mode, path)	Specify the virtual mass coefficient for each pair of phases.
`vmass_implicit`(service, version, mode, path)	Enable the implicit method for the virtual mass force?.
`vmass_implicit_options`(service, version, ...)	Select the virtual mass implicit option.
`wall_adhesion`(service, version, mode, path)	Enable the specification for a wall adhesion angle?.

__init__(service, version, mode, path)#: __init__ method of TUIMenu class.

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

Bases: TUIMethod

Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.

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

Bases: TUIMethod

Enable the phase localized compressive discretization scheme where the degree of diffusion/sharpness is controlled through the value of the slope limiters?.

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

Bases: TUIMethod

Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.

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

Bases: TUIMethod

Enable the treatment of the contact angle specification at the porous jump boundary?.

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

Bases: TUIMethod

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

Bases: TUIMethod

Include the Montoya correction for Lift.

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

Bases: TUIMethod

Include the Shaver-Podowski correction for Lift.

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

Bases: TUIMethod

Select the surface tension model.

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

Bases: TUIMethod

Include the effects of surface tension along the fluid-fluid interface?.

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

Bases: TUIMethod

Specify the surface tension coefficient for each pair of phases.

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

Bases: TUIMethod

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

Bases: TUIMethod

Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.

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

Bases: TUIMethod

Set the dissipation intensity.

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

Bases: TUIMethod

Specify the virtual mass coefficient for each pair of phases.

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

Bases: TUIMethod

Enable the implicit method for the virtual mass force?.

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

Bases: TUIMethod

Select the virtual mass implicit option.

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

Bases: TUIMethod

Enable the specification for a wall adhesion angle?.

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 virtual_mass(service, version, mode, path)#

Bases: TUIMenu

Enter the menu to set virtual mass models.

Methods:

__init__(service, version, mode, path)

__init__ method of TUIMenu class.

Classes:

`cavitation`(service, version, mode, path)	Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.
`interphase_discr`(service, version, mode, path)	Enable the phase localized compressive discretization scheme where the degree of diffusion/sharpness is controlled through the value of the slope limiters?.
`interphase_visc_disp`(service, version, mode, ...)	Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.
`jump_adhesion`(service, version, mode, path)	Enable the treatment of the contact angle specification at the porous jump boundary?.
`lift`(service, version, mode, path)
`lift_montoya`(service, version, mode, path)	Include the Montoya correction for Lift.
`lift_shaver_podowski`(service, version, mode, ...)	Include the Shaver-Podowski correction for Lift.
`sfc_model_type`(service, version, mode, path)	Select the surface tension model.
`sfc_modeling`(service, version, mode, path)	Include the effects of surface tension along the fluid-fluid interface?.
`sfc_tension_coeff`(service, version, mode, path)	Specify the surface tension coefficient for each pair of phases.
`slope_limiter`(service, version, mode, path)	Specify the slope limiter to set a specific discretization scheme.
`virtual_mass`(service, version, mode, path)	Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.
`visc_disp_factor`(service, version, mode, path)	Set the dissipation intensity.
`vmass_coeff`(service, version, mode, path)	Specify the virtual mass coefficient for each pair of phases.
`vmass_implicit`(service, version, mode, path)	Enable the implicit method for the virtual mass force?.
`vmass_implicit_options`(service, version, ...)	Select the virtual mass implicit option.
`wall_adhesion`(service, version, mode, path)	Enable the specification for a wall adhesion angle?.

__init__(service, version, mode, path)#: __init__ method of TUIMenu class.

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

Bases: TUIMethod

Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.

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

Bases: TUIMethod

Enable the phase localized compressive discretization scheme where the degree of diffusion/sharpness is controlled through the value of the slope limiters?.

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

Bases: TUIMethod

Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.

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

Bases: TUIMethod

Enable the treatment of the contact angle specification at the porous jump boundary?.

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

Bases: TUIMethod

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

Bases: TUIMethod

Include the Montoya correction for Lift.

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

Bases: TUIMethod

Include the Shaver-Podowski correction for Lift.

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

Bases: TUIMethod

Select the surface tension model.

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

Bases: TUIMethod

Include the effects of surface tension along the fluid-fluid interface?.

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

Bases: TUIMethod

Specify the surface tension coefficient for each pair of phases.

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

Bases: TUIMethod

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

Bases: TUIMethod

Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.

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

Bases: TUIMethod

Set the dissipation intensity.

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

Bases: TUIMethod

Specify the virtual mass coefficient for each pair of phases.

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

Bases: TUIMethod

Enable the implicit method for the virtual mass force?.

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

Bases: TUIMethod

Select the virtual mass implicit option.

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

Bases: TUIMethod

Enable the specification for a wall adhesion angle?.

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

Bases: TUIMethod

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

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

Bases: TUIMenu

Enter the menu to set cavitation models.

Methods:

__init__(service, version, mode, path)

__init__ method of TUIMenu class.

Classes:

`cavitation`(service, version, mode, path)	Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.
`interphase_discr`(service, version, mode, path)	Enable the phase localized compressive discretization scheme where the degree of diffusion/sharpness is controlled through the value of the slope limiters?.
`interphase_visc_disp`(service, version, mode, ...)	Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.
`jump_adhesion`(service, version, mode, path)	Enable the treatment of the contact angle specification at the porous jump boundary?.
`lift`(service, version, mode, path)
`lift_montoya`(service, version, mode, path)	Include the Montoya correction for Lift.
`lift_shaver_podowski`(service, version, mode, ...)	Include the Shaver-Podowski correction for Lift.
`sfc_model_type`(service, version, mode, path)	Select the surface tension model.
`sfc_modeling`(service, version, mode, path)	Include the effects of surface tension along the fluid-fluid interface?.
`sfc_tension_coeff`(service, version, mode, path)	Specify the surface tension coefficient for each pair of phases.
`slope_limiter`(service, version, mode, path)	Specify the slope limiter to set a specific discretization scheme.
`virtual_mass`(service, version, mode, path)	Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.
`visc_disp_factor`(service, version, mode, path)	Set the dissipation intensity.
`vmass_coeff`(service, version, mode, path)	Specify the virtual mass coefficient for each pair of phases.
`vmass_implicit`(service, version, mode, path)	Enable the implicit method for the virtual mass force?.
`vmass_implicit_options`(service, version, ...)	Select the virtual mass implicit option.
`wall_adhesion`(service, version, mode, path)	Enable the specification for a wall adhesion angle?.

__init__(service, version, mode, path)#: __init__ method of TUIMenu class.

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

Bases: TUIMethod

Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.

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

Bases: TUIMethod

Enable the phase localized compressive discretization scheme where the degree of diffusion/sharpness is controlled through the value of the slope limiters?.

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

Bases: TUIMethod

Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.

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

Bases: TUIMethod

Enable the treatment of the contact angle specification at the porous jump boundary?.

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

Bases: TUIMethod

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

Bases: TUIMethod

Include the Montoya correction for Lift.

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

Bases: TUIMethod

Include the Shaver-Podowski correction for Lift.

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

Bases: TUIMethod

Select the surface tension model.

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

Bases: TUIMethod

Include the effects of surface tension along the fluid-fluid interface?.

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

Bases: TUIMethod

Specify the surface tension coefficient for each pair of phases.

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

Bases: TUIMethod

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

Bases: TUIMethod

Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.

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

Bases: TUIMethod

Set the dissipation intensity.

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

Bases: TUIMethod

Specify the virtual mass coefficient for each pair of phases.

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

Bases: TUIMethod

Enable the implicit method for the virtual mass force?.

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

Bases: TUIMethod

Select the virtual mass implicit option.

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

Bases: TUIMethod

Enable the specification for a wall adhesion angle?.

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 interphase_discretization(service, version, mode, path)#

Bases: TUIMenu

Enters the menu to set interphase discretization models.

Methods:

__init__(service, version, mode, path)

__init__ method of TUIMenu class.

Classes:

`cavitation`(service, version, mode, path)	Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.
`interphase_discr`(service, version, mode, path)	Enables/disables phase localized compressive scheme.
`interphase_visc_disp`(service, version, mode, ...)	Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.
`jump_adhesion`(service, version, mode, path)	Enable the treatment of the contact angle specification at the porous jump boundary?.
`lift`(service, version, mode, path)
`lift_montoya`(service, version, mode, path)	Include the Montoya correction for Lift.
`lift_shaver_podowski`(service, version, mode, ...)	Include the Shaver-Podowski correction for Lift.
`sfc_model_type`(service, version, mode, path)	Select the surface tension model.
`sfc_modeling`(service, version, mode, path)	Include the effects of surface tension along the fluid-fluid interface?.
`sfc_tension_coeff`(service, version, mode, path)	Specify the surface tension coefficient for each pair of phases.
`slope_limiter`(service, version, mode, path)	Specifies the slope limiter to set a specific discretization scheme for each phase pair.
`virtual_mass`(service, version, mode, path)	Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.
`visc_disp_factor`(service, version, mode, path)	Set the dissipation intensity.
`vmass_coeff`(service, version, mode, path)	Specify the virtual mass coefficient for each pair of phases.
`vmass_implicit`(service, version, mode, path)	Enable the implicit method for the virtual mass force?.
`vmass_implicit_options`(service, version, ...)	Select the virtual mass implicit option.
`wall_adhesion`(service, version, mode, path)	Enable the specification for a wall adhesion angle?.

__init__(service, version, mode, path)#: __init__ method of TUIMenu class.

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

Bases: TUIMethod

Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.

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

Bases: TUIMethod

Enables/disables phase localized compressive scheme.

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

Bases: TUIMethod

Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.

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

Bases: TUIMethod

Enable the treatment of the contact angle specification at the porous jump boundary?.

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

Bases: TUIMethod

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

Bases: TUIMethod

Include the Montoya correction for Lift.

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

Bases: TUIMethod

Include the Shaver-Podowski correction for Lift.

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

Bases: TUIMethod

Select the surface tension model.

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

Bases: TUIMethod

Include the effects of surface tension along the fluid-fluid interface?.

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

Bases: TUIMethod

Specify the surface tension coefficient for each pair of phases.

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

Bases: TUIMethod

Specifies the slope limiter to set a specific discretization scheme for each phase pair. A value of 0 corresponds to first order upwind, a value of 1 corresponds to second order upwind, a value of 2 applies the compressive scheme, and a value between 0 and 2 corresponds to a blended scheme. This option is available only wheninterphase-discr? is enabled.

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

Bases: TUIMethod

Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.

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

Bases: TUIMethod

Set the dissipation intensity.

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

Bases: TUIMethod

Specify the virtual mass coefficient for each pair of phases.

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

Bases: TUIMethod

Enable the implicit method for the virtual mass force?.

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

Bases: TUIMethod

Select the virtual mass implicit option.

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

Bases: TUIMethod

Enable the specification for a wall adhesion angle?.

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

Bases: TUIMenu

Enter the menu to set interphase viscous dissipation related models.

Methods:

__init__(service, version, mode, path)

__init__ method of TUIMenu class.

Classes:

`cavitation`(service, version, mode, path)	Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.
`interphase_discr`(service, version, mode, path)	Enable the phase localized compressive discretization scheme where the degree of diffusion/sharpness is controlled through the value of the slope limiters?.
`interphase_visc_disp`(service, version, mode, ...)	Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.
`jump_adhesion`(service, version, mode, path)	Enable the treatment of the contact angle specification at the porous jump boundary?.
`lift`(service, version, mode, path)
`lift_montoya`(service, version, mode, path)	Include the Montoya correction for Lift.
`lift_shaver_podowski`(service, version, mode, ...)	Include the Shaver-Podowski correction for Lift.
`sfc_model_type`(service, version, mode, path)	Select the surface tension model.
`sfc_modeling`(service, version, mode, path)	Include the effects of surface tension along the fluid-fluid interface?.
`sfc_tension_coeff`(service, version, mode, path)	Specify the surface tension coefficient for each pair of phases.
`slope_limiter`(service, version, mode, path)	Specify the slope limiter to set a specific discretization scheme.
`virtual_mass`(service, version, mode, path)	Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.
`visc_disp_factor`(service, version, mode, path)	Set the dissipation intensity.
`vmass_coeff`(service, version, mode, path)	Specify the virtual mass coefficient for each pair of phases.
`vmass_implicit`(service, version, mode, path)	Enable the implicit method for the virtual mass force?.
`vmass_implicit_options`(service, version, ...)	Select the virtual mass implicit option.
`wall_adhesion`(service, version, mode, path)	Enable the specification for a wall adhesion angle?.

__init__(service, version, mode, path)#: __init__ method of TUIMenu class.

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

Bases: TUIMethod

Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.

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

Bases: TUIMethod

Enable the phase localized compressive discretization scheme where the degree of diffusion/sharpness is controlled through the value of the slope limiters?.

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

Bases: TUIMethod

Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.

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

Bases: TUIMethod

Enable the treatment of the contact angle specification at the porous jump boundary?.

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

Bases: TUIMethod

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

Bases: TUIMethod

Include the Montoya correction for Lift.

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

Bases: TUIMethod

Include the Shaver-Podowski correction for Lift.

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

Bases: TUIMethod

Select the surface tension model.

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

Bases: TUIMethod

Include the effects of surface tension along the fluid-fluid interface?.

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

Bases: TUIMethod

Specify the surface tension coefficient for each pair of phases.

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

Bases: TUIMethod

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

Bases: TUIMethod

Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.

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

Bases: TUIMethod

Set the dissipation intensity.

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

Bases: TUIMethod

Specify the virtual mass coefficient for each pair of phases.

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

Bases: TUIMethod

Enable the implicit method for the virtual mass force?.

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

Bases: TUIMethod

Select the virtual mass implicit option.

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

Bases: TUIMethod

Enable the specification for a wall adhesion angle?.

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

Bases: TUIMenu

Enter the menu to set lift models.

Methods:

__init__(service, version, mode, path)

__init__ method of TUIMenu class.

Classes:

`cavitation`(service, version, mode, path)	Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.
`interphase_discr`(service, version, mode, path)	Enable the phase localized compressive discretization scheme where the degree of diffusion/sharpness is controlled through the value of the slope limiters?.
`interphase_visc_disp`(service, version, mode, ...)	Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.
`jump_adhesion`(service, version, mode, path)	Enable the treatment of the contact angle specification at the porous jump boundary?.
`lift`(service, version, mode, path)
`lift_montoya`(service, version, mode, path)	Include the Montoya correction for Lift.
`lift_shaver_podowski`(service, version, mode, ...)	Include the Shaver-Podowski correction for Lift.
`sfc_model_type`(service, version, mode, path)	Select the surface tension model.
`sfc_modeling`(service, version, mode, path)	Include the effects of surface tension along the fluid-fluid interface?.
`sfc_tension_coeff`(service, version, mode, path)	Specify the surface tension coefficient for each pair of phases.
`slope_limiter`(service, version, mode, path)	Specify the slope limiter to set a specific discretization scheme.
`virtual_mass`(service, version, mode, path)	Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.
`visc_disp_factor`(service, version, mode, path)	Set the dissipation intensity.
`vmass_coeff`(service, version, mode, path)	Specify the virtual mass coefficient for each pair of phases.
`vmass_implicit`(service, version, mode, path)	Enable the implicit method for the virtual mass force?.
`vmass_implicit_options`(service, version, ...)	Select the virtual mass implicit option.
`wall_adhesion`(service, version, mode, path)	Enable the specification for a wall adhesion angle?.

__init__(service, version, mode, path)#: __init__ method of TUIMenu class.

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

Bases: TUIMethod

Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.

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

Bases: TUIMethod

Enable the phase localized compressive discretization scheme where the degree of diffusion/sharpness is controlled through the value of the slope limiters?.

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

Bases: TUIMethod

Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.

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

Bases: TUIMethod

Enable the treatment of the contact angle specification at the porous jump boundary?.

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

Bases: TUIMethod

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

Bases: TUIMethod

Include the Montoya correction for Lift.

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

Bases: TUIMethod

Include the Shaver-Podowski correction for Lift.

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

Bases: TUIMethod

Select the surface tension model.

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

Bases: TUIMethod

Include the effects of surface tension along the fluid-fluid interface?.

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

Bases: TUIMethod

Specify the surface tension coefficient for each pair of phases.

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

Bases: TUIMethod

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

Bases: TUIMethod

Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.

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

Bases: TUIMethod

Set the dissipation intensity.

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

Bases: TUIMethod

Specify the virtual mass coefficient for each pair of phases.

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

Bases: TUIMethod

Enable the implicit method for the virtual mass force?.

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

Bases: TUIMethod

Select the virtual mass implicit option.

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

Bases: TUIMethod

Enable the specification for a wall adhesion angle?.

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 surface_tension(service, version, mode, path)#

Bases: TUIMenu

Enter the menu to set surface tension models.

Methods:

__init__(service, version, mode, path)

__init__ method of TUIMenu class.

Classes:

`cavitation`(service, version, mode, path)	Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.
`interphase_discr`(service, version, mode, path)	Enable the phase localized compressive discretization scheme where the degree of diffusion/sharpness is controlled through the value of the slope limiters?.
`interphase_visc_disp`(service, version, mode, ...)	Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.
`jump_adhesion`(service, version, mode, path)	Enable the treatment of the contact angle specification at the porous jump boundary?.
`lift`(service, version, mode, path)
`lift_montoya`(service, version, mode, path)	Include the Montoya correction for Lift.
`lift_shaver_podowski`(service, version, mode, ...)	Include the Shaver-Podowski correction for Lift.
`sfc_model_type`(service, version, mode, path)	Select the surface tension model.
`sfc_modeling`(service, version, mode, path)	Include the effects of surface tension along the fluid-fluid interface?.
`sfc_tension_coeff`(service, version, mode, path)	Specify the surface tension coefficient for each pair of phases.
`slope_limiter`(service, version, mode, path)	Specify the slope limiter to set a specific discretization scheme.
`virtual_mass`(service, version, mode, path)	Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.
`visc_disp_factor`(service, version, mode, path)	Set the dissipation intensity.
`vmass_coeff`(service, version, mode, path)	Specify the virtual mass coefficient for each pair of phases.
`vmass_implicit`(service, version, mode, path)	Enable the implicit method for the virtual mass force?.
`vmass_implicit_options`(service, version, ...)	Select the virtual mass implicit option.
`wall_adhesion`(service, version, mode, path)	Enable the specification for a wall adhesion angle?.

__init__(service, version, mode, path)#: __init__ method of TUIMenu class.

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

Bases: TUIMethod

Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.

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

Bases: TUIMethod

Enable the phase localized compressive discretization scheme where the degree of diffusion/sharpness is controlled through the value of the slope limiters?.

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

Bases: TUIMethod

Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.

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

Bases: TUIMethod

Enable the treatment of the contact angle specification at the porous jump boundary?.

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

Bases: TUIMethod

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

Bases: TUIMethod

Include the Montoya correction for Lift.

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

Bases: TUIMethod

Include the Shaver-Podowski correction for Lift.

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

Bases: TUIMethod

Select the surface tension model.

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

Bases: TUIMethod

Include the effects of surface tension along the fluid-fluid interface?.

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

Bases: TUIMethod

Specify the surface tension coefficient for each pair of phases.

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

Bases: TUIMethod

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

Bases: TUIMethod

Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.

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

Bases: TUIMethod

Set the dissipation intensity.

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

Bases: TUIMethod

Specify the virtual mass coefficient for each pair of phases.

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

Bases: TUIMethod

Enable the implicit method for the virtual mass force?.

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

Bases: TUIMethod

Select the virtual mass implicit option.

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

Bases: TUIMethod

Enable the specification for a wall adhesion angle?.

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 virtual_mass(service, version, mode, path)#

Bases: TUIMenu

Enter the menu to set virtual mass models.

Methods:

__init__(service, version, mode, path)

__init__ method of TUIMenu class.

Classes:

`cavitation`(service, version, mode, path)	Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.
`interphase_discr`(service, version, mode, path)	Enable the phase localized compressive discretization scheme where the degree of diffusion/sharpness is controlled through the value of the slope limiters?.
`interphase_visc_disp`(service, version, mode, ...)	Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.
`jump_adhesion`(service, version, mode, path)	Enable the treatment of the contact angle specification at the porous jump boundary?.
`lift`(service, version, mode, path)
`lift_montoya`(service, version, mode, path)	Include the Montoya correction for Lift.
`lift_shaver_podowski`(service, version, mode, ...)	Include the Shaver-Podowski correction for Lift.
`sfc_model_type`(service, version, mode, path)	Select the surface tension model.
`sfc_modeling`(service, version, mode, path)	Include the effects of surface tension along the fluid-fluid interface?.
`sfc_tension_coeff`(service, version, mode, path)	Specify the surface tension coefficient for each pair of phases.
`slope_limiter`(service, version, mode, path)	Specify the slope limiter to set a specific discretization scheme.
`virtual_mass`(service, version, mode, path)	Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.
`visc_disp_factor`(service, version, mode, path)	Set the dissipation intensity.
`vmass_coeff`(service, version, mode, path)	Specify the virtual mass coefficient for each pair of phases.
`vmass_implicit`(service, version, mode, path)	Enable the implicit method for the virtual mass force?.
`vmass_implicit_options`(service, version, ...)	Select the virtual mass implicit option.
`wall_adhesion`(service, version, mode, path)	Enable the specification for a wall adhesion angle?.

__init__(service, version, mode, path)#: __init__ method of TUIMenu class.

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

Bases: TUIMethod

Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.

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

Bases: TUIMethod

Enable the phase localized compressive discretization scheme where the degree of diffusion/sharpness is controlled through the value of the slope limiters?.

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