phases#

class ansys.fluent.core.solver.tui_231.main_menu.define.models.multiphase.phases(path, service)#

Bases: TUIMenu

Enter the phases menu.

Classes:

`iac_expert`(path, service)	Enter the IAC expert setting menu.
`set_domain_properties`(path, service)	Enter the menu to set domain properties.

class iac_expert(path, service)#

Bases: TUIMenu

Enter the IAC expert setting menu.

Methods:

`hibiki_ishii_model`(args, *kwargs)	Set hi model coefficients.
`iac_pseudo_time_step`(args, *kwargs)	Set iac pseudo-time.
`ishii_kim_model`(args, *kwargs)	Set ik model coefficients.
`yao_morel_model`(args, *kwargs)	Set ym model coefficients.

hibiki_ishii_model(*args, **kwargs)#: Set hi model coefficients.

iac_pseudo_time_step(*args, **kwargs)#: Set iac pseudo-time.

ishii_kim_model(*args, **kwargs)#: Set ik model coefficients.

yao_morel_model(*args, **kwargs)#: Set ym model coefficients.

class set_domain_properties(path, service)#

Bases: TUIMenu

Enter the menu to set domain properties.

Methods:

`change_phases_names`(args, *kwargs)	Change names for all defined phases?.
`phase_domains`(args, *kwargs)	Enter the menu to select a specific phase domain.

Classes:

interaction_domain(path, service)

Enter the menu to set the interaction domain properties.

change_phases_names(*args, **kwargs)#: Change names for all defined phases?.

class interaction_domain(path, service)#

Bases: TUIMenu

Enter the menu to set the interaction domain properties.

Classes:

`forces`(path, service)	Enter the menu to set interfacial forces related models.
`heat_mass_reactions`(path, service)	Enter the menu to set heat, mass-transfer, or reaction related models.
`interfacial_area`(path, service)	Enter the menu to set interfacial area models.
`model_transition`(path, service)	Enter the menu to set model transition mechanisms.
`numerics`(path, service)	Enter the menu to set numerics models.

class forces(path, service)#

Bases: TUIMenu

Enter the menu to set interfacial forces related models.

Classes:

`cavitation`(path, service)	Enter the menu to set cavitation models.
`interphase_discretization`(path, service)	Enter the menu to set interphase discretization models.
`interphase_viscous_dissipation`(path, service)	Enter the menu to set interphase viscous dissipation related models.
`lift`(path, service)	Enter the menu to set lift models.
`surface_tension`(path, service)	Enter the menu to set surface tension models.
`virtual_mass`(path, service)	Enter the menu to set virtual mass models.

Methods:

`drag`(args, *kwargs)	Specify the drag function for each pair of phases.
`heat_coeff`(args, *kwargs)	Specify the heat transfer coefficient function between each pair of phases.
`interfacial_area`(args, *kwargs)	Set the interfacial area parameters for each pair of phases.
`mass_transfer`(args, *kwargs)	Specify the mass transfer mechanisms.
`model_transition`(args, *kwargs)	Set the model transition mechanism.
`reactions`(args, *kwargs)	Define multiple heterogeneous reactions and stoichiometry.
`restitution`(args, *kwargs)	Specify the restitution coefficient for collisions between each pair of granular phases and for collisions between particles of the same granular phase.
`slip_velocity`(args, *kwargs)	Specify the slip velocity function for each secondary phase with respect to the primary phase.
`turbulence_interaction`(args, *kwargs)	Specify the turbulence interaction model for each primary-secondary phase pair.
`turbulent_dispersion`(args, *kwargs)	Specify the turbulent dispersion model for each primary-secondary phase pair.
`wall_lubrication`(args, *kwargs)	Specify the wall lubrication model for each primary-secondary phase pair.

class cavitation(path, service)#

Bases: TUIMenu

Enter the menu to set cavitation models.

Methods:

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

cavitation(*args, **kwargs)#: Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.

interphase_discr(*args, **kwargs)#: 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(*args, **kwargs)#: Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.

jump_adhesion(*args, **kwargs)#: Enable the treatment of the contact angle specification at the porous jump boundary?.

lift(*args, **kwargs)#: .

lift_montoya(*args, **kwargs)#: Include the Montoya correction for Lift.

lift_shaver_podowski(*args, **kwargs)#: Include the Shaver-Podowski correction for Lift.

sfc_model_type(*args, **kwargs)#: Select the surface tension model.

sfc_modeling(*args, **kwargs)#: Include the effects of surface tension along the fluid-fluid interface?.

sfc_tension_coeff(*args, **kwargs)#: Specify the surface tension coefficient for each pair of phases.

slope_limiter(*args, **kwargs)#: 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.

virtual_mass(*args, **kwargs)#: Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.

visc_disp_factor(*args, **kwargs)#: Set the dissipation intensity.

vmass_coeff(*args, **kwargs)#: Specify the virtual mass coefficient for each pair of phases.

vmass_implicit(*args, **kwargs)#: Enable the implicit method for the virtual mass force?.

vmass_implicit_options(*args, **kwargs)#: Select the virtual mass implicit option.

wall_adhesion(*args, **kwargs)#: Enable the specification for a wall adhesion angle?.

drag(*args, **kwargs)#: Specify the drag function for each pair of phases. It also enables drag modification and allow specifying the drag factor.

heat_coeff(*args, **kwargs)#: Specify the heat transfer coefficient function between each pair of phases.

interfacial_area(*args, **kwargs)#: Set the interfacial area parameters for each pair of phases.

class interphase_discretization(path, service)#

Bases: TUIMenu

Enter the menu to set interphase discretization models.

Methods:

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

cavitation(*args, **kwargs)#: Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.

interphase_discr(*args, **kwargs)#: 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(*args, **kwargs)#: Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.

jump_adhesion(*args, **kwargs)#: Enable the treatment of the contact angle specification at the porous jump boundary?.

lift(*args, **kwargs)#: .

lift_montoya(*args, **kwargs)#: Include the Montoya correction for Lift.

lift_shaver_podowski(*args, **kwargs)#: Include the Shaver-Podowski correction for Lift.

sfc_model_type(*args, **kwargs)#: Select the surface tension model.

sfc_modeling(*args, **kwargs)#: Include the effects of surface tension along the fluid-fluid interface?.

sfc_tension_coeff(*args, **kwargs)#: Specify the surface tension coefficient for each pair of phases.

slope_limiter(*args, **kwargs)#: 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.

virtual_mass(*args, **kwargs)#: Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.

visc_disp_factor(*args, **kwargs)#: Set the dissipation intensity.

vmass_coeff(*args, **kwargs)#: Specify the virtual mass coefficient for each pair of phases.

vmass_implicit(*args, **kwargs)#: Enable the implicit method for the virtual mass force?.

vmass_implicit_options(*args, **kwargs)#: Select the virtual mass implicit option.

wall_adhesion(*args, **kwargs)#: Enable the specification for a wall adhesion angle?.

class interphase_viscous_dissipation(path, service)#

Bases: TUIMenu

Enter the menu to set interphase viscous dissipation related models.

Methods:

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

cavitation(*args, **kwargs)#: Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.

interphase_discr(*args, **kwargs)#: 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(*args, **kwargs)#: Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.

jump_adhesion(*args, **kwargs)#: Enable the treatment of the contact angle specification at the porous jump boundary?.

lift(*args, **kwargs)#: .

lift_montoya(*args, **kwargs)#: Include the Montoya correction for Lift.

lift_shaver_podowski(*args, **kwargs)#: Include the Shaver-Podowski correction for Lift.

sfc_model_type(*args, **kwargs)#: Select the surface tension model.

sfc_modeling(*args, **kwargs)#: Include the effects of surface tension along the fluid-fluid interface?.

sfc_tension_coeff(*args, **kwargs)#: Specify the surface tension coefficient for each pair of phases.

slope_limiter(*args, **kwargs)#: 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.

virtual_mass(*args, **kwargs)#: Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.

visc_disp_factor(*args, **kwargs)#: Set the dissipation intensity.

vmass_coeff(*args, **kwargs)#: Specify the virtual mass coefficient for each pair of phases.

vmass_implicit(*args, **kwargs)#: Enable the implicit method for the virtual mass force?.

vmass_implicit_options(*args, **kwargs)#: Select the virtual mass implicit option.

wall_adhesion(*args, **kwargs)#: Enable the specification for a wall adhesion angle?.

class lift(path, service)#

Bases: TUIMenu

Enter the menu to set lift models.

Methods:

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

cavitation(*args, **kwargs)#: Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.

interphase_discr(*args, **kwargs)#: 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(*args, **kwargs)#: Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.

jump_adhesion(*args, **kwargs)#: Enable the treatment of the contact angle specification at the porous jump boundary?.

lift(*args, **kwargs)#: .

lift_montoya(*args, **kwargs)#: Include the Montoya correction for Lift.

lift_shaver_podowski(*args, **kwargs)#: Include the Shaver-Podowski correction for Lift.

sfc_model_type(*args, **kwargs)#: Select the surface tension model.

sfc_modeling(*args, **kwargs)#: Include the effects of surface tension along the fluid-fluid interface?.

sfc_tension_coeff(*args, **kwargs)#: Specify the surface tension coefficient for each pair of phases.

slope_limiter(*args, **kwargs)#: 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.

virtual_mass(*args, **kwargs)#: Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.

visc_disp_factor(*args, **kwargs)#: Set the dissipation intensity.

vmass_coeff(*args, **kwargs)#: Specify the virtual mass coefficient for each pair of phases.

vmass_implicit(*args, **kwargs)#: Enable the implicit method for the virtual mass force?.

vmass_implicit_options(*args, **kwargs)#: Select the virtual mass implicit option.

wall_adhesion(*args, **kwargs)#: Enable the specification for a wall adhesion angle?.

mass_transfer(*args, **kwargs)#: Specify the mass transfer mechanisms.

model_transition(*args, **kwargs)#: Set the model transition mechanism.

reactions(*args, **kwargs)#: Define multiple heterogeneous reactions and stoichiometry.

restitution(*args, **kwargs)#: Specify the restitution coefficient for collisions between each pair of granular phases and for collisions between particles of the same granular phase.

slip_velocity(*args, **kwargs)#: Specify the slip velocity function for each secondary phase with respect to the primary phase.

class surface_tension(path, service)#

Bases: TUIMenu

Enter the menu to set surface tension models.

Methods:

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

cavitation(*args, **kwargs)#: Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.

interphase_discr(*args, **kwargs)#: 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(*args, **kwargs)#: Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.

jump_adhesion(*args, **kwargs)#: Enable the treatment of the contact angle specification at the porous jump boundary?.

lift(*args, **kwargs)#: .

lift_montoya(*args, **kwargs)#: Include the Montoya correction for Lift.

lift_shaver_podowski(*args, **kwargs)#: Include the Shaver-Podowski correction for Lift.

sfc_model_type(*args, **kwargs)#: Select the surface tension model.

sfc_modeling(*args, **kwargs)#: Include the effects of surface tension along the fluid-fluid interface?.

sfc_tension_coeff(*args, **kwargs)#: Specify the surface tension coefficient for each pair of phases.

slope_limiter(*args, **kwargs)#: 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.

virtual_mass(*args, **kwargs)#: Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.

visc_disp_factor(*args, **kwargs)#: Set the dissipation intensity.

vmass_coeff(*args, **kwargs)#: Specify the virtual mass coefficient for each pair of phases.

vmass_implicit(*args, **kwargs)#: Enable the implicit method for the virtual mass force?.

vmass_implicit_options(*args, **kwargs)#: Select the virtual mass implicit option.

wall_adhesion(*args, **kwargs)#: Enable the specification for a wall adhesion angle?.

turbulence_interaction(*args, **kwargs)#: Specify the turbulence interaction model for each primary-secondary phase pair.

turbulent_dispersion(*args, **kwargs)#: Specify the turbulent dispersion model for each primary-secondary phase pair.

class virtual_mass(path, service)#

Bases: TUIMenu

Enter the menu to set virtual mass models.

Methods:

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

cavitation(*args, **kwargs)#: Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.

interphase_discr(*args, **kwargs)#: 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(*args, **kwargs)#: Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.

jump_adhesion(*args, **kwargs)#: Enable the treatment of the contact angle specification at the porous jump boundary?.

lift(*args, **kwargs)#: .

lift_montoya(*args, **kwargs)#: Include the Montoya correction for Lift.

lift_shaver_podowski(*args, **kwargs)#: Include the Shaver-Podowski correction for Lift.

sfc_model_type(*args, **kwargs)#: Select the surface tension model.

sfc_modeling(*args, **kwargs)#: Include the effects of surface tension along the fluid-fluid interface?.

sfc_tension_coeff(*args, **kwargs)#: Specify the surface tension coefficient for each pair of phases.

slope_limiter(*args, **kwargs)#: 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.

virtual_mass(*args, **kwargs)#: Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.

visc_disp_factor(*args, **kwargs)#: Set the dissipation intensity.

vmass_coeff(*args, **kwargs)#: Specify the virtual mass coefficient for each pair of phases.

vmass_implicit(*args, **kwargs)#: Enable the implicit method for the virtual mass force?.

vmass_implicit_options(*args, **kwargs)#: Select the virtual mass implicit option.

wall_adhesion(*args, **kwargs)#: Enable the specification for a wall adhesion angle?.

wall_lubrication(*args, **kwargs)#: Specify the wall lubrication model for each primary-secondary phase pair.

class heat_mass_reactions(path, service)#

Bases: TUIMenu

Enter the menu to set heat, mass-transfer, or reaction related models.

Classes:

`cavitation`(path, service)	Enter the menu to set cavitation models.
`interphase_discretization`(path, service)	Enter the menu to set interphase discretization models.
`interphase_viscous_dissipation`(path, service)	Enter the menu to set interphase viscous dissipation related models.
`lift`(path, service)	Enter the menu to set lift models.
`surface_tension`(path, service)	Enter the menu to set surface tension models.
`virtual_mass`(path, service)	Enter the menu to set virtual mass models.

Methods:

`drag`(args, *kwargs)	Specify the drag function for each pair of phases.
`heat_coeff`(args, *kwargs)	Specify the heat transfer coefficient function between each pair of phases.
`interfacial_area`(args, *kwargs)	Set the interfacial area parameters for each pair of phases.
`mass_transfer`(args, *kwargs)	Specify the mass transfer mechanisms.
`model_transition`(args, *kwargs)	Set the model transition mechanism.
`reactions`(args, *kwargs)	Define multiple heterogeneous reactions and stoichiometry.
`restitution`(args, *kwargs)	Specify the restitution coefficient for collisions between each pair of granular phases and for collisions between particles of the same granular phase.
`slip_velocity`(args, *kwargs)	Specify the slip velocity function for each secondary phase with respect to the primary phase.
`turbulence_interaction`(args, *kwargs)	Specify the turbulence interaction model for each primary-secondary phase pair.
`turbulent_dispersion`(args, *kwargs)	Specify the turbulent dispersion model for each primary-secondary phase pair.
`wall_lubrication`(args, *kwargs)	Specify the wall lubrication model for each primary-secondary phase pair.

class cavitation(path, service)#

Bases: TUIMenu

Enter the menu to set cavitation models.

Methods:

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

cavitation(*args, **kwargs)#: Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.

interphase_discr(*args, **kwargs)#: 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(*args, **kwargs)#: Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.

jump_adhesion(*args, **kwargs)#: Enable the treatment of the contact angle specification at the porous jump boundary?.

lift(*args, **kwargs)#: .

lift_montoya(*args, **kwargs)#: Include the Montoya correction for Lift.

lift_shaver_podowski(*args, **kwargs)#: Include the Shaver-Podowski correction for Lift.

sfc_model_type(*args, **kwargs)#: Select the surface tension model.

sfc_modeling(*args, **kwargs)#: Include the effects of surface tension along the fluid-fluid interface?.

sfc_tension_coeff(*args, **kwargs)#: Specify the surface tension coefficient for each pair of phases.

slope_limiter(*args, **kwargs)#: 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.

virtual_mass(*args, **kwargs)#: Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.

visc_disp_factor(*args, **kwargs)#: Set the dissipation intensity.

vmass_coeff(*args, **kwargs)#: Specify the virtual mass coefficient for each pair of phases.

vmass_implicit(*args, **kwargs)#: Enable the implicit method for the virtual mass force?.

vmass_implicit_options(*args, **kwargs)#: Select the virtual mass implicit option.

wall_adhesion(*args, **kwargs)#: Enable the specification for a wall adhesion angle?.

drag(*args, **kwargs)#: Specify the drag function for each pair of phases. It also enables drag modification and allow specifying the drag factor.

heat_coeff(*args, **kwargs)#: Specify the heat transfer coefficient function between each pair of phases.

interfacial_area(*args, **kwargs)#: Set the interfacial area parameters for each pair of phases.

class interphase_discretization(path, service)#

Bases: TUIMenu

Enter the menu to set interphase discretization models.

Methods:

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

cavitation(*args, **kwargs)#: Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.

interphase_discr(*args, **kwargs)#: 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(*args, **kwargs)#: Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.

jump_adhesion(*args, **kwargs)#: Enable the treatment of the contact angle specification at the porous jump boundary?.

lift(*args, **kwargs)#: .

lift_montoya(*args, **kwargs)#: Include the Montoya correction for Lift.

lift_shaver_podowski(*args, **kwargs)#: Include the Shaver-Podowski correction for Lift.

sfc_model_type(*args, **kwargs)#: Select the surface tension model.

sfc_modeling(*args, **kwargs)#: Include the effects of surface tension along the fluid-fluid interface?.

sfc_tension_coeff(*args, **kwargs)#: Specify the surface tension coefficient for each pair of phases.

slope_limiter(*args, **kwargs)#: 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.

virtual_mass(*args, **kwargs)#: Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.

visc_disp_factor(*args, **kwargs)#: Set the dissipation intensity.

vmass_coeff(*args, **kwargs)#: Specify the virtual mass coefficient for each pair of phases.

vmass_implicit(*args, **kwargs)#: Enable the implicit method for the virtual mass force?.

vmass_implicit_options(*args, **kwargs)#: Select the virtual mass implicit option.

wall_adhesion(*args, **kwargs)#: Enable the specification for a wall adhesion angle?.

class interphase_viscous_dissipation(path, service)#

Bases: TUIMenu

Enter the menu to set interphase viscous dissipation related models.

Methods:

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

cavitation(*args, **kwargs)#: Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.

interphase_discr(*args, **kwargs)#: 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(*args, **kwargs)#: Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.

jump_adhesion(*args, **kwargs)#: Enable the treatment of the contact angle specification at the porous jump boundary?.

lift(*args, **kwargs)#: .

lift_montoya(*args, **kwargs)#: Include the Montoya correction for Lift.

lift_shaver_podowski(*args, **kwargs)#: Include the Shaver-Podowski correction for Lift.

sfc_model_type(*args, **kwargs)#: Select the surface tension model.

sfc_modeling(*args, **kwargs)#: Include the effects of surface tension along the fluid-fluid interface?.

sfc_tension_coeff(*args, **kwargs)#: Specify the surface tension coefficient for each pair of phases.

slope_limiter(*args, **kwargs)#: 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.

virtual_mass(*args, **kwargs)#: Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.

visc_disp_factor(*args, **kwargs)#: Set the dissipation intensity.

vmass_coeff(*args, **kwargs)#: Specify the virtual mass coefficient for each pair of phases.

vmass_implicit(*args, **kwargs)#: Enable the implicit method for the virtual mass force?.

vmass_implicit_options(*args, **kwargs)#: Select the virtual mass implicit option.

wall_adhesion(*args, **kwargs)#: Enable the specification for a wall adhesion angle?.

class lift(path, service)#

Bases: TUIMenu

Enter the menu to set lift models.

Methods:

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

cavitation(*args, **kwargs)#: Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.

interphase_discr(*args, **kwargs)#: 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(*args, **kwargs)#: Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.

jump_adhesion(*args, **kwargs)#: Enable the treatment of the contact angle specification at the porous jump boundary?.

lift(*args, **kwargs)#: .

lift_montoya(*args, **kwargs)#: Include the Montoya correction for Lift.

lift_shaver_podowski(*args, **kwargs)#: Include the Shaver-Podowski correction for Lift.

sfc_model_type(*args, **kwargs)#: Select the surface tension model.

sfc_modeling(*args, **kwargs)#: Include the effects of surface tension along the fluid-fluid interface?.

sfc_tension_coeff(*args, **kwargs)#: Specify the surface tension coefficient for each pair of phases.

slope_limiter(*args, **kwargs)#: 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.

virtual_mass(*args, **kwargs)#: Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.

visc_disp_factor(*args, **kwargs)#: Set the dissipation intensity.

vmass_coeff(*args, **kwargs)#: Specify the virtual mass coefficient for each pair of phases.

vmass_implicit(*args, **kwargs)#: Enable the implicit method for the virtual mass force?.

vmass_implicit_options(*args, **kwargs)#: Select the virtual mass implicit option.

wall_adhesion(*args, **kwargs)#: Enable the specification for a wall adhesion angle?.

mass_transfer(*args, **kwargs)#: Specify the mass transfer mechanisms.

model_transition(*args, **kwargs)#: Set the model transition mechanism.

reactions(*args, **kwargs)#: Define multiple heterogeneous reactions and stoichiometry.

restitution(*args, **kwargs)#: Specify the restitution coefficient for collisions between each pair of granular phases and for collisions between particles of the same granular phase.

slip_velocity(*args, **kwargs)#: Specify the slip velocity function for each secondary phase with respect to the primary phase.

class surface_tension(path, service)#

Bases: TUIMenu

Enter the menu to set surface tension models.

Methods:

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

cavitation(*args, **kwargs)#: Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.

interphase_discr(*args, **kwargs)#: 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(*args, **kwargs)#: Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.

jump_adhesion(*args, **kwargs)#: Enable the treatment of the contact angle specification at the porous jump boundary?.

lift(*args, **kwargs)#: .

lift_montoya(*args, **kwargs)#: Include the Montoya correction for Lift.

lift_shaver_podowski(*args, **kwargs)#: Include the Shaver-Podowski correction for Lift.

sfc_model_type(*args, **kwargs)#: Select the surface tension model.

sfc_modeling(*args, **kwargs)#: Include the effects of surface tension along the fluid-fluid interface?.

sfc_tension_coeff(*args, **kwargs)#: Specify the surface tension coefficient for each pair of phases.

slope_limiter(*args, **kwargs)#: 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.

virtual_mass(*args, **kwargs)#: Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.

visc_disp_factor(*args, **kwargs)#: Set the dissipation intensity.

vmass_coeff(*args, **kwargs)#: Specify the virtual mass coefficient for each pair of phases.

vmass_implicit(*args, **kwargs)#: Enable the implicit method for the virtual mass force?.

vmass_implicit_options(*args, **kwargs)#: Select the virtual mass implicit option.

wall_adhesion(*args, **kwargs)#: Enable the specification for a wall adhesion angle?.

turbulence_interaction(*args, **kwargs)#: Specify the turbulence interaction model for each primary-secondary phase pair.

turbulent_dispersion(*args, **kwargs)#: Specify the turbulent dispersion model for each primary-secondary phase pair.

class virtual_mass(path, service)#

Bases: TUIMenu

Enter the menu to set virtual mass models.

Methods:

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

cavitation(*args, **kwargs)#: Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.

interphase_discr(*args, **kwargs)#: 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(*args, **kwargs)#: Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.

jump_adhesion(*args, **kwargs)#: Enable the treatment of the contact angle specification at the porous jump boundary?.

lift(*args, **kwargs)#: .

lift_montoya(*args, **kwargs)#: Include the Montoya correction for Lift.

lift_shaver_podowski(*args, **kwargs)#: Include the Shaver-Podowski correction for Lift.

sfc_model_type(*args, **kwargs)#: Select the surface tension model.

sfc_modeling(*args, **kwargs)#: Include the effects of surface tension along the fluid-fluid interface?.

sfc_tension_coeff(*args, **kwargs)#: Specify the surface tension coefficient for each pair of phases.

slope_limiter(*args, **kwargs)#: 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.

virtual_mass(*args, **kwargs)#: Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.

visc_disp_factor(*args, **kwargs)#: Set the dissipation intensity.

vmass_coeff(*args, **kwargs)#: Specify the virtual mass coefficient for each pair of phases.

vmass_implicit(*args, **kwargs)#: Enable the implicit method for the virtual mass force?.

vmass_implicit_options(*args, **kwargs)#: Select the virtual mass implicit option.

wall_adhesion(*args, **kwargs)#: Enable the specification for a wall adhesion angle?.

wall_lubrication(*args, **kwargs)#: Specify the wall lubrication model for each primary-secondary phase pair.

class interfacial_area(path, service)#

Bases: TUIMenu

Enter the menu to set interfacial area models.

Classes:

`cavitation`(path, service)	Enter the menu to set cavitation models.
`interphase_discretization`(path, service)	Enter the menu to set interphase discretization models.
`interphase_viscous_dissipation`(path, service)	Enter the menu to set interphase viscous dissipation related models.
`lift`(path, service)	Enter the menu to set lift models.
`surface_tension`(path, service)	Enter the menu to set surface tension models.
`virtual_mass`(path, service)	Enter the menu to set virtual mass models.

Methods:

`drag`(args, *kwargs)	Specify the drag function for each pair of phases.
`heat_coeff`(args, *kwargs)	Specify the heat transfer coefficient function between each pair of phases.
`interfacial_area`(args, *kwargs)	Set the interfacial area parameters for each pair of phases.
`mass_transfer`(args, *kwargs)	Specify the mass transfer mechanisms.
`model_transition`(args, *kwargs)	Set the model transition mechanism.
`reactions`(args, *kwargs)	Define multiple heterogeneous reactions and stoichiometry.
`restitution`(args, *kwargs)	Specify the restitution coefficient for collisions between each pair of granular phases and for collisions between particles of the same granular phase.
`slip_velocity`(args, *kwargs)	Specify the slip velocity function for each secondary phase with respect to the primary phase.
`turbulence_interaction`(args, *kwargs)	Specify the turbulence interaction model for each primary-secondary phase pair.
`turbulent_dispersion`(args, *kwargs)	Specify the turbulent dispersion model for each primary-secondary phase pair.
`wall_lubrication`(args, *kwargs)	Specify the wall lubrication model for each primary-secondary phase pair.

class cavitation(path, service)#

Bases: TUIMenu

Enter the menu to set cavitation models.

Methods:

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

cavitation(*args, **kwargs)#: Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.

interphase_discr(*args, **kwargs)#: 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(*args, **kwargs)#: Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.

jump_adhesion(*args, **kwargs)#: Enable the treatment of the contact angle specification at the porous jump boundary?.

lift(*args, **kwargs)#: .

lift_montoya(*args, **kwargs)#: Include the Montoya correction for Lift.

lift_shaver_podowski(*args, **kwargs)#: Include the Shaver-Podowski correction for Lift.

sfc_model_type(*args, **kwargs)#: Select the surface tension model.

sfc_modeling(*args, **kwargs)#: Include the effects of surface tension along the fluid-fluid interface?.

sfc_tension_coeff(*args, **kwargs)#: Specify the surface tension coefficient for each pair of phases.

slope_limiter(*args, **kwargs)#: 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.

virtual_mass(*args, **kwargs)#: Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.

visc_disp_factor(*args, **kwargs)#: Set the dissipation intensity.

vmass_coeff(*args, **kwargs)#: Specify the virtual mass coefficient for each pair of phases.

vmass_implicit(*args, **kwargs)#: Enable the implicit method for the virtual mass force?.

vmass_implicit_options(*args, **kwargs)#: Select the virtual mass implicit option.

wall_adhesion(*args, **kwargs)#: Enable the specification for a wall adhesion angle?.

drag(*args, **kwargs)#: Specify the drag function for each pair of phases. It also enables drag modification and allow specifying the drag factor.

heat_coeff(*args, **kwargs)#: Specify the heat transfer coefficient function between each pair of phases.

interfacial_area(*args, **kwargs)#: Set the interfacial area parameters for each pair of phases.

class interphase_discretization(path, service)#

Bases: TUIMenu

Enter the menu to set interphase discretization models.

Methods:

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

cavitation(*args, **kwargs)#: Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.

interphase_discr(*args, **kwargs)#: 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(*args, **kwargs)#: Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.

jump_adhesion(*args, **kwargs)#: Enable the treatment of the contact angle specification at the porous jump boundary?.

lift(*args, **kwargs)#: .

lift_montoya(*args, **kwargs)#: Include the Montoya correction for Lift.

lift_shaver_podowski(*args, **kwargs)#: Include the Shaver-Podowski correction for Lift.

sfc_model_type(*args, **kwargs)#: Select the surface tension model.

sfc_modeling(*args, **kwargs)#: Include the effects of surface tension along the fluid-fluid interface?.

sfc_tension_coeff(*args, **kwargs)#: Specify the surface tension coefficient for each pair of phases.

slope_limiter(*args, **kwargs)#: 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.

virtual_mass(*args, **kwargs)#: Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.

visc_disp_factor(*args, **kwargs)#: Set the dissipation intensity.

vmass_coeff(*args, **kwargs)#: Specify the virtual mass coefficient for each pair of phases.

vmass_implicit(*args, **kwargs)#: Enable the implicit method for the virtual mass force?.

vmass_implicit_options(*args, **kwargs)#: Select the virtual mass implicit option.

wall_adhesion(*args, **kwargs)#: Enable the specification for a wall adhesion angle?.

class interphase_viscous_dissipation(path, service)#

Bases: TUIMenu

Enter the menu to set interphase viscous dissipation related models.

Methods:

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

cavitation(*args, **kwargs)#: Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.

interphase_discr(*args, **kwargs)#: 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(*args, **kwargs)#: Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.

jump_adhesion(*args, **kwargs)#: Enable the treatment of the contact angle specification at the porous jump boundary?.

lift(*args, **kwargs)#: .

lift_montoya(*args, **kwargs)#: Include the Montoya correction for Lift.

lift_shaver_podowski(*args, **kwargs)#: Include the Shaver-Podowski correction for Lift.

sfc_model_type(*args, **kwargs)#: Select the surface tension model.

sfc_modeling(*args, **kwargs)#: Include the effects of surface tension along the fluid-fluid interface?.

sfc_tension_coeff(*args, **kwargs)#: Specify the surface tension coefficient for each pair of phases.

slope_limiter(*args, **kwargs)#: 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.

virtual_mass(*args, **kwargs)#: Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.

visc_disp_factor(*args, **kwargs)#: Set the dissipation intensity.

vmass_coeff(*args, **kwargs)#: Specify the virtual mass coefficient for each pair of phases.

vmass_implicit(*args, **kwargs)#: Enable the implicit method for the virtual mass force?.

vmass_implicit_options(*args, **kwargs)#: Select the virtual mass implicit option.

wall_adhesion(*args, **kwargs)#: Enable the specification for a wall adhesion angle?.

class lift(path, service)#

Bases: TUIMenu

Enter the menu to set lift models.

Methods:

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

cavitation(*args, **kwargs)#: Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.

interphase_discr(*args, **kwargs)#: 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(*args, **kwargs)#: Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.

jump_adhesion(*args, **kwargs)#: Enable the treatment of the contact angle specification at the porous jump boundary?.

lift(*args, **kwargs)#: .

lift_montoya(*args, **kwargs)#: Include the Montoya correction for Lift.

lift_shaver_podowski(*args, **kwargs)#: Include the Shaver-Podowski correction for Lift.

sfc_model_type(*args, **kwargs)#: Select the surface tension model.

sfc_modeling(*args, **kwargs)#: Include the effects of surface tension along the fluid-fluid interface?.

sfc_tension_coeff(*args, **kwargs)#: Specify the surface tension coefficient for each pair of phases.

slope_limiter(*args, **kwargs)#: 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.

virtual_mass(*args, **kwargs)#: Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.

visc_disp_factor(*args, **kwargs)#: Set the dissipation intensity.

vmass_coeff(*args, **kwargs)#: Specify the virtual mass coefficient for each pair of phases.

vmass_implicit(*args, **kwargs)#: Enable the implicit method for the virtual mass force?.

vmass_implicit_options(*args, **kwargs)#: Select the virtual mass implicit option.

wall_adhesion(*args, **kwargs)#: Enable the specification for a wall adhesion angle?.

mass_transfer(*args, **kwargs)#: Specify the mass transfer mechanisms.

model_transition(*args, **kwargs)#: Set the model transition mechanism.

reactions(*args, **kwargs)#: Define multiple heterogeneous reactions and stoichiometry.

restitution(*args, **kwargs)#: Specify the restitution coefficient for collisions between each pair of granular phases and for collisions between particles of the same granular phase.

slip_velocity(*args, **kwargs)#: Specify the slip velocity function for each secondary phase with respect to the primary phase.

class surface_tension(path, service)#

Bases: TUIMenu

Enter the menu to set surface tension models.

Methods:

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

cavitation(*args, **kwargs)#: Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.

interphase_discr(*args, **kwargs)#: 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(*args, **kwargs)#: Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.

jump_adhesion(*args, **kwargs)#: Enable the treatment of the contact angle specification at the porous jump boundary?.

lift(*args, **kwargs)#: .

lift_montoya(*args, **kwargs)#: Include the Montoya correction for Lift.

lift_shaver_podowski(*args, **kwargs)#: Include the Shaver-Podowski correction for Lift.

sfc_model_type(*args, **kwargs)#: Select the surface tension model.

sfc_modeling(*args, **kwargs)#: Include the effects of surface tension along the fluid-fluid interface?.

sfc_tension_coeff(*args, **kwargs)#: Specify the surface tension coefficient for each pair of phases.

slope_limiter(*args, **kwargs)#: 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.

virtual_mass(*args, **kwargs)#: Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.

visc_disp_factor(*args, **kwargs)#: Set the dissipation intensity.

vmass_coeff(*args, **kwargs)#: Specify the virtual mass coefficient for each pair of phases.

vmass_implicit(*args, **kwargs)#: Enable the implicit method for the virtual mass force?.

vmass_implicit_options(*args, **kwargs)#: Select the virtual mass implicit option.

wall_adhesion(*args, **kwargs)#: Enable the specification for a wall adhesion angle?.

turbulence_interaction(*args, **kwargs)#: Specify the turbulence interaction model for each primary-secondary phase pair.

turbulent_dispersion(*args, **kwargs)#: Specify the turbulent dispersion model for each primary-secondary phase pair.

class virtual_mass(path, service)#

Bases: TUIMenu

Enter the menu to set virtual mass models.

Methods:

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

cavitation(*args, **kwargs)#: Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.

interphase_discr(*args, **kwargs)#: 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(*args, **kwargs)#: Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.

jump_adhesion(*args, **kwargs)#: Enable the treatment of the contact angle specification at the porous jump boundary?.

lift(*args, **kwargs)#: .

lift_montoya(*args, **kwargs)#: Include the Montoya correction for Lift.

lift_shaver_podowski(*args, **kwargs)#: Include the Shaver-Podowski correction for Lift.

sfc_model_type(*args, **kwargs)#: Select the surface tension model.

sfc_modeling(*args, **kwargs)#: Include the effects of surface tension along the fluid-fluid interface?.

sfc_tension_coeff(*args, **kwargs)#: Specify the surface tension coefficient for each pair of phases.

slope_limiter(*args, **kwargs)#: 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.

virtual_mass(*args, **kwargs)#: Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.

visc_disp_factor(*args, **kwargs)#: Set the dissipation intensity.

vmass_coeff(*args, **kwargs)#: Specify the virtual mass coefficient for each pair of phases.

vmass_implicit(*args, **kwargs)#: Enable the implicit method for the virtual mass force?.

vmass_implicit_options(*args, **kwargs)#: Select the virtual mass implicit option.

wall_adhesion(*args, **kwargs)#: Enable the specification for a wall adhesion angle?.

wall_lubrication(*args, **kwargs)#: Specify the wall lubrication model for each primary-secondary phase pair.

class model_transition(path, service)#

Bases: TUIMenu

Enter the menu to set model transition mechanisms.

Classes:

`cavitation`(path, service)	Enter the menu to set cavitation models.
`interphase_discretization`(path, service)	Enter the menu to set interphase discretization models.
`interphase_viscous_dissipation`(path, service)	Enter the menu to set interphase viscous dissipation related models.
`lift`(path, service)	Enter the menu to set lift models.
`surface_tension`(path, service)	Enter the menu to set surface tension models.
`virtual_mass`(path, service)	Enter the menu to set virtual mass models.

Methods:

`drag`(args, *kwargs)	Specify the drag function for each pair of phases.
`heat_coeff`(args, *kwargs)	Specify the heat transfer coefficient function between each pair of phases.
`interfacial_area`(args, *kwargs)	Set the interfacial area parameters for each pair of phases.
`mass_transfer`(args, *kwargs)	Specify the mass transfer mechanisms.
`model_transition`(args, *kwargs)	Set the model transition mechanism.
`reactions`(args, *kwargs)	Define multiple heterogeneous reactions and stoichiometry.
`restitution`(args, *kwargs)	Specify the restitution coefficient for collisions between each pair of granular phases and for collisions between particles of the same granular phase.
`slip_velocity`(args, *kwargs)	Specify the slip velocity function for each secondary phase with respect to the primary phase.
`turbulence_interaction`(args, *kwargs)	Specify the turbulence interaction model for each primary-secondary phase pair.
`turbulent_dispersion`(args, *kwargs)	Specify the turbulent dispersion model for each primary-secondary phase pair.
`wall_lubrication`(args, *kwargs)	Specify the wall lubrication model for each primary-secondary phase pair.

class cavitation(path, service)#

Bases: TUIMenu

Enter the menu to set cavitation models.

Methods:

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

cavitation(*args, **kwargs)#: Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.

interphase_discr(*args, **kwargs)#: 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(*args, **kwargs)#: Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.

jump_adhesion(*args, **kwargs)#: Enable the treatment of the contact angle specification at the porous jump boundary?.

lift(*args, **kwargs)#: .

lift_montoya(*args, **kwargs)#: Include the Montoya correction for Lift.

lift_shaver_podowski(*args, **kwargs)#: Include the Shaver-Podowski correction for Lift.

sfc_model_type(*args, **kwargs)#: Select the surface tension model.

sfc_modeling(*args, **kwargs)#: Include the effects of surface tension along the fluid-fluid interface?.

sfc_tension_coeff(*args, **kwargs)#: Specify the surface tension coefficient for each pair of phases.

slope_limiter(*args, **kwargs)#: 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.

virtual_mass(*args, **kwargs)#: Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.

visc_disp_factor(*args, **kwargs)#: Set the dissipation intensity.

vmass_coeff(*args, **kwargs)#: Specify the virtual mass coefficient for each pair of phases.

vmass_implicit(*args, **kwargs)#: Enable the implicit method for the virtual mass force?.

vmass_implicit_options(*args, **kwargs)#: Select the virtual mass implicit option.

wall_adhesion(*args, **kwargs)#: Enable the specification for a wall adhesion angle?.

drag(*args, **kwargs)#: Specify the drag function for each pair of phases. It also enables drag modification and allow specifying the drag factor.

heat_coeff(*args, **kwargs)#: Specify the heat transfer coefficient function between each pair of phases.

interfacial_area(*args, **kwargs)#: Set the interfacial area parameters for each pair of phases.

class interphase_discretization(path, service)#

Bases: TUIMenu

Enter the menu to set interphase discretization models.

Methods:

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

cavitation(*args, **kwargs)#: Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.

interphase_discr(*args, **kwargs)#: 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(*args, **kwargs)#: Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.

jump_adhesion(*args, **kwargs)#: Enable the treatment of the contact angle specification at the porous jump boundary?.

lift(*args, **kwargs)#: .

lift_montoya(*args, **kwargs)#: Include the Montoya correction for Lift.

lift_shaver_podowski(*args, **kwargs)#: Include the Shaver-Podowski correction for Lift.

sfc_model_type(*args, **kwargs)#: Select the surface tension model.

sfc_modeling(*args, **kwargs)#: Include the effects of surface tension along the fluid-fluid interface?.

sfc_tension_coeff(*args, **kwargs)#: Specify the surface tension coefficient for each pair of phases.

slope_limiter(*args, **kwargs)#: 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.

virtual_mass(*args, **kwargs)#: Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.

visc_disp_factor(*args, **kwargs)#: Set the dissipation intensity.

vmass_coeff(*args, **kwargs)#: Specify the virtual mass coefficient for each pair of phases.

vmass_implicit(*args, **kwargs)#: Enable the implicit method for the virtual mass force?.

vmass_implicit_options(*args, **kwargs)#: Select the virtual mass implicit option.

wall_adhesion(*args, **kwargs)#: Enable the specification for a wall adhesion angle?.

class interphase_viscous_dissipation(path, service)#

Bases: TUIMenu

Enter the menu to set interphase viscous dissipation related models.

Methods:

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

cavitation(*args, **kwargs)#: Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.

interphase_discr(*args, **kwargs)#: 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(*args, **kwargs)#: Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.

jump_adhesion(*args, **kwargs)#: Enable the treatment of the contact angle specification at the porous jump boundary?.

lift(*args, **kwargs)#: .

lift_montoya(*args, **kwargs)#: Include the Montoya correction for Lift.

lift_shaver_podowski(*args, **kwargs)#: Include the Shaver-Podowski correction for Lift.

sfc_model_type(*args, **kwargs)#: Select the surface tension model.

sfc_modeling(*args, **kwargs)#: Include the effects of surface tension along the fluid-fluid interface?.

sfc_tension_coeff(*args, **kwargs)#: Specify the surface tension coefficient for each pair of phases.

slope_limiter(*args, **kwargs)#: 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.

virtual_mass(*args, **kwargs)#: Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.

visc_disp_factor(*args, **kwargs)#: Set the dissipation intensity.

vmass_coeff(*args, **kwargs)#: Specify the virtual mass coefficient for each pair of phases.

vmass_implicit(*args, **kwargs)#: Enable the implicit method for the virtual mass force?.

vmass_implicit_options(*args, **kwargs)#: Select the virtual mass implicit option.

wall_adhesion(*args, **kwargs)#: Enable the specification for a wall adhesion angle?.

class lift(path, service)#

Bases: TUIMenu

Enter the menu to set lift models.

Methods:

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

cavitation(*args, **kwargs)#: Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.

interphase_discr(*args, **kwargs)#: 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(*args, **kwargs)#: Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.

jump_adhesion(*args, **kwargs)#: Enable the treatment of the contact angle specification at the porous jump boundary?.

lift(*args, **kwargs)#: .

lift_montoya(*args, **kwargs)#: Include the Montoya correction for Lift.

lift_shaver_podowski(*args, **kwargs)#: Include the Shaver-Podowski correction for Lift.

sfc_model_type(*args, **kwargs)#: Select the surface tension model.

sfc_modeling(*args, **kwargs)#: Include the effects of surface tension along the fluid-fluid interface?.

sfc_tension_coeff(*args, **kwargs)#: Specify the surface tension coefficient for each pair of phases.

slope_limiter(*args, **kwargs)#: 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.

virtual_mass(*args, **kwargs)#: Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.

visc_disp_factor(*args, **kwargs)#: Set the dissipation intensity.

vmass_coeff(*args, **kwargs)#: Specify the virtual mass coefficient for each pair of phases.

vmass_implicit(*args, **kwargs)#: Enable the implicit method for the virtual mass force?.

vmass_implicit_options(*args, **kwargs)#: Select the virtual mass implicit option.

wall_adhesion(*args, **kwargs)#: Enable the specification for a wall adhesion angle?.

mass_transfer(*args, **kwargs)#: Specify the mass transfer mechanisms.

model_transition(*args, **kwargs)#: Set the model transition mechanism.

reactions(*args, **kwargs)#: Define multiple heterogeneous reactions and stoichiometry.

restitution(*args, **kwargs)#: Specify the restitution coefficient for collisions between each pair of granular phases and for collisions between particles of the same granular phase.

slip_velocity(*args, **kwargs)#: Specify the slip velocity function for each secondary phase with respect to the primary phase.

class surface_tension(path, service)#

Bases: TUIMenu

Enter the menu to set surface tension models.

Methods:

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

cavitation(*args, **kwargs)#: Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.

interphase_discr(*args, **kwargs)#: 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(*args, **kwargs)#: Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.

jump_adhesion(*args, **kwargs)#: Enable the treatment of the contact angle specification at the porous jump boundary?.

lift(*args, **kwargs)#: .

lift_montoya(*args, **kwargs)#: Include the Montoya correction for Lift.

lift_shaver_podowski(*args, **kwargs)#: Include the Shaver-Podowski correction for Lift.

sfc_model_type(*args, **kwargs)#: Select the surface tension model.

sfc_modeling(*args, **kwargs)#: Include the effects of surface tension along the fluid-fluid interface?.

sfc_tension_coeff(*args, **kwargs)#: Specify the surface tension coefficient for each pair of phases.

slope_limiter(*args, **kwargs)#: 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.

virtual_mass(*args, **kwargs)#: Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.

visc_disp_factor(*args, **kwargs)#: Set the dissipation intensity.

vmass_coeff(*args, **kwargs)#: Specify the virtual mass coefficient for each pair of phases.

vmass_implicit(*args, **kwargs)#: Enable the implicit method for the virtual mass force?.

vmass_implicit_options(*args, **kwargs)#: Select the virtual mass implicit option.

wall_adhesion(*args, **kwargs)#: Enable the specification for a wall adhesion angle?.

turbulence_interaction(*args, **kwargs)#: Specify the turbulence interaction model for each primary-secondary phase pair.

turbulent_dispersion(*args, **kwargs)#: Specify the turbulent dispersion model for each primary-secondary phase pair.

class virtual_mass(path, service)#

Bases: TUIMenu

Enter the menu to set virtual mass models.

Methods:

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

cavitation(*args, **kwargs)#: Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.

interphase_discr(*args, **kwargs)#: 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(*args, **kwargs)#: Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.

jump_adhesion(*args, **kwargs)#: Enable the treatment of the contact angle specification at the porous jump boundary?.

lift(*args, **kwargs)#: .

lift_montoya(*args, **kwargs)#: Include the Montoya correction for Lift.

lift_shaver_podowski(*args, **kwargs)#: Include the Shaver-Podowski correction for Lift.

sfc_model_type(*args, **kwargs)#: Select the surface tension model.

sfc_modeling(*args, **kwargs)#: Include the effects of surface tension along the fluid-fluid interface?.

sfc_tension_coeff(*args, **kwargs)#: Specify the surface tension coefficient for each pair of phases.

slope_limiter(*args, **kwargs)#: 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.

virtual_mass(*args, **kwargs)#: Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.

visc_disp_factor(*args, **kwargs)#: Set the dissipation intensity.

vmass_coeff(*args, **kwargs)#: Specify the virtual mass coefficient for each pair of phases.

vmass_implicit(*args, **kwargs)#: Enable the implicit method for the virtual mass force?.

vmass_implicit_options(*args, **kwargs)#: Select the virtual mass implicit option.

wall_adhesion(*args, **kwargs)#: Enable the specification for a wall adhesion angle?.

wall_lubrication(*args, **kwargs)#: Specify the wall lubrication model for each primary-secondary phase pair.

class numerics(path, service)#

Bases: TUIMenu

Enter the menu to set numerics models.

Classes:

`cavitation`(path, service)	Enter the menu to set cavitation models.
`interphase_discretization`(path, service)	Enter the menu to set interphase discretization models.
`interphase_viscous_dissipation`(path, service)	Enter the menu to set interphase viscous dissipation related models.
`lift`(path, service)	Enter the menu to set lift models.
`surface_tension`(path, service)	Enter the menu to set surface tension models.
`virtual_mass`(path, service)	Enter the menu to set virtual mass models.

Methods:

`drag`(args, *kwargs)	Specify the drag function for each pair of phases.
`heat_coeff`(args, *kwargs)	Specify the heat transfer coefficient function between each pair of phases.
`interfacial_area`(args, *kwargs)	Set the interfacial area parameters for each pair of phases.
`mass_transfer`(args, *kwargs)	Specify the mass transfer mechanisms.
`model_transition`(args, *kwargs)	Set the model transition mechanism.
`reactions`(args, *kwargs)	Define multiple heterogeneous reactions and stoichiometry.
`restitution`(args, *kwargs)	Specify the restitution coefficient for collisions between each pair of granular phases and for collisions between particles of the same granular phase.
`slip_velocity`(args, *kwargs)	Specify the slip velocity function for each secondary phase with respect to the primary phase.
`turbulence_interaction`(args, *kwargs)	Specify the turbulence interaction model for each primary-secondary phase pair.
`turbulent_dispersion`(args, *kwargs)	Specify the turbulent dispersion model for each primary-secondary phase pair.
`wall_lubrication`(args, *kwargs)	Specify the wall lubrication model for each primary-secondary phase pair.

class cavitation(path, service)#

Bases: TUIMenu

Enter the menu to set cavitation models.

Methods:

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

cavitation(*args, **kwargs)#: Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.

interphase_discr(*args, **kwargs)#: 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(*args, **kwargs)#: Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.

jump_adhesion(*args, **kwargs)#: Enable the treatment of the contact angle specification at the porous jump boundary?.

lift(*args, **kwargs)#: .

lift_montoya(*args, **kwargs)#: Include the Montoya correction for Lift.

lift_shaver_podowski(*args, **kwargs)#: Include the Shaver-Podowski correction for Lift.

sfc_model_type(*args, **kwargs)#: Select the surface tension model.

sfc_modeling(*args, **kwargs)#: Include the effects of surface tension along the fluid-fluid interface?.

sfc_tension_coeff(*args, **kwargs)#: Specify the surface tension coefficient for each pair of phases.

slope_limiter(*args, **kwargs)#: 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.

virtual_mass(*args, **kwargs)#: Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.

visc_disp_factor(*args, **kwargs)#: Set the dissipation intensity.

vmass_coeff(*args, **kwargs)#: Specify the virtual mass coefficient for each pair of phases.

vmass_implicit(*args, **kwargs)#: Enable the implicit method for the virtual mass force?.

vmass_implicit_options(*args, **kwargs)#: Select the virtual mass implicit option.

wall_adhesion(*args, **kwargs)#: Enable the specification for a wall adhesion angle?.

drag(*args, **kwargs)#: Specify the drag function for each pair of phases. It also enables drag modification and allow specifying the drag factor.

heat_coeff(*args, **kwargs)#: Specify the heat transfer coefficient function between each pair of phases.

interfacial_area(*args, **kwargs)#: Set the interfacial area parameters for each pair of phases.

class interphase_discretization(path, service)#

Bases: TUIMenu

Enter the menu to set interphase discretization models.

Methods:

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

cavitation(*args, **kwargs)#: Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.

interphase_discr(*args, **kwargs)#: 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(*args, **kwargs)#: Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.

jump_adhesion(*args, **kwargs)#: Enable the treatment of the contact angle specification at the porous jump boundary?.

lift(*args, **kwargs)#: .

lift_montoya(*args, **kwargs)#: Include the Montoya correction for Lift.

lift_shaver_podowski(*args, **kwargs)#: Include the Shaver-Podowski correction for Lift.

sfc_model_type(*args, **kwargs)#: Select the surface tension model.

sfc_modeling(*args, **kwargs)#: Include the effects of surface tension along the fluid-fluid interface?.

sfc_tension_coeff(*args, **kwargs)#: Specify the surface tension coefficient for each pair of phases.

slope_limiter(*args, **kwargs)#: 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.

virtual_mass(*args, **kwargs)#: Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.

visc_disp_factor(*args, **kwargs)#: Set the dissipation intensity.

vmass_coeff(*args, **kwargs)#: Specify the virtual mass coefficient for each pair of phases.

vmass_implicit(*args, **kwargs)#: Enable the implicit method for the virtual mass force?.

vmass_implicit_options(*args, **kwargs)#: Select the virtual mass implicit option.

wall_adhesion(*args, **kwargs)#: Enable the specification for a wall adhesion angle?.

class interphase_viscous_dissipation(path, service)#

Bases: TUIMenu

Enter the menu to set interphase viscous dissipation related models.

Methods:

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

cavitation(*args, **kwargs)#: Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.

interphase_discr(*args, **kwargs)#: 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(*args, **kwargs)#: Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.

jump_adhesion(*args, **kwargs)#: Enable the treatment of the contact angle specification at the porous jump boundary?.

lift(*args, **kwargs)#: .

lift_montoya(*args, **kwargs)#: Include the Montoya correction for Lift.

lift_shaver_podowski(*args, **kwargs)#: Include the Shaver-Podowski correction for Lift.

sfc_model_type(*args, **kwargs)#: Select the surface tension model.

sfc_modeling(*args, **kwargs)#: Include the effects of surface tension along the fluid-fluid interface?.

sfc_tension_coeff(*args, **kwargs)#: Specify the surface tension coefficient for each pair of phases.

slope_limiter(*args, **kwargs)#: 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.

virtual_mass(*args, **kwargs)#: Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.

visc_disp_factor(*args, **kwargs)#: Set the dissipation intensity.

vmass_coeff(*args, **kwargs)#: Specify the virtual mass coefficient for each pair of phases.

vmass_implicit(*args, **kwargs)#: Enable the implicit method for the virtual mass force?.

vmass_implicit_options(*args, **kwargs)#: Select the virtual mass implicit option.

wall_adhesion(*args, **kwargs)#: Enable the specification for a wall adhesion angle?.

class lift(path, service)#

Bases: TUIMenu

Enter the menu to set lift models.

Methods:

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

cavitation(*args, **kwargs)#: Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.

interphase_discr(*args, **kwargs)#: 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(*args, **kwargs)#: Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.

jump_adhesion(*args, **kwargs)#: Enable the treatment of the contact angle specification at the porous jump boundary?.

lift(*args, **kwargs)#: .

lift_montoya(*args, **kwargs)#: Include the Montoya correction for Lift.

lift_shaver_podowski(*args, **kwargs)#: Include the Shaver-Podowski correction for Lift.

sfc_model_type(*args, **kwargs)#: Select the surface tension model.

sfc_modeling(*args, **kwargs)#: Include the effects of surface tension along the fluid-fluid interface?.

sfc_tension_coeff(*args, **kwargs)#: Specify the surface tension coefficient for each pair of phases.

slope_limiter(*args, **kwargs)#: 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.

virtual_mass(*args, **kwargs)#: Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.

visc_disp_factor(*args, **kwargs)#: Set the dissipation intensity.

vmass_coeff(*args, **kwargs)#: Specify the virtual mass coefficient for each pair of phases.

vmass_implicit(*args, **kwargs)#: Enable the implicit method for the virtual mass force?.

vmass_implicit_options(*args, **kwargs)#: Select the virtual mass implicit option.

wall_adhesion(*args, **kwargs)#: Enable the specification for a wall adhesion angle?.

mass_transfer(*args, **kwargs)#: Specify the mass transfer mechanisms.

model_transition(*args, **kwargs)#: Set the model transition mechanism.

reactions(*args, **kwargs)#: Define multiple heterogeneous reactions and stoichiometry.

restitution(*args, **kwargs)#: Specify the restitution coefficient for collisions between each pair of granular phases and for collisions between particles of the same granular phase.

slip_velocity(*args, **kwargs)#: Specify the slip velocity function for each secondary phase with respect to the primary phase.

class surface_tension(path, service)#

Bases: TUIMenu

Enter the menu to set surface tension models.

Methods:

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

cavitation(*args, **kwargs)#: Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.

interphase_discr(*args, **kwargs)#: 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(*args, **kwargs)#: Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.

jump_adhesion(*args, **kwargs)#: Enable the treatment of the contact angle specification at the porous jump boundary?.

lift(*args, **kwargs)#: .

lift_montoya(*args, **kwargs)#: Include the Montoya correction for Lift.

lift_shaver_podowski(*args, **kwargs)#: Include the Shaver-Podowski correction for Lift.

sfc_model_type(*args, **kwargs)#: Select the surface tension model.

sfc_modeling(*args, **kwargs)#: Include the effects of surface tension along the fluid-fluid interface?.

sfc_tension_coeff(*args, **kwargs)#: Specify the surface tension coefficient for each pair of phases.

slope_limiter(*args, **kwargs)#: 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.

virtual_mass(*args, **kwargs)#: Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.

visc_disp_factor(*args, **kwargs)#: Set the dissipation intensity.

vmass_coeff(*args, **kwargs)#: Specify the virtual mass coefficient for each pair of phases.

vmass_implicit(*args, **kwargs)#: Enable the implicit method for the virtual mass force?.

vmass_implicit_options(*args, **kwargs)#: Select the virtual mass implicit option.

wall_adhesion(*args, **kwargs)#: Enable the specification for a wall adhesion angle?.

turbulence_interaction(*args, **kwargs)#: Specify the turbulence interaction model for each primary-secondary phase pair.

turbulent_dispersion(*args, **kwargs)#: Specify the turbulent dispersion model for each primary-secondary phase pair.

class virtual_mass(path, service)#

Bases: TUIMenu

Enter the menu to set virtual mass models.

Methods:

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

cavitation(*args, **kwargs)#: Set the vaporization pressure, the surface tension coefficient, and the non-condensable gas mass fraction.

interphase_discr(*args, **kwargs)#: 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(*args, **kwargs)#: Enable the interfacial viscous dissipation method, which introduces an artificial viscous damping term in the momentum equation?.

jump_adhesion(*args, **kwargs)#: Enable the treatment of the contact angle specification at the porous jump boundary?.

lift(*args, **kwargs)#: .

lift_montoya(*args, **kwargs)#: Include the Montoya correction for Lift.

lift_shaver_podowski(*args, **kwargs)#: Include the Shaver-Podowski correction for Lift.

sfc_model_type(*args, **kwargs)#: Select the surface tension model.

sfc_modeling(*args, **kwargs)#: Include the effects of surface tension along the fluid-fluid interface?.

sfc_tension_coeff(*args, **kwargs)#: Specify the surface tension coefficient for each pair of phases.

slope_limiter(*args, **kwargs)#: 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.

virtual_mass(*args, **kwargs)#: Include the virtual mass force that is present when a secondary phase accelerates relative to the primary phase?.

visc_disp_factor(*args, **kwargs)#: Set the dissipation intensity.

vmass_coeff(*args, **kwargs)#: Specify the virtual mass coefficient for each pair of phases.

vmass_implicit(*args, **kwargs)#: Enable the implicit method for the virtual mass force?.

vmass_implicit_options(*args, **kwargs)#: Select the virtual mass implicit option.

wall_adhesion(*args, **kwargs)#: Enable the specification for a wall adhesion angle?.

wall_lubrication(*args, **kwargs)#: Specify the wall lubrication model for each primary-secondary phase pair.

phase_domains(*args, **kwargs)#: Enter the menu to select a specific phase domain.

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

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

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

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

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