multiphase

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

Bases: TUIMenu

Enters the multiphase model menu.

Methods:

body_force_formulation(*args, **kwargs)	Specifies body force formulation.
coupled_level_set(*args, **kwargs)	Enables coupled level set interface tracking method.
interface_modeling_options(*args, **kwargs)	Specifies interface modeling options.
mixture_parameters(*args, **kwargs)	Specifies mixture parameters.
model(*args, **kwargs)	Specifies multiphase model.
number_of_phases(*args, **kwargs)	Specifies the number of phases.
regime_transition_modeling(*args, **kwargs)	Enables the Algebraic Interfacial Area Density (AIAD) model and sets the AIAD secondary continuous phase and the secondary entrained phase.
vof_sub_models(*args, **kwargs)	Enables the Open Channel sub-model and/or the Open Channel Wave Boundary Condition sub-model.
volume_fraction_parameters(*args, **kwargs)	Volume fraction parameters.

Classes:

explicit_expert_options(path, service)	Enters the menu to set explicit VOF expert options.
flow_regime_modeling(path, service)	Flow Regime Modeling.
hybrid_models(path, service)	Enter the menu to select hybrid models.
phases(path, service)	Enter the phases menu.
population_balance(path, service)	Enters the population balance models menu.
sub_models(path, service)	Enter the menu to select sub-models.
wet_steam(path, service)	Enters the wet steam model menu.

body_force_formulation(*args, **kwargs)

Specifies body force formulation.

coupled_level_set(*args, **kwargs)

Enables coupled level set interface tracking method.

class explicit_expert_options(path, service)

Bases: TUIMenu

Enters the menu to set explicit VOF expert options.

Methods:

solve_vof_every_iter(*args, **kwargs)	If you enter yes, the volume fraction equations will be solved every iteration.
sub_time_step_method(*args, **kwargs)	Selects the sub-time step method.

Classes:

volume_fraction_filtering(path, service)

Enters the volume fraction filtering menu.

solve_vof_every_iter(*args, **kwargs)

If you enter yes, the volume fraction equations will be solved every iteration. By default, the volume fraction equations will be solved only once per time step.

sub_time_step_method(*args, **kwargs)

Selects the sub-time step method.

class volume_fraction_filtering(path, service)

Bases: TUIMenu

Enters the volume fraction filtering menu.

Methods:

enable(*args, **kwargs)	Enables/disables the volume fraction filtering treatment.
filtering_options(*args, **kwargs)	Selects the volume fraction filtering method.
vol_frac_cutoff(*args, **kwargs)	Specifies a cut-off value for the volume fraction filtering.

enable(*args, **kwargs)

Enables/disables the volume fraction filtering treatment.

filtering_options(*args, **kwargs)

Selects the volume fraction filtering method. This command becomes available once the define/models/multiphase/explicit-expert-options/volume-fraction-filtering/enable? text option has been set to yes.

vol_frac_cutoff(*args, **kwargs)

Specifies a cut-off value for the volume fraction filtering. This command becomes available after you select the node averaged cutoff method using the define/models/multiphase/explicit-expert-options/volume-fraction-filtering/filtering-options text command.

class flow_regime_modeling(path, service)

Bases: TUIMenu

Flow Regime Modeling.

Classes:

aiad_parameters(path, service)

AIAD parameters.

Methods:

enable(*args, **kwargs)

Enable flow regime modeling framework including phase state and morphology.

class aiad_parameters(path, service)

Bases: TUIMenu

AIAD parameters.

Methods:

critical_vf(*args, **kwargs)	Critical volume fraction for bubbly and droplet flow blending factors.
delta_grad(*args, **kwargs)	Parameter for determining transition width for free surface blending factor.
delta_vf(*args, **kwargs)	Parameter for transition width for bubbly and droplet flow blending factors.
ncells_fs(*args, **kwargs)	Parameter for determining interfacial width.

critical_vf(*args, **kwargs)

Critical volume fraction for bubbly and droplet flow blending factors.

delta_grad(*args, **kwargs)

Parameter for determining transition width for free surface blending factor.

delta_vf(*args, **kwargs)

Parameter for transition width for bubbly and droplet flow blending factors.

ncells_fs(*args, **kwargs)

Parameter for determining interfacial width.

enable(*args, **kwargs)

Enable flow regime modeling framework including phase state and morphology.

class hybrid_models(path, service)

Bases: TUIMenu

Enter the menu to select hybrid models.

Methods:

ddpm(*args, **kwargs)	Enable the dense discrete phase model.
multi_fluid_vof(*args, **kwargs)	Enable the multi-fluid VOF model.

ddpm(*args, **kwargs)

Enable the dense discrete phase model.

multi_fluid_vof(*args, **kwargs)

Enable the multi-fluid VOF model.

interface_modeling_options(*args, **kwargs)

Specifies interface modeling options.

mixture_parameters(*args, **kwargs)

Specifies mixture parameters.

model(*args, **kwargs)

Specifies multiphase model.

number_of_phases(*args, **kwargs)

Specifies the number of phases.

class 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.

class population_balance(path, service)

Bases: TUIMenu

Enters the population balance models menu.

Classes:

expert(path, service)	Enter the expert menu for quadrature-based population balance method.
phenomena(path, service)	Enters the phenomena menu for population balance.

Methods:

include_expansion(*args, **kwargs)	Set expansion.
model(*args, **kwargs)	Allows you to select the population balance model and set its parameters.
size_calculator(*args, **kwargs)	Gives you recommendations for appropriate bubble sizes and/or droplet size limits.

class expert(path, service)

Bases: TUIMenu

Enter the expert menu for quadrature-based population balance method.

Classes:

qmom(path, service)

.

class qmom(path, service)

Bases: TUIMenu

.

Methods:

inversion_algorithm(*args, **kwargs)	Select the inversion algorithm for quadrature-based population balance method.
print_realizable_moment_warning(*args, **kwargs)	Print the information for realizable moments in the population balance model.
realizable_moments(*args, **kwargs)	Set the population balance model.
retain_qmom_sources_for_low_vof(*args, **kwargs)	Retain qmom source calculation for low secondary phase vof.

inversion_algorithm(*args, **kwargs)

Select the inversion algorithm for quadrature-based population balance method.

print_realizable_moment_warning(*args, **kwargs)

Print the information for realizable moments in the population balance model.

realizable_moments(*args, **kwargs)

Set the population balance model.

retain_qmom_sources_for_low_vof(*args, **kwargs)

Retain qmom source calculation for low secondary phase vof.

include_expansion(*args, **kwargs)

Set expansion.

model(*args, **kwargs)

Allows you to select the population balance model and set its parameters.

class phenomena(path, service)

Bases: TUIMenu

Enters the phenomena menu for population balance.

Methods:

aggregation(*args, **kwargs)	Sets the aggregation kernel.
aggregation_factor(*args, **kwargs)	Specifies a factor that controls the intensity of the selected aggregation kernel.
breakage(*args, **kwargs)	Set the breakage kernel.
breakage_aggregation_vof_cutoff(*args, **kwargs)	Specifies a cutoff limit for the volume fraction values for the breakage and aggregation kernels.
breakage_factor(*args, **kwargs)	Specifies a factor that controls the intensity of the selected breakage kernel.
growth(*args, **kwargs)	Specifies the growth rate.
nucleation(*args, **kwargs)	Specifies the nucleation rate.

aggregation(*args, **kwargs)

Sets the aggregation kernel.

aggregation_factor(*args, **kwargs)

Specifies a factor that controls the intensity of the selected aggregation kernel.

breakage(*args, **kwargs)

Set the breakage kernel.

breakage_aggregation_vof_cutoff(*args, **kwargs)

Specifies a cutoff limit for the volume fraction values for the breakage and aggregation kernels.

breakage_factor(*args, **kwargs)

Specifies a factor that controls the intensity of the selected breakage kernel.

growth(*args, **kwargs)

Specifies the growth rate.

nucleation(*args, **kwargs)

Specifies the nucleation rate.

size_calculator(*args, **kwargs)

Gives you recommendations for appropriate bubble sizes and/or droplet size limits.

regime_transition_modeling(*args, **kwargs)

Enables the Algebraic Interfacial Area Density (AIAD) model and sets the AIAD secondary continuous phase and the secondary entrained phase. Entering 0 as a phase ID cancels any previous phase selection. Note that you must define the phases in your simulation using the define/phases/ text command prior to using the regime-transition-modeling text command. This option is available only with the Eulerian multiphase model.

class sub_models(path, service)

Bases: TUIMenu

Enter the menu to select sub-models.

Methods:

boiling(*args, **kwargs)

Activate boiling model.

Classes:

boiling_options(path, service)

Set boiling options.

boiling(*args, **kwargs)

Activate boiling model.

class boiling_options(path, service)

Bases: TUIMenu

Set boiling options.

Methods:

nlbf_model(*args, **kwargs)	Set the non-local boundary field correction.
options(*args, **kwargs)	Choose the type of boiling model.

nlbf_model(*args, **kwargs)

Set the non-local boundary field correction.

options(*args, **kwargs)

Choose the type of boiling model.

vof_sub_models(*args, **kwargs)

Enables the Open Channel sub-model and/or the Open Channel Wave Boundary Condition sub-model.

volume_fraction_parameters(*args, **kwargs)

Volume fraction parameters.

class wet_steam(path, service)

Bases: TUIMenu

Enters the wet steam model menu.

Methods:

compile_user_defined_wetsteam_functions(...)	Compiles user-defined wet steam library.
enable(*args, **kwargs)	Enables/disables the wet steam model.
load_unload_user_defined_wetsteam_library(...)	Loads or unloads user-defined wet steam library.

Classes:

set(path, service)

Enters the set menu for setting wet steam model options.

compile_user_defined_wetsteam_functions(*args, **kwargs)

Compiles user-defined wet steam library.

enable(*args, **kwargs)

Enables/disables the wet steam model.

load_unload_user_defined_wetsteam_library(*args, **kwargs)

Loads or unloads user-defined wet steam library.

class set(path, service)

Bases: TUIMenu

Enters the set menu for setting wet steam model options.

Methods:

droplet_growth_rate(*args, **kwargs)	S formulation (default) or Hill.
max_liquid_mass_fraction(*args, **kwargs)	Sets the maximum limit on the condensed liquid-phase mass-fraction to prevent divergence.
rgp_tables(*args, **kwargs)	Sets the RGP (real gas property) table to be used with the Wet Steam model.
stagnation_conditions(*args, **kwargs)	Computes stagnation conditions using either gas phase only, or mixture.
virial_equation(*args, **kwargs)	Sets the equation of state for steam to either Vukalovich formulation (default) or Young formulation.
zonal_phase_change(*args, **kwargs)	Select cell zones where phase change process is active.

droplet_growth_rate(*args, **kwargs)

S formulation (default) or Hill.

max_liquid_mass_fraction(*args, **kwargs)

Sets the maximum limit on the condensed liquid-phase mass-fraction to prevent divergence.

rgp_tables(*args, **kwargs)

Sets the RGP (real gas property) table to be used with the Wet Steam model.

stagnation_conditions(*args, **kwargs)

Computes stagnation conditions using either gas phase only, or mixture. For details, see .

virial_equation(*args, **kwargs)

Sets the equation of state for steam to either Vukalovich formulation (default) or Young formulation.

zonal_phase_change(*args, **kwargs)

Select cell zones where phase change process is active.