solver.tui.define.models.radiation

class main_menu.define.models.radiation(path, service)

Enters the radiation models menu.

apply_full_solar_irradiation(*args, **kwargs)

Enables/disables the application of the complete solar load to the first wavelength band only, reverting to the pre-2019 R1 behavior of the Solar Load and Discrete Ordinates models.

beta_radiation_features(*args, **kwargs)

Enable Radiation Models with Non-Iterative Time Advancement (NITA) as Beta features in FL12.0.

blending_factor(*args, **kwargs)

Sets numeric option for Discrete Ordinate model. Make sure thatSecond Order Upwind is selected for the Discrete Ordinates spatial discretization for the blending-factor option to appear in the text command list.

discrete_ordinates(*args, **kwargs)

Enables/disables discrete ordinates radiation model.

discrete_transfer(*args, **kwargs)

Enables/disables discrete transfer radiation model.

do_acceleration(*args, **kwargs)

Enables/disables the acceleration of the discrete ordinates (DO) radiation model calculations. Note that this text command is only available when running on Linux in parallel.

do_coupling(*args, **kwargs)

Enables/disables DO/energy coupling.

fast_second_order_discrete_ordinate(*args, **kwargs)

Enables/disables the fast-second-order option for Discrete Ordinate Model.

mc_model_parameters(*args, **kwargs)

Specifies Monte Carlo model parameters. This text command is available only when the Monte Carlo model is enabled.

mc_under_relaxation(*args, **kwargs)

Sets the under-relaxation factor for Monte Carlo radiation sources used in the energy equation.

method_partially_specular_wall(*args, **kwargs)

Sets the method for partially specular wall with discrete ordinate model.

montecarlo(*args, **kwargs)

Enables/disables the Monte Carlo radiation model.

non_gray_model_parameters(*args, **kwargs)

Sets parameters for non-gray model.

p1(*args, **kwargs)

Enables/disables P1 radiation model.

radiation_iteration_parameters(*args, **kwargs)

Sets iteration parameters for radiation models.

radiation_model_parameters(*args, **kwargs)

Set parameters for radiation models.

rosseland(*args, **kwargs)

Enables/disables Rosseland radiation model.

s2s(*args, **kwargs)

Enables/disables S2S radiation model.

solar(*args, **kwargs)

Enables/disables solar model.

solar_calculator(*args, **kwargs)

Calculates sun direction and intensity.

solar_irradiation(*args, **kwargs)

Enables/disables the solar irradiation model.

solution_method_for_do_coupling(*args, **kwargs)

Enables/disables the solution method for DO/energy coupling.

target_cells_per_volume_cluster(*args, **kwargs)

Sets the amount of coarsening of the radiation mesh for the Monte Carlo radiation model. A number greater than one implies coarsening, whereas equal to one implies no coarsening.

wsggm_cell_based(*args, **kwargs)

Enables/disables WSGGM cell based method. Note that when enabled, the wsggm-cell-based option will become available in theAbsorption Coefficient drop-down list in the Create/Edit Materials dialog box.