Radiation model#

Setting up and querying the model#

>>> import ansys.fluent.core as pyfluent
>>> radiation = pyfluent.Radiation(settings_source=solver)
>>> from pprint import pprint
>>> pprint(radiation.get_state(), width=1)
{'model': 'none',
 'solar_load': {'solar_model': 'none',
                'sun_direction_vector_definition': None}}
>>> pprint(radiation.model.allowed_values(), width=1)
['none',
 'p1',
 's2s',
 'discrete-ordinates',
 'monte-carlo']
>>> radiation.model.set_state("monte-carlo")
>>> pprint(radiation.get_state(), width=1)
{'model': 'monte-carlo',
 'monte_carlo': {'number_of_histories': 100000,
                 'target_cells_per_volume_cluster': 1,
                 'under_relaxation': 0.5},
 'multiband': None,
 'solar_load': {'solar_model': 'none',
                'sun_direction_vector_definition': None},
 'solve_frequency': {'iteration_interval': 10}}
>>> radiation.monte_carlo.number_of_histories.set_state(1e7)
>>> radiation.multiband.create("solar").set_state({
>>>    "start": 0,
>>>    "end": 2.8,
>>> })
>>> radiation.multiband.create("thermal-ir").set_state({
>>>    "start": 2.8,
>>>    "end": 100,
>>> })
>>> radiation_freq = radiation.solve_frequency
>>> pprint(radiation_freq.get_state(), width=1)
{'iteration_interval': 10}
>>> pprint(radiation.get_state(), width=1)
{'model': 'monte-carlo',
 'monte_carlo': {'number_of_histories': 10000000.0,
                 'target_cells_per_volume_cluster': 1,
                 'under_relaxation': 0.5},
 'multiband': {'solar': {'end': 2.8,
                         'name': 'solar',
                         'start': 0},
               'thermal-ir': {'end': 100,
                              'name': 'thermal-ir',
                              'start': 2.8}},
 'solar_load': {'solar_model': 'none',
                'sun_direction_vector_definition': None},
 'solve_frequency': {'iteration_interval': 10}}