Energy model ============ Setting up and querying the model --------------------------------- .. code:: python >>> import ansys.fluent.core as pyfluent >>> from ansys.fluent.core import examples >>> file_name = examples.download_file("mixing_elbow.cas.h5", "pyfluent/mixing_elbow") >>> solver = pyfluent.launch_fluent() >>> solver.settings.file.read_case(file_name=file_name) >>> energy = pyfluent.Energy(settings_source=solver) >>> energy.enabled.get_state() True >>> from pprint import pprint >>> pprint(energy.get_state(), width=1) {'enabled': True, 'inlet_diffusion': True, 'kinetic_energy': False, 'pressure_work': False, 'viscous_dissipation': False} >>> energy.enabled.set_state(False) >>> pprint(energy.get_state(), width=1) {'enabled': False} >>> energy.enabled.set_state(True) >>> pprint(energy.get_state(), width=1) {'enabled': True, 'viscous_dissipation': False, 'pressure_work': False, 'kinetic_energy': False, 'inlet_diffusion': True} >>> energy.viscous_dissipation.set_state(True) >>> pprint(energy.get_state(), width=1) {'enabled': True, 'inlet_diffusion': True, 'viscous_dissipation': True}