Viscous model ============= Setting up and querying the model --------------------------------- .. code:: python >>> import ansys.fluent.core as pyfluent >>> viscous = pyfluent.Viscous(settings_source=solver) >>> from pprint import pprint >>> pprint(viscous.get_state(), width=1) {'k_omega_model': 'sst', 'k_omega_options': {'kw_low_re_correction': False}, 'model': 'k-omega', 'near_wall_treatment': {'wall_omega_treatment': 'correlation'}, 'options': {'corner_flow_correction': False, 'curvature_correction': False, 'production_kato_launder_enabled': False, 'production_limiter': {'clip_factor': 10.0, 'enabled': True}, 'viscous_heating': False}, 'transition_module': 'none', 'turbulence_expert': {'restore_sst_v61': False, 'thermal_p_function': True, 'turb_non_newtonian': False}, 'user_defined': {'energy_prandtl': 'none', 'turb_visc_func': 'none', 'wall_prandtl': 'none'}} >>> pprint(viscous.model.allowed_values(), width=1) ['inviscid', 'laminar', 'k-epsilon', 'k-omega', 'mixing-length', 'spalart-allmaras', 'k-kl-w', 'transition-sst', 'reynolds-stress', 'scale-adaptive-simulation', 'detached-eddy-simulation', 'large-eddy-simulation'] >>> viscous.options.corner_flow_correction.is_active() True >>> viscous.model.set_state('k-epsilon') >>> viscous.options.corner_flow_correction.is_active() False >>> viscous.k_epsilon_model.get_state() 'standard' >>> viscous.k_omega_model.is_active() False >>> viscous.k_epsilon_model.allowed_values() ['standard', 'realizable', 'rng'] >>> viscous.options.production_kato_launder_enabled.is_active() True >>> viscous.options.production_kato_launder_enabled.get_state() False >>> viscous.k_epsilon_model.set_state("realizable") >>> viscous.options.production_kato_launder_enabled.is_active() False