obj35.zone_air_inlet_node_or_nodelist_name = "ZONE ONE Supply Inlet" obj35.zone_air_exhaust_node_or_nodelist_name = None obj35.zone_air_node_name = "ZONE ONE Zone Air Node" obj35.zone_return_air_node_name = "ZONE ONE Return Outlet" idf.add(obj35) obj36 = ZoneHvacEquipmentList() obj36.name = "ZONE ONE Equipment" obj36.add_extensible( "ZoneHVAC:IdealLoadsAirSystem", "ZONE ONE Purchased Air", 1, 1) idf.add(obj36) obj37 = ZoneHvacIdealLoadsAirSystem() obj37.name = "ZONE ONE Purchased Air" obj37.availability_schedule_name = None obj37.zone_supply_air_node_name = "ZONE ONE Supply Inlet" obj37.zone_exhaust_air_node_name = None obj37.maximum_heating_supply_air_temperature = 50.0 obj37.minimum_cooling_supply_air_temperature = 13.0 obj37.maximum_heating_supply_air_humidity_ratio = 0.015 obj37.minimum_cooling_supply_air_humidity_ratio = 0.01 obj37.heating_limit = "NoLimit" obj37.maximum_heating_air_flow_rate = None obj37.maximum_sensible_heating_capacity = None obj37.cooling_limit = "NoLimit" obj37.maximum_cooling_air_flow_rate = None obj37.maximum_total_cooling_capacity = None obj37.heating_availability_schedule_name = None
def test_create_zonehvacidealloadsairsystem(self): pyidf.validation_level = ValidationLevel.error obj = ZoneHvacIdealLoadsAirSystem() # alpha var_name = "Name" obj.name = var_name # object-list var_availability_schedule_name = "object-list|Availability Schedule Name" obj.availability_schedule_name = var_availability_schedule_name # node var_zone_supply_air_node_name = "node|Zone Supply Air Node Name" obj.zone_supply_air_node_name = var_zone_supply_air_node_name # node var_zone_exhaust_air_node_name = "node|Zone Exhaust Air Node Name" obj.zone_exhaust_air_node_name = var_zone_exhaust_air_node_name # real var_maximum_heating_supply_air_temperature = 50.0 obj.maximum_heating_supply_air_temperature = var_maximum_heating_supply_air_temperature # real var_minimum_cooling_supply_air_temperature = -25.0 obj.minimum_cooling_supply_air_temperature = var_minimum_cooling_supply_air_temperature # real var_maximum_heating_supply_air_humidity_ratio = 0.0001 obj.maximum_heating_supply_air_humidity_ratio = var_maximum_heating_supply_air_humidity_ratio # real var_minimum_cooling_supply_air_humidity_ratio = 0.0001 obj.minimum_cooling_supply_air_humidity_ratio = var_minimum_cooling_supply_air_humidity_ratio # alpha var_heating_limit = "NoLimit" obj.heating_limit = var_heating_limit # real var_maximum_heating_air_flow_rate = 0.0 obj.maximum_heating_air_flow_rate = var_maximum_heating_air_flow_rate # real var_maximum_sensible_heating_capacity = 0.0 obj.maximum_sensible_heating_capacity = var_maximum_sensible_heating_capacity # alpha var_cooling_limit = "NoLimit" obj.cooling_limit = var_cooling_limit # real var_maximum_cooling_air_flow_rate = 0.0 obj.maximum_cooling_air_flow_rate = var_maximum_cooling_air_flow_rate # real var_maximum_total_cooling_capacity = 0.0 obj.maximum_total_cooling_capacity = var_maximum_total_cooling_capacity # object-list var_heating_availability_schedule_name = "object-list|Heating Availability Schedule Name" obj.heating_availability_schedule_name = var_heating_availability_schedule_name # object-list var_cooling_availability_schedule_name = "object-list|Cooling Availability Schedule Name" obj.cooling_availability_schedule_name = var_cooling_availability_schedule_name # alpha var_dehumidification_control_type = "ConstantSensibleHeatRatio" obj.dehumidification_control_type = var_dehumidification_control_type # real var_cooling_sensible_heat_ratio = 0.50005 obj.cooling_sensible_heat_ratio = var_cooling_sensible_heat_ratio # alpha var_humidification_control_type = "None" obj.humidification_control_type = var_humidification_control_type # object-list var_design_specification_outdoor_air_object_name = "object-list|Design Specification Outdoor Air Object Name" obj.design_specification_outdoor_air_object_name = var_design_specification_outdoor_air_object_name # node var_outdoor_air_inlet_node_name = "node|Outdoor Air Inlet Node Name" obj.outdoor_air_inlet_node_name = var_outdoor_air_inlet_node_name # alpha var_demand_controlled_ventilation_type = "None" obj.demand_controlled_ventilation_type = var_demand_controlled_ventilation_type # alpha var_outdoor_air_economizer_type = "NoEconomizer" obj.outdoor_air_economizer_type = var_outdoor_air_economizer_type # alpha var_heat_recovery_type = "None" obj.heat_recovery_type = var_heat_recovery_type # real var_sensible_heat_recovery_effectiveness = 0.5 obj.sensible_heat_recovery_effectiveness = var_sensible_heat_recovery_effectiveness # real var_latent_heat_recovery_effectiveness = 0.5 obj.latent_heat_recovery_effectiveness = var_latent_heat_recovery_effectiveness # object-list var_design_specification_zonehvac_sizing_object_name = "object-list|Design Specification ZoneHVAC Sizing Object Name" obj.design_specification_zonehvac_sizing_object_name = var_design_specification_zonehvac_sizing_object_name idf = IDF() idf.add(obj) idf.save(self.path, check=False) with open(self.path, mode='r') as f: for line in f: log.debug(line.strip()) idf2 = IDF(self.path) self.assertEqual(idf2.zonehvacidealloadsairsystems[0].name, var_name) self.assertEqual(idf2.zonehvacidealloadsairsystems[0].availability_schedule_name, var_availability_schedule_name) self.assertEqual(idf2.zonehvacidealloadsairsystems[0].zone_supply_air_node_name, var_zone_supply_air_node_name) self.assertEqual(idf2.zonehvacidealloadsairsystems[0].zone_exhaust_air_node_name, var_zone_exhaust_air_node_name) self.assertAlmostEqual(idf2.zonehvacidealloadsairsystems[0].maximum_heating_supply_air_temperature, var_maximum_heating_supply_air_temperature) self.assertAlmostEqual(idf2.zonehvacidealloadsairsystems[0].minimum_cooling_supply_air_temperature, var_minimum_cooling_supply_air_temperature) self.assertAlmostEqual(idf2.zonehvacidealloadsairsystems[0].maximum_heating_supply_air_humidity_ratio, var_maximum_heating_supply_air_humidity_ratio) self.assertAlmostEqual(idf2.zonehvacidealloadsairsystems[0].minimum_cooling_supply_air_humidity_ratio, var_minimum_cooling_supply_air_humidity_ratio) self.assertEqual(idf2.zonehvacidealloadsairsystems[0].heating_limit, var_heating_limit) self.assertAlmostEqual(idf2.zonehvacidealloadsairsystems[0].maximum_heating_air_flow_rate, var_maximum_heating_air_flow_rate) self.assertAlmostEqual(idf2.zonehvacidealloadsairsystems[0].maximum_sensible_heating_capacity, var_maximum_sensible_heating_capacity) self.assertEqual(idf2.zonehvacidealloadsairsystems[0].cooling_limit, var_cooling_limit) self.assertAlmostEqual(idf2.zonehvacidealloadsairsystems[0].maximum_cooling_air_flow_rate, var_maximum_cooling_air_flow_rate) self.assertAlmostEqual(idf2.zonehvacidealloadsairsystems[0].maximum_total_cooling_capacity, var_maximum_total_cooling_capacity) self.assertEqual(idf2.zonehvacidealloadsairsystems[0].heating_availability_schedule_name, var_heating_availability_schedule_name) self.assertEqual(idf2.zonehvacidealloadsairsystems[0].cooling_availability_schedule_name, var_cooling_availability_schedule_name) self.assertEqual(idf2.zonehvacidealloadsairsystems[0].dehumidification_control_type, var_dehumidification_control_type) self.assertAlmostEqual(idf2.zonehvacidealloadsairsystems[0].cooling_sensible_heat_ratio, var_cooling_sensible_heat_ratio) self.assertEqual(idf2.zonehvacidealloadsairsystems[0].humidification_control_type, var_humidification_control_type) self.assertEqual(idf2.zonehvacidealloadsairsystems[0].design_specification_outdoor_air_object_name, var_design_specification_outdoor_air_object_name) self.assertEqual(idf2.zonehvacidealloadsairsystems[0].outdoor_air_inlet_node_name, var_outdoor_air_inlet_node_name) self.assertEqual(idf2.zonehvacidealloadsairsystems[0].demand_controlled_ventilation_type, var_demand_controlled_ventilation_type) self.assertEqual(idf2.zonehvacidealloadsairsystems[0].outdoor_air_economizer_type, var_outdoor_air_economizer_type) self.assertEqual(idf2.zonehvacidealloadsairsystems[0].heat_recovery_type, var_heat_recovery_type) self.assertAlmostEqual(idf2.zonehvacidealloadsairsystems[0].sensible_heat_recovery_effectiveness, var_sensible_heat_recovery_effectiveness) self.assertAlmostEqual(idf2.zonehvacidealloadsairsystems[0].latent_heat_recovery_effectiveness, var_latent_heat_recovery_effectiveness) self.assertEqual(idf2.zonehvacidealloadsairsystems[0].design_specification_zonehvac_sizing_object_name, var_design_specification_zonehvac_sizing_object_name)
def test_create_zonehvacidealloadsairsystem(self): pyidf.validation_level = ValidationLevel.error obj = ZoneHvacIdealLoadsAirSystem() # alpha var_name = "Name" obj.name = var_name # object-list var_availability_schedule_name = "object-list|Availability Schedule Name" obj.availability_schedule_name = var_availability_schedule_name # node var_zone_supply_air_node_name = "node|Zone Supply Air Node Name" obj.zone_supply_air_node_name = var_zone_supply_air_node_name # node var_zone_exhaust_air_node_name = "node|Zone Exhaust Air Node Name" obj.zone_exhaust_air_node_name = var_zone_exhaust_air_node_name # real var_maximum_heating_supply_air_temperature = 50.0 obj.maximum_heating_supply_air_temperature = var_maximum_heating_supply_air_temperature # real var_minimum_cooling_supply_air_temperature = -25.0 obj.minimum_cooling_supply_air_temperature = var_minimum_cooling_supply_air_temperature # real var_maximum_heating_supply_air_humidity_ratio = 0.0001 obj.maximum_heating_supply_air_humidity_ratio = var_maximum_heating_supply_air_humidity_ratio # real var_minimum_cooling_supply_air_humidity_ratio = 0.0001 obj.minimum_cooling_supply_air_humidity_ratio = var_minimum_cooling_supply_air_humidity_ratio # alpha var_heating_limit = "NoLimit" obj.heating_limit = var_heating_limit # real var_maximum_heating_air_flow_rate = 0.0 obj.maximum_heating_air_flow_rate = var_maximum_heating_air_flow_rate # real var_maximum_sensible_heating_capacity = 0.0 obj.maximum_sensible_heating_capacity = var_maximum_sensible_heating_capacity # alpha var_cooling_limit = "NoLimit" obj.cooling_limit = var_cooling_limit # real var_maximum_cooling_air_flow_rate = 0.0 obj.maximum_cooling_air_flow_rate = var_maximum_cooling_air_flow_rate # real var_maximum_total_cooling_capacity = 0.0 obj.maximum_total_cooling_capacity = var_maximum_total_cooling_capacity # object-list var_heating_availability_schedule_name = "object-list|Heating Availability Schedule Name" obj.heating_availability_schedule_name = var_heating_availability_schedule_name # object-list var_cooling_availability_schedule_name = "object-list|Cooling Availability Schedule Name" obj.cooling_availability_schedule_name = var_cooling_availability_schedule_name # alpha var_dehumidification_control_type = "ConstantSensibleHeatRatio" obj.dehumidification_control_type = var_dehumidification_control_type # real var_cooling_sensible_heat_ratio = 0.50005 obj.cooling_sensible_heat_ratio = var_cooling_sensible_heat_ratio # alpha var_humidification_control_type = "None" obj.humidification_control_type = var_humidification_control_type # object-list var_design_specification_outdoor_air_object_name = "object-list|Design Specification Outdoor Air Object Name" obj.design_specification_outdoor_air_object_name = var_design_specification_outdoor_air_object_name # node var_outdoor_air_inlet_node_name = "node|Outdoor Air Inlet Node Name" obj.outdoor_air_inlet_node_name = var_outdoor_air_inlet_node_name # alpha var_demand_controlled_ventilation_type = "None" obj.demand_controlled_ventilation_type = var_demand_controlled_ventilation_type # alpha var_outdoor_air_economizer_type = "NoEconomizer" obj.outdoor_air_economizer_type = var_outdoor_air_economizer_type # alpha var_heat_recovery_type = "None" obj.heat_recovery_type = var_heat_recovery_type # real var_sensible_heat_recovery_effectiveness = 0.5 obj.sensible_heat_recovery_effectiveness = var_sensible_heat_recovery_effectiveness # real var_latent_heat_recovery_effectiveness = 0.5 obj.latent_heat_recovery_effectiveness = var_latent_heat_recovery_effectiveness # object-list var_design_specification_zonehvac_sizing_object_name = "object-list|Design Specification ZoneHVAC Sizing Object Name" obj.design_specification_zonehvac_sizing_object_name = var_design_specification_zonehvac_sizing_object_name idf = IDF() idf.add(obj) idf.save(self.path, check=False) with open(self.path, mode='r') as f: for line in f: log.debug(line.strip()) idf2 = IDF(self.path) self.assertEqual(idf2.zonehvacidealloadsairsystems[0].name, var_name) self.assertEqual( idf2.zonehvacidealloadsairsystems[0].availability_schedule_name, var_availability_schedule_name) self.assertEqual( idf2.zonehvacidealloadsairsystems[0].zone_supply_air_node_name, var_zone_supply_air_node_name) self.assertEqual( idf2.zonehvacidealloadsairsystems[0].zone_exhaust_air_node_name, var_zone_exhaust_air_node_name) self.assertAlmostEqual( idf2.zonehvacidealloadsairsystems[0]. maximum_heating_supply_air_temperature, var_maximum_heating_supply_air_temperature) self.assertAlmostEqual( idf2.zonehvacidealloadsairsystems[0]. minimum_cooling_supply_air_temperature, var_minimum_cooling_supply_air_temperature) self.assertAlmostEqual( idf2.zonehvacidealloadsairsystems[0]. maximum_heating_supply_air_humidity_ratio, var_maximum_heating_supply_air_humidity_ratio) self.assertAlmostEqual( idf2.zonehvacidealloadsairsystems[0]. minimum_cooling_supply_air_humidity_ratio, var_minimum_cooling_supply_air_humidity_ratio) self.assertEqual(idf2.zonehvacidealloadsairsystems[0].heating_limit, var_heating_limit) self.assertAlmostEqual( idf2.zonehvacidealloadsairsystems[0].maximum_heating_air_flow_rate, var_maximum_heating_air_flow_rate) self.assertAlmostEqual( idf2.zonehvacidealloadsairsystems[0]. maximum_sensible_heating_capacity, var_maximum_sensible_heating_capacity) self.assertEqual(idf2.zonehvacidealloadsairsystems[0].cooling_limit, var_cooling_limit) self.assertAlmostEqual( idf2.zonehvacidealloadsairsystems[0].maximum_cooling_air_flow_rate, var_maximum_cooling_air_flow_rate) self.assertAlmostEqual( idf2.zonehvacidealloadsairsystems[0]. maximum_total_cooling_capacity, var_maximum_total_cooling_capacity) self.assertEqual( idf2.zonehvacidealloadsairsystems[0]. heating_availability_schedule_name, var_heating_availability_schedule_name) self.assertEqual( idf2.zonehvacidealloadsairsystems[0]. cooling_availability_schedule_name, var_cooling_availability_schedule_name) self.assertEqual( idf2.zonehvacidealloadsairsystems[0].dehumidification_control_type, var_dehumidification_control_type) self.assertAlmostEqual( idf2.zonehvacidealloadsairsystems[0].cooling_sensible_heat_ratio, var_cooling_sensible_heat_ratio) self.assertEqual( idf2.zonehvacidealloadsairsystems[0].humidification_control_type, var_humidification_control_type) self.assertEqual( idf2.zonehvacidealloadsairsystems[0]. design_specification_outdoor_air_object_name, var_design_specification_outdoor_air_object_name) self.assertEqual( idf2.zonehvacidealloadsairsystems[0].outdoor_air_inlet_node_name, var_outdoor_air_inlet_node_name) self.assertEqual( idf2.zonehvacidealloadsairsystems[0]. demand_controlled_ventilation_type, var_demand_controlled_ventilation_type) self.assertEqual( idf2.zonehvacidealloadsairsystems[0].outdoor_air_economizer_type, var_outdoor_air_economizer_type) self.assertEqual( idf2.zonehvacidealloadsairsystems[0].heat_recovery_type, var_heat_recovery_type) self.assertAlmostEqual( idf2.zonehvacidealloadsairsystems[0]. sensible_heat_recovery_effectiveness, var_sensible_heat_recovery_effectiveness) self.assertAlmostEqual( idf2.zonehvacidealloadsairsystems[0]. latent_heat_recovery_effectiveness, var_latent_heat_recovery_effectiveness) self.assertEqual( idf2.zonehvacidealloadsairsystems[0]. design_specification_zonehvac_sizing_object_name, var_design_specification_zonehvac_sizing_object_name)
obj35 = ZoneHvacEquipmentConnections() obj35.zone_name = "ZONE ONE" obj35.zone_conditioning_equipment_list_name = "ZONE ONE Equipment" obj35.zone_air_inlet_node_or_nodelist_name = "ZONE ONE Supply Inlet" obj35.zone_air_exhaust_node_or_nodelist_name = None obj35.zone_air_node_name = "ZONE ONE Zone Air Node" obj35.zone_return_air_node_name = "ZONE ONE Return Outlet" idf.add(obj35) obj36 = ZoneHvacEquipmentList() obj36.name = "ZONE ONE Equipment" obj36.add_extensible("ZoneHVAC:IdealLoadsAirSystem", "ZONE ONE Purchased Air", 1, 1) idf.add(obj36) obj37 = ZoneHvacIdealLoadsAirSystem() obj37.name = "ZONE ONE Purchased Air" obj37.availability_schedule_name = None obj37.zone_supply_air_node_name = "ZONE ONE Supply Inlet" obj37.zone_exhaust_air_node_name = None obj37.maximum_heating_supply_air_temperature = 50.0 obj37.minimum_cooling_supply_air_temperature = 13.0 obj37.maximum_heating_supply_air_humidity_ratio = 0.015 obj37.minimum_cooling_supply_air_humidity_ratio = 0.01 obj37.heating_limit = "NoLimit" obj37.maximum_heating_air_flow_rate = None obj37.maximum_sensible_heating_capacity = None obj37.cooling_limit = "NoLimit" obj37.maximum_cooling_air_flow_rate = None obj37.maximum_total_cooling_capacity = None obj37.heating_availability_schedule_name = None