Class: DOERef1980to2004

Inherits:

ASHRAE901

• Object
• Standard
• ASHRAE901
• DOERef1980to2004

Defined in:

lib/openstudio-standards/standards/ashrae_90_1/doe_ref_1980_2004/doe_ref_1980_2004.rb,
lib/openstudio-standards/standards/ashrae_90_1/doe_ref_1980_2004/doe_ref_1980_2004.Model.rb,
lib/openstudio-standards/standards/ashrae_90_1/doe_ref_1980_2004/doe_ref_1980_2004.PlantLoop.rb,
lib/openstudio-standards/standards/ashrae_90_1/doe_ref_1980_2004/doe_ref_1980_2004.AirLoopHVAC.rb,
lib/openstudio-standards/prototypes/ashrae_90_1/doe_ref_1980_2004/doe_ref_1980_2004.refrigeration.rb,
lib/openstudio-standards/prototypes/ashrae_90_1/doe_ref_1980_2004/doe_ref_1980_2004.Model.elevators.rb,
lib/openstudio-standards/prototypes/ashrae_90_1/doe_ref_1980_2004/doe_ref_1980_2004.AirTerminalSingleDuctVAVReheat.rb

Overview

This class holds methods that apply the “standard” assumptions used in the DOE 1980-2004 Reference Buildings to a given model.

Direct Known Subclasses

ComStockDOERef1980to2004, DOERef1980to2004FullServiceRestaurant, DOERef1980to2004HighriseApartment, DOERef1980to2004Hospital, DOERef1980to2004Laboratory, DOERef1980to2004LargeDataCenterHighITE, DOERef1980to2004LargeDataCenterLowITE, DOERef1980to2004LargeHotel, DOERef1980to2004LargeOffice, DOERef1980to2004LargeOfficeDetailed, DOERef1980to2004MediumOffice, DOERef1980to2004MediumOfficeDetailed, DOERef1980to2004MidriseApartment, DOERef1980to2004Outpatient, DOERef1980to2004PrimarySchool, DOERef1980to2004QuickServiceRestaurant, DOERef1980to2004RetailStandalone, DOERef1980to2004RetailStripmall, DOERef1980to2004SecondarySchool, DOERef1980to2004SmallDataCenterHighITE, DOERef1980to2004SmallDataCenterLowITE, DOERef1980to2004SmallHotel, DOERef1980to2004SmallOffice, DOERef1980to2004SmallOfficeDetailed, DOERef1980to2004SuperMarket, DOERef1980to2004Warehouse, DOERef1980to2004_Prototype

Constant Summary

Constants inherited from Standard

Standard::STANDARDS_LIST

Instance Attribute Summary

• #template ⇒ Object readonly

  Returns the value of attribute template.

Attributes inherited from Standard

#space_multiplier_map, #standards_data

Model

• #model_apply_infiltration_standard(model) ⇒ Bool

  Apply the air leakage requirements to the model.

• #model_get_climate_zone_set_from_list(model, possible_climate_zone_sets) ⇒ Object

  Determine which climate zone to use.

PlantLoop

• #plant_loop_supply_water_temperature_reset_required?(plant_loop) ⇒ Boolean

  Determine if temperature reset is required.

AirLoopHVAC

• #air_loop_hvac_apply_multizone_vav_outdoor_air_sizing(air_loop_hvac) ⇒ Bool

  Apply multizone vav outdoor air method and adjust multizone VAV damper positions.

• #air_loop_hvac_optimum_start_required?(air_loop_hvac) ⇒ Boolean

  Determines if optimum start control is required.

• #air_loop_hvac_static_pressure_reset_required?(air_loop_hvac, has_ddc) ⇒ Boolean

  Determine if static pressure reset is required for this system.

• #air_loop_hvac_vav_damper_action(air_loop_hvac) ⇒ String

  Determine whether the VAV damper control is single maximum or dual maximum control.

refrigeration

• #model_walkin_freezer_latent_case_credit_curve(model) ⇒ Object

  Determine the latent case credit curve to use for walkins.

elevators

• #model_add_elevator(model, space, number_of_elevators, elevator_type, elevator_schedule, elevator_fan_schedule, elevator_lights_schedule, building_type = nil) ⇒ OpenStudio::Model::ElectricEquipment

  Add an elevator the the specified space.

• #model_elevator_lift_power(model, elevator_type, building_type) ⇒ Object

  Determines the power required by an individual elevator of a given type.

AirTerminalSingleDuctVAVReheat

• #air_terminal_single_duct_vav_reheat_apply_initial_prototype_damper_position(air_terminal_single_duct_vav_reheat, zone_oa_per_area) ⇒ Bool

  Set the initial minimum damper position based on OA rate of the space and the template.

Instance Method Summary

• #initialize ⇒ DOERef1980to2004 constructor

  A new instance of DOERef1980to2004.

• #load_standards_database(data_directories = []) ⇒ Object

Methods inherited from ASHRAE901

#fan_variable_volume_part_load_fan_power_limitation_capacity_limit, #fan_variable_volume_part_load_fan_power_limitation_hp_limit

Methods inherited from Standard

#adjust_infiltration_to_lower_pressure, #adjust_infiltration_to_prototype_building_conditions, #adjust_sizing_system, #afue_to_thermal_eff, #air_loop_hvac_add_motorized_oa_damper, #air_loop_hvac_adjust_minimum_vav_damper_positions, #air_loop_hvac_adjust_minimum_vav_damper_positions_outpatient, #air_loop_hvac_allowable_system_brake_horsepower, #air_loop_hvac_apply_baseline_fan_pressure_rise, #air_loop_hvac_apply_economizer_integration, #air_loop_hvac_apply_economizer_limits, #air_loop_hvac_apply_energy_recovery_ventilator, #air_loop_hvac_apply_energy_recovery_ventilator_efficiency, #air_loop_hvac_apply_maximum_reheat_temperature, #air_loop_hvac_apply_minimum_vav_damper_positions, #air_loop_hvac_apply_prm_baseline_controls, #air_loop_hvac_apply_prm_baseline_economizer, #air_loop_hvac_apply_prm_baseline_fan_power, #air_loop_hvac_apply_prm_sizing_temperatures, #air_loop_hvac_apply_single_zone_controls, #air_loop_hvac_apply_standard_controls, #air_loop_hvac_apply_vav_damper_action, #air_loop_hvac_data_center_area_served, #air_loop_hvac_dcv_required_when_erv, #air_loop_hvac_demand_control_ventilation_limits, #air_loop_hvac_demand_control_ventilation_required?, #air_loop_hvac_disable_multizone_vav_optimization, #air_loop_hvac_dx_cooling?, #air_loop_hvac_economizer?, #air_loop_hvac_economizer_limits, #air_loop_hvac_economizer_required?, #air_loop_hvac_economizer_type_allowable?, #air_loop_hvac_enable_demand_control_ventilation, #air_loop_hvac_enable_multizone_vav_optimization, #air_loop_hvac_enable_optimum_start, #air_loop_hvac_enable_supply_air_temperature_reset_delta, #air_loop_hvac_enable_supply_air_temperature_reset_outdoor_temperature, #air_loop_hvac_enable_supply_air_temperature_reset_warmest_zone, #air_loop_hvac_enable_unoccupied_fan_shutoff, #air_loop_hvac_energy_recovery?, #air_loop_hvac_energy_recovery_ventilator_flow_limit, #air_loop_hvac_energy_recovery_ventilator_heat_exchanger_type, #air_loop_hvac_energy_recovery_ventilator_required?, #air_loop_hvac_energy_recovery_ventilator_type, #air_loop_hvac_fan_power_limitation_pressure_drop_adjustment_brake_horsepower, #air_loop_hvac_find_design_supply_air_flow_rate, #air_loop_hvac_floor_area_served, #air_loop_hvac_floor_area_served_exterior_zones, #air_loop_hvac_floor_area_served_interior_zones, #air_loop_hvac_get_occupancy_schedule, #air_loop_hvac_humidifier_count, #air_loop_hvac_include_hydronic_cooling_coil?, #air_loop_hvac_include_wshp?, #air_loop_hvac_integrated_economizer_required?, #air_loop_hvac_motorized_oa_damper_limits, #air_loop_hvac_motorized_oa_damper_required?, #air_loop_hvac_multi_stage_dx_cooling?, #air_loop_hvac_multizone_vav_optimization_required?, #air_loop_hvac_multizone_vav_system?, #air_loop_hvac_prm_baseline_economizer_required?, #air_loop_hvac_prm_economizer_type_and_limits, #air_loop_hvac_remove_motorized_oa_damper, #air_loop_hvac_residential_area_served, #air_loop_hvac_set_minimum_damper_position, #air_loop_hvac_single_zone_controls_num_stages, #air_loop_hvac_supply_air_temperature_reset_required?, #air_loop_hvac_supply_return_exhaust_relief_fans, #air_loop_hvac_system_fan_brake_horsepower, #air_loop_hvac_system_multiplier, #air_loop_hvac_terminal_reheat?, #air_loop_hvac_total_cooling_capacity, #air_loop_hvac_unitary_system?, #air_loop_hvac_unoccupied_fan_shutoff_required?, #air_loop_hvac_unoccupied_threshold, #air_loop_hvac_vav_system?, #air_terminal_single_duct_parallel_piu_reheat_apply_prm_baseline_fan_power, #air_terminal_single_duct_vav_reheat_apply_minimum_damper_position, #air_terminal_single_duct_vav_reheat_minimum_damper_position, #air_terminal_single_duct_vav_reheat_reheat_type, #air_terminal_single_duct_vav_reheat_set_heating_cap, #apply_changes_to_surface_construction, #apply_lighting_schedule, #apply_limit_to_subsurface_ratio, #apply_max_fdwr, #apply_max_srr, #boiler_hot_water_apply_efficiency_and_curves, #boiler_hot_water_find_capacity, #boiler_hot_water_find_search_criteria, #boiler_hot_water_standard_minimum_thermal_efficiency, build, #building_story_floor_multiplier, #building_story_minimum_z_value, #change_construction_properties_in_model, #chiller_electric_eir_apply_efficiency_and_curves, #chiller_electric_eir_find_capacity, #chiller_electric_eir_find_search_criteria, #chiller_electric_eir_standard_minimum_full_load_efficiency, #coil_cooling_dx_multi_speed_apply_efficiency_and_curves, #coil_cooling_dx_single_speed_apply_efficiency_and_curves, #coil_cooling_dx_single_speed_find_capacity, #coil_cooling_dx_single_speed_standard_minimum_cop, #coil_cooling_dx_two_speed_apply_efficiency_and_curves, #coil_cooling_dx_two_speed_find_capacity, #coil_cooling_dx_two_speed_standard_minimum_cop, #coil_cooling_water_to_air_heat_pump_apply_efficiency_and_curves, #coil_cooling_water_to_air_heat_pump_find_capacity, #coil_cooling_water_to_air_heat_pump_standard_minimum_cop, #coil_heating_dx_multi_speed_apply_efficiency_and_curves, #coil_heating_dx_single_speed_apply_defrost_eir_curve_limits, #coil_heating_dx_single_speed_apply_efficiency_and_curves, #coil_heating_dx_single_speed_find_capacity, #coil_heating_dx_single_speed_standard_minimum_cop, #coil_heating_gas_apply_efficiency_and_curves, #coil_heating_gas_apply_prototype_efficiency, #coil_heating_gas_multi_stage_apply_efficiency_and_curves, #coil_heating_water_to_air_heat_pump_apply_efficiency_and_curves, #coil_heating_water_to_air_heat_pump_find_capacity, #coil_heating_water_to_air_heat_pump_standard_minimum_cop, #combustion_eff_to_thermal_eff, #construction_calculated_solar_heat_gain_coefficient, #construction_calculated_u_factor, #construction_calculated_visible_transmittance, #construction_deep_copy, #construction_set_glazing_shgc, #construction_set_glazing_tvis, #construction_set_glazing_u_value, #construction_set_slab_f_factor, #construction_set_u_value, #construction_set_underground_wall_c_factor, #construction_simple_glazing?, #controller_water_coil_set_convergence_limits, #convert_curve_biquadratic, #cooling_tower_single_speed_apply_efficiency_and_curves, #cooling_tower_two_speed_apply_efficiency_and_curves, #cooling_tower_variable_speed_apply_efficiency_and_curves, #cop_heating_to_cop_heating_no_fan, #cop_to_eer, #cop_to_kw_per_ton, #cop_to_seer, #create_air_conditioner_variable_refrigerant_flow, #create_boiler_hot_water, #create_central_air_source_heat_pump, #create_coil_cooling_dx_single_speed, #create_coil_cooling_dx_two_speed, #create_coil_cooling_water, #create_coil_cooling_water_to_air_heat_pump_equation_fit, #create_coil_heating_dx_single_speed, #create_coil_heating_electric, #create_coil_heating_gas, #create_coil_heating_water, #create_coil_heating_water_to_air_heat_pump_equation_fit, #create_curve_bicubic, #create_curve_biquadratic, #create_curve_cubic, #create_curve_exponent, #create_curve_quadratic, #create_fan_constant_volume, #create_fan_constant_volume_from_json, #create_fan_on_off, #create_fan_on_off_from_json, #create_fan_variable_volume, #create_fan_variable_volume_from_json, #create_fan_zone_exhaust, #create_fan_zone_exhaust_from_json, #day_schedule_equivalent_full_load_hrs, #define_space_multiplier, #eer_to_cop, #fan_constant_volume_airloop_fan_pressure_rise, #fan_constant_volume_apply_prototype_fan_pressure_rise, #fan_on_off_airloop_or_unitary_fan_pressure_rise, #fan_on_off_apply_prototype_fan_pressure_rise, #fan_variable_volume_airloop_fan_pressure_rise, #fan_variable_volume_apply_prototype_fan_pressure_rise, #fan_variable_volume_cooling_system_type, #fan_variable_volume_part_load_fan_power_limitation?, #fan_variable_volume_part_load_fan_power_limitation_capacity_limit, #fan_variable_volume_part_load_fan_power_limitation_hp_limit, #fan_variable_volume_set_control_type, #fan_zone_exhaust_apply_prototype_fan_pressure_rise, #film_coefficients_r_value, #find_and_set_insulation_layer, #find_exposed_conditioned_roof_surfaces, #find_exposed_conditioned_vertical_surfaces, #find_highest_roof_centre, #fluid_cooler_apply_minimum_power_per_flow, #get_outdoor_subsurface_ratio, #headered_pumps_variable_speed_set_control_type, #heat_exchanger_air_to_air_sensible_and_latent_apply_efficiency, #heat_exchanger_air_to_air_sensible_and_latent_apply_prototype_efficiency, #heat_exchanger_air_to_air_sensible_and_latent_apply_prototype_nominal_electric_power, #heat_exchanger_air_to_air_sensible_and_latent_minimum_efficiency, #heat_exchanger_air_to_air_sensible_and_latent_prototype_default_fan_efficiency, #heating_design_outdoor_temperatures, #hspf_to_cop_heating_no_fan, #hspf_to_cop_heating_with_fan, #intialize, #kw_per_ton_to_cop, #load_hvac_map, #load_initial_osm, #model_add_baseboard, #model_add_booster_swh_end_uses, #model_add_cav, #model_add_central_air_source_heat_pump, #model_add_chw_loop, #model_add_constant_schedule_ruleset, #model_add_construction, #model_add_construction_set, #model_add_crac, #model_add_crah, #model_add_curve, #model_add_cw_loop, #model_add_data_center_hvac, #model_add_data_center_load, #model_add_daylighting_controls, #model_add_design_days_and_weather_file, #model_add_district_ambient_loop, #model_add_doas, #model_add_doas_cold_supply, #model_add_elevators, #model_add_evap_cooler, #model_add_exhaust_fan, #model_add_four_pipe_fan_coil, #model_add_furnace_central_ac, #model_add_ground_hx_loop, #model_add_ground_temperatures, #model_add_heatpump_water_heater, #model_add_high_temp_radiant, #model_add_hp_loop, #model_add_hvac, #model_add_hvac_system, #model_add_hw_loop, #model_add_ideal_air_loads, #model_add_low_temp_radiant, #model_add_material, #model_add_minisplit_hp, #model_add_piping_losses_to_swh_system, #model_add_prm_baseline_system, #model_add_psz_ac, #model_add_psz_vav, #model_add_ptac, #model_add_pthp, #model_add_pvav, #model_add_pvav_pfp_boxes, #model_add_radiant_proportional_controls, #model_add_refrigeration_case, #model_add_refrigeration_compressor, #model_add_refrigeration_system, #model_add_refrigeration_walkin, #model_add_schedule, #model_add_schedule_type_limits, #model_add_split_ac, #model_add_swh, #model_add_swh_booster, #model_add_swh_end_uses, #model_add_swh_end_uses_by_space, #model_add_swh_end_uses_by_spaceonly, #model_add_swh_loop, #model_add_typical_exterior_lights, #model_add_typical_refrigeration, #model_add_typical_swh, #model_add_unitheater, #model_add_vav_pfp_boxes, #model_add_vav_reheat, #model_add_vrf, #model_add_water_heater, #model_add_water_source_hp, #model_add_waterside_economizer, #model_add_window_ac, #model_add_zone_erv, #model_add_zone_ventilation, #model_apply_hvac_efficiency_standard, #model_apply_multizone_vav_outdoor_air_sizing, #model_apply_parametric_schedules, #model_apply_prm_baseline_skylight_to_roof_ratio, #model_apply_prm_baseline_window_to_wall_ratio, #model_apply_prm_construction_types, #model_apply_prm_sizing_parameters, #model_apply_standard_constructions, #model_assign_spaces_to_stories, #model_attach_water_fixtures_to_spaces?, #model_baseline_system_vav_fan_type, #model_create_exterior_lighting_area_length_count_hash, #model_create_prm_baseline_building, #model_create_prm_baseline_building_requires_vlt_sizing_run, #model_create_space_type_hash, #model_create_story_hash, #model_cw_loop_cooling_tower_fan_type, #model_differentiate_primary_secondary_thermal_zones, #model_effective_num_stories, #model_elevator_fan_pwr, #model_elevator_lighting_pct_incandescent, #model_eliminate_outlier_zones, #model_find_and_add_construction, #model_find_ashrae_hot_water_demand, #model_find_climate_zone_set, #model_find_constructions, #model_find_icc_iecc_2015_hot_water_demand, #model_find_icc_iecc_2015_internal_loads, #model_find_object, #model_find_objects, #model_find_prototype_floor_area, #model_find_target_eui, #model_find_target_eui_by_end_use, #model_find_water_heater_capacity_volume_and_parasitic, #model_get_baseline_system_type_by_zone, #model_get_building_climate_zone_and_building_type, #model_get_construction_properties, #model_get_full_weather_file_path, #model_get_lookup_name, #model_get_or_add_ambient_water_loop, #model_get_or_add_chilled_water_loop, #model_get_or_add_ground_hx_loop, #model_get_or_add_heat_pump_loop, #model_get_or_add_hot_water_loop, #model_get_story_for_nominal_z_coordinate, #model_group_zones_by_story, #model_infer_hours_of_operation_building, #model_legacy_results_by_end_use_and_fuel_type, #model_make_name, #model_num_stories_spanned, #model_prm_baseline_system_change_fuel_type, #model_prm_baseline_system_group_minimum_area, #model_prm_baseline_system_groups, #model_prm_baseline_system_number, #model_prm_baseline_system_type, #model_prm_skylight_to_roof_ratio_limit, #model_process_results_for_datapoint, #model_remap_office, #model_remove_external_shading_devices, #model_remove_prm_ems_objects, #model_remove_prm_hvac, #model_remove_unused_resource_objects, #model_residential_and_nonresidential_floor_areas, #model_set_climate_zone, #model_setup_parametric_schedules, #model_standards_climate_zone, #model_system_outdoor_air_sizing_vrp_method, #model_typical_display_case_zone, #model_typical_hvac_system_type, #model_typical_walkin_zone, #model_validate_standards_spacetypes_in_model, #model_ventilation_method, #model_zones_with_occ_and_fuel_type, #planar_surface_apply_standard_construction, #plant_loop_apply_prm_baseline_chilled_water_pumping_type, #plant_loop_apply_prm_baseline_chilled_water_temperatures, #plant_loop_apply_prm_baseline_condenser_water_pumping_type, #plant_loop_apply_prm_baseline_condenser_water_temperatures, #plant_loop_apply_prm_baseline_hot_water_pumping_type, #plant_loop_apply_prm_baseline_hot_water_temperatures, #plant_loop_apply_prm_baseline_pump_power, #plant_loop_apply_prm_baseline_pumping_type, #plant_loop_apply_prm_baseline_temperatures, #plant_loop_apply_prm_number_of_boilers, #plant_loop_apply_prm_number_of_chillers, #plant_loop_apply_prm_number_of_cooling_towers, #plant_loop_apply_standard_controls, #plant_loop_capacity_W_by_maxflow_and_deltaT_forwater, #plant_loop_enable_supply_water_temperature_reset, #plant_loop_find_maximum_loop_flow_rate, #plant_loop_prm_baseline_condenser_water_temperatures, #plant_loop_swh_loop?, #plant_loop_swh_system_type, #plant_loop_total_cooling_capacity, #plant_loop_total_floor_area_served, #plant_loop_total_heating_capacity, #plant_loop_total_rated_w_per_gpm, #plant_loop_variable_flow_system?, #pump_variable_speed_set_control_type, register_standard, #remove_All_Subsurfaces, #remove_HVAC, #remove_air_loops, #remove_all_HVAC, #remove_all_plant_loops, #remove_all_zone_equipment, #remove_plant_loops, #remove_unused_curves, #remove_vrf, #remove_zone_equipment, #rename_air_loop_nodes, #rename_plant_loop_nodes, #safe_load_model, #safe_load_sql, #schedule_apply_parametric_inputs, #schedule_compact_annual_min_max_value, #schedule_constant_annual_equivalent_full_load_hrs, #schedule_constant_annual_min_max_value, #schedule_ruleset_annual_equivalent_full_load_hrs, #schedule_ruleset_annual_hourly_values, #schedule_ruleset_annual_hours_above_value, #schedule_ruleset_annual_min_max_value, #schedule_ruleset_cleanup_profiles, #schedule_ruleset_set_hours_of_operation, #seer_to_cop_cooling_no_fan, #seer_to_cop_cooling_with_fan, #set_VAV_terminals_to_control_for_outdoor_air, #set_Window_To_Wall_Ratio_set_name, #space_add_daylighting_controls, #space_apply_infiltration_rate, #space_conditioning_category, #space_cooled?, #space_daylighted_area_window_width, #space_daylighted_areas, #space_daylighting_control_required?, #space_daylighting_fractions_and_windows, #space_design_internal_load, #space_exterior_wall_and_roof_and_subsurface_area, #space_exterior_wall_and_window_area, #space_get_adjacent_space_with_most_shared_wall_area, #space_get_adjacent_spaces_with_shared_wall_areas, #space_heated?, #space_hours_of_operation, #space_infiltration_rate_75_pa, #space_plenum?, #space_residential?, #space_sidelighting_effective_aperture, #space_skylight_effective_aperture, #space_type_apply_internal_load_schedules, #space_type_apply_internal_loads, #space_type_apply_rendering_color, #space_type_get_construction_properties, #space_type_get_standards_data, #spaces_get_occupancy_schedule, #spaces_hours_of_operation, #standard_design_sizing_temperatures, #standards_lookup_table_first, #standards_lookup_table_many, #strip_model, #sub_surface_component_infiltration_rate, #sub_surface_create_centered_subsurface_from_scaled_surface, #sub_surface_create_scaled_subsurfaces_from_surface, #sub_surface_reduce_area_by_percent_by_raising_sill, #sub_surface_reduce_area_by_percent_by_shrinking_toward_centroid, #sub_surface_vertical_rectangle?, #surface_component_infiltration_rate, #surface_replace_existing_subsurfaces_with_centered_subsurface, #thermal_eff_to_afue, #thermal_eff_to_comb_eff, #thermal_zone_add_exhaust, #thermal_zone_add_exhaust_fan_dcv, #thermal_zone_add_unconditioned_thermostat, #thermal_zone_apply_prm_baseline_supply_temperatures, #thermal_zone_building_type, #thermal_zone_conditioning_category, #thermal_zone_convert_oa_req_to_per_area, #thermal_zone_cooled?, #thermal_zone_demand_control_ventilation_limits, #thermal_zone_demand_control_ventilation_required?, #thermal_zone_design_internal_load, #thermal_zone_exhaust_fan_dcv_required?, #thermal_zone_floor_area_with_zone_multipliers, #thermal_zone_fossil_hybrid_or_purchased_heat?, #thermal_zone_fossil_or_electric_type, #thermal_zone_get_adjacent_zones_with_shared_wall_areas, #thermal_zone_get_occupancy_schedule, #thermal_zone_heated?, #thermal_zone_infer_system_type, #thermal_zone_majority_space_type, #thermal_zone_mixed_heating_fuel?, #thermal_zone_occupancy_type, #thermal_zone_outdoor_airflow_rate, #thermal_zone_outdoor_airflow_rate_per_area, #thermal_zone_plenum?, #thermal_zone_prm_baseline_cooling_design_supply_temperature, #thermal_zone_prm_baseline_heating_design_supply_temperature, #thermal_zone_residential?, #thermal_zone_vestibule?, #thermal_zones_get_occupancy_schedule, #true?, #validate_initial_model, #water_heater_mixed_apply_efficiency, #water_heater_mixed_apply_prm_baseline_fuel_type, #water_heater_mixed_find_capacity, #zone_hvac_component_apply_prm_baseline_fan_power, #zone_hvac_component_apply_standard_controls, #zone_hvac_component_apply_vestibule_heating_control, #zone_hvac_component_prm_baseline_fan_efficacy, #zone_hvac_component_vestibule_heating_control_required?

Methods included from PrototypeFan

apply_base_fan_variables, #create_fan_by_name, #get_fan_from_standards, #prototype_fan_apply_prototype_fan_efficiency

Methods included from CoilDX

#coil_dx_find_search_criteria, #coil_dx_heat_pump?, #coil_dx_heating_type, #coil_dx_subcategory

Methods included from CoolingTower

#cooling_tower_apply_minimum_power_per_flow, #cooling_tower_apply_minimum_power_per_flow_gpm_limit

Methods included from Pump

#pump_apply_prm_pressure_rise_and_motor_efficiency, #pump_apply_standard_minimum_motor_efficiency, #pump_brake_horsepower, #pump_motor_horsepower, #pump_pumppower, #pump_rated_w_per_gpm, #pump_standard_minimum_motor_efficiency_and_size

Methods included from Fan

#fan_adjust_pressure_rise_to_meet_fan_power, #fan_apply_standard_minimum_motor_efficiency, #fan_baseline_impeller_efficiency, #fan_brake_horsepower, #fan_change_impeller_efficiency, #fan_change_motor_efficiency, #fan_fanpower, #fan_motor_horsepower, #fan_rated_w_per_cfm, #fan_small_fan?, #fan_standard_minimum_motor_efficiency_and_size

Constructor Details

#initialize ⇒ DOERef1980to2004

Returns a new instance of DOERef1980to2004.

# File 'lib/openstudio-standards/standards/ashrae_90_1/doe_ref_1980_2004/doe_ref_1980_2004.rb', line 8

def initialize
  @template = 'DOE Ref 1980-2004'
  load_standards_database
end

Instance Attribute Details

#template ⇒ Object (readonly)

Returns the value of attribute template.

# File 'lib/openstudio-standards/standards/ashrae_90_1/doe_ref_1980_2004/doe_ref_1980_2004.rb', line 6

def template
  @template
end

Instance Method Details

#air_loop_hvac_apply_multizone_vav_outdoor_air_sizing(air_loop_hvac) ⇒ Bool

TODO:

enable damper position adjustment for legacy IDFS

Apply multizone vav outdoor air method and adjust multizone VAV damper positions. Currently doesn’t do anything for the DOE prototype buildings.

Returns:

• (Bool) —

  returns true if successful, false if not

# File 'lib/openstudio-standards/standards/ashrae_90_1/doe_ref_1980_2004/doe_ref_1980_2004.AirLoopHVAC.rb', line 10

def air_loop_hvac_apply_multizone_vav_outdoor_air_sizing(air_loop_hvac)
  # TODO: enable damper position adjustment for legacy IDFS
  OpenStudio.logFree(OpenStudio::Warn, 'openstudio.standards.AirLoopHVAC', 'Damper positions not modified for DOE Ref Pre-1980 or DOE Ref 1980-2004 vintages.')
  return true
end

#air_loop_hvac_optimum_start_required?(air_loop_hvac) ⇒ Boolean

Determines if optimum start control is required. Not required by DOE Ref 1980-2004.

Returns:

• (Boolean)

# File 'lib/openstudio-standards/standards/ashrae_90_1/doe_ref_1980_2004/doe_ref_1980_2004.AirLoopHVAC.rb', line 33

def air_loop_hvac_optimum_start_required?(air_loop_hvac)
  opt_start_required = false
  return opt_start_required
end

#air_loop_hvac_static_pressure_reset_required?(air_loop_hvac, has_ddc) ⇒ Boolean

TODO:

Instead of requiring the input of whether a system has DDC control of VAV terminals or not, determine this from the system itself. This may require additional information be added to the OpenStudio data model.

Determine if static pressure reset is required for this system. Not required by DOE Ref 1980-2004.

over VAV terminals. return [Bool] returns true if static pressure reset is required, false if not

Parameters:

• has_ddc (Bool) —

  whether or not the system has DDC control

Returns:

• (Boolean)

# File 'lib/openstudio-standards/standards/ashrae_90_1/doe_ref_1980_2004/doe_ref_1980_2004.AirLoopHVAC.rb', line 26

def air_loop_hvac_static_pressure_reset_required?(air_loop_hvac, has_ddc)
  sp_reset_required = false
  return sp_reset_required
end

#air_loop_hvac_vav_damper_action(air_loop_hvac) ⇒ String

Determine whether the VAV damper control is single maximum or dual maximum control. Single Maximum for DOE Ref 1980-2004.

Returns:

• (String) —

  the damper control type: Single Maximum, Dual Maximum

# File 'lib/openstudio-standards/standards/ashrae_90_1/doe_ref_1980_2004/doe_ref_1980_2004.AirLoopHVAC.rb', line 42

def air_loop_hvac_vav_damper_action(air_loop_hvac)
  damper_action = 'Single Maximum'
  return damper_action
end

#air_terminal_single_duct_vav_reheat_apply_initial_prototype_damper_position(air_terminal_single_duct_vav_reheat, zone_oa_per_area) ⇒ Bool

Set the initial minimum damper position based on OA rate of the space and the template. Zones with low OA per area get lower initial guesses. Final position will be adjusted upward as necessary by Standards.AirLoopHVAC.apply_minimum_vav_damper_positions

Parameters:

• zone_oa_per_area (Double) —

  the zone outdoor air per area, m^3/s

Returns:

• (Bool) —

  returns true if successful, false if not

# File 'lib/openstudio-standards/prototypes/ashrae_90_1/doe_ref_1980_2004/doe_ref_1980_2004.AirTerminalSingleDuctVAVReheat.rb', line 9

def air_terminal_single_duct_vav_reheat_apply_initial_prototype_damper_position(air_terminal_single_duct_vav_reheat, zone_oa_per_area)

  # Set the minimum flow fraction
  min_damper_position = 0.3
  air_terminal_single_duct_vav_reheat.setConstantMinimumAirFlowFraction(min_damper_position)

  return true
end

#load_standards_database(data_directories = []) ⇒ Object

# File 'lib/openstudio-standards/standards/ashrae_90_1/doe_ref_1980_2004/doe_ref_1980_2004.rb', line 13

def load_standards_database(data_directories = [])
  super([__dir__] + data_directories)
end

#model_add_elevator(model, space, number_of_elevators, elevator_type, elevator_schedule, elevator_fan_schedule, elevator_lights_schedule, building_type = nil) ⇒ OpenStudio::Model::ElectricEquipment

TODO:

Inconsistency. Older vintages don’t have lights or fans

Add an elevator the the specified space

to assign the elevators to. Traction, Hydraulic in elevators, which is not realistic.

Parameters:

• space (OpenStudio::Model::Space) —

  the space

• number_of_elevators (Integer) —

  the number of elevators

• elevator_type (String) —

  valid choices are

• elevator_schedule (String) —

  the name of the elevator schedule

• elevator_fan_schedule (String) —

  the name of the elevator fan schedule

• elevator_lights_schedule (String) —

  the name of the elevator lights schedule

• building_type (String) (defaults to: nil) —

  the building type

Returns:

• (OpenStudio::Model::ElectricEquipment) —

  the resulting elevator

# File 'lib/openstudio-standards/prototypes/ashrae_90_1/doe_ref_1980_2004/doe_ref_1980_2004.Model.elevators.rb', line 18

def model_add_elevator(model,
                       space,
                       number_of_elevators,
                       elevator_type,
                       elevator_schedule,
                       elevator_fan_schedule,
                       elevator_lights_schedule,
                       building_type = nil)

  # Lift motor assumptions
  lift_pwr_w = model_elevator_lift_power(model, elevator_type, building_type)

  # Size assumptions
  length_ft = 6.66
  width_ft = 4.25
  height_ft = 8.0
  area_ft2 = length_ft * width_ft
  volume_ft3 = area_ft2 * height_ft

  # Ventilation assumptions
  vent_rate_acm = 1 # air changes per minute
  vent_rate_cfm = volume_ft3 / vent_rate_acm
  vent_pwr_w = model_elevator_fan_pwr(model, vent_rate_cfm)

  # Heating fraction radiant assumptions
  elec_equip_frac_radiant = 0.5

  # Lighting assumptions
  design_ltg_lm_per_ft2 = 30
  light_loss_factor = 0.75
  pct_incandescent = model_elevator_lighting_pct_incandescent(model)
  pct_led = 1.0 - pct_incandescent

  incandescent_efficacy_lm_per_w = 10.0
  led_efficacy_lm_per_w = 35.0
  target_ltg_lm_per_ft2 = design_ltg_lm_per_ft2 / light_loss_factor # 40
  target_ltg_lm = target_ltg_lm_per_ft2 * area_ft2 # 1132.2
  lm_incandescent = target_ltg_lm * pct_incandescent # 792.54
  lm_led = target_ltg_lm * pct_led # 339.66
  w_incandescent = lm_incandescent / incandescent_efficacy_lm_per_w # 79.254
  w_led = lm_led / led_efficacy_lm_per_w # 9.7
  lighting_pwr_w = w_incandescent + w_led

  # Elevator lift motor
  elevator_definition = OpenStudio::Model::ElectricEquipmentDefinition.new(model)
  elevator_definition.setName('Elevator Lift Motor')
  elevator_definition.setDesignLevel(lift_pwr_w)
  elevator_definition.setFractionRadiant(elec_equip_frac_radiant)

  elevator_equipment = OpenStudio::Model::ElectricEquipment.new(elevator_definition)
  elevator_equipment.setName("#{number_of_elevators.round} Elevator Lift Motors")
  elevator_equipment.setEndUseSubcategory('Elevators')
  elevator_sch = model_add_schedule(model, elevator_schedule)
  elevator_equipment.setSchedule(elevator_sch)
  elevator_equipment.setSpace(space)
  elevator_equipment.setMultiplier(number_of_elevators)

  return elevator_equipment
end

#model_apply_infiltration_standard(model) ⇒ Bool

TODO:

This infiltration method is not used by the Reference

Apply the air leakage requirements to the model. “For ‘DOE Ref Pre-1980’ and ‘DOE Ref 1980-2004’, infiltration rates are not defined using this method, no changes are actually made to the model.

base infiltration rates off of. buildings, fix this inconsistency.

Returns:

• (Bool) —

  true if successful, false if not

# File 'lib/openstudio-standards/standards/ashrae_90_1/doe_ref_1980_2004/doe_ref_1980_2004.Model.rb', line 13

def model_apply_infiltration_standard(model)
  # Set the infiltration rate at each space
  model.getSpaces.sort.each do |space|
    space_apply_infiltration_rate(space)
  end

  return true
end

#model_elevator_lift_power(model, elevator_type, building_type) ⇒ Object

Determines the power required by an individual elevator of a given type. Values used by the older vintages are slightly higher than those used by the DOE prototypes. Traction, Hydraulic

Parameters:

• elevator_type (String) —

  valid choices are

# File 'lib/openstudio-standards/prototypes/ashrae_90_1/doe_ref_1980_2004/doe_ref_1980_2004.Model.elevators.rb', line 83

def model_elevator_lift_power(model, elevator_type, building_type)
  lift_pwr_w = 0
  if elevator_type == 'Traction'
    lift_pwr_w = 18_537.0
  elsif elevator_type == 'Hydraulic'
    lift_pwr_w = if building_type == 'MidriseApartment'
                   16_055.0
                 else
                   14_610.0
                 end
  else
    lift_pwr_w = 14_610.0
    OpenStudio.logFree(OpenStudio::Warn, 'openstudio.model.Model', "Elevator type '#{elevator_type}', not recognized, will assume Hydraulic elevator, #{lift_pwr_w} W.")
  end

  return lift_pwr_w
end

#model_get_climate_zone_set_from_list(model, possible_climate_zone_sets) ⇒ Object

Determine which climate zone to use. For Pre-1980 and 1980-2004, use the most specific climate zone set. For example, 2A and 2 both contain 2A, so use 2A. The exceptions are climate zones 1, 7, and 8, which combine 1A/1B, 7A/7B, and 8A/8B into 1, 7, and 8.

# File 'lib/openstudio-standards/standards/ashrae_90_1/doe_ref_1980_2004/doe_ref_1980_2004.Model.rb', line 27

def model_get_climate_zone_set_from_list(model, possible_climate_zone_sets)
  climate_zone_set = if possible_climate_zone_sets.include? 'ClimateZone 1'
                       possible_climate_zone_sets.sort.first
                     elsif possible_climate_zone_sets.include? 'ClimateZone 7'
                       possible_climate_zone_sets.sort.first
                     elsif possible_climate_zone_sets.include? 'ClimateZone 8'
                       possible_climate_zone_sets.sort.first
                     else
                       possible_climate_zone_sets.sort.last
                     end
  return climate_zone_set
end

#model_walkin_freezer_latent_case_credit_curve(model) ⇒ Object

TODO:

Should probably use the model_add_refrigeration_walkin

Determine the latent case credit curve to use for walkins. and lookups from the spreadsheet instead of hard-coded values.

# File 'lib/openstudio-standards/prototypes/ashrae_90_1/doe_ref_1980_2004/doe_ref_1980_2004.refrigeration.rb', line 8

def model_walkin_freezer_latent_case_credit_curve(model)
  latent_case_credit_curve_name = 'Single Shelf Horizontal Latent Energy Multiplier_Pre2004'
  return latent_case_credit_curve_name
end

#plant_loop_supply_water_temperature_reset_required?(plant_loop) ⇒ Boolean

Determine if temperature reset is required. Not required for the older DOE buildings.

Returns:

• (Boolean)

# File 'lib/openstudio-standards/standards/ashrae_90_1/doe_ref_1980_2004/doe_ref_1980_2004.PlantLoop.rb', line 6

def plant_loop_supply_water_temperature_reset_required?(plant_loop)
  reset_required = false
  return reset_required
end