# Custom changes for the MediumOffice prototype. # These are changes that are inconsistent with other prototype # building types. module MediumOfficeDetailed def model_custom_hvac_tweaks(building_type, climate_zone, prototype_input, model) OpenStudio.logFree(OpenStudio::Info, 'openstudio.model.Model', 'Started building type specific adjustments') model.getSpaces.sort.each do |space| if space.name.get.to_s == 'Lobby_Bot' model_add_elevator(model, space, prototype_input['number_of_elevators'], prototype_input['elevator_type'], prototype_input['elevator_schedule'], prototype_input['elevator_fan_schedule'], prototype_input['elevator_fan_schedule'], building_type) end end OpenStudio.logFree(OpenStudio::Info, 'openstudio.model.Model', 'Finished building type specific adjustments') # add extra infiltration for entry door add_door_infiltration(climate_zone, model) OpenStudio.logFree(OpenStudio::Info, 'openstudio.model.Model', 'Added door infiltration') return true end # add hvac def add_door_infiltration(climate_zone, model) # add extra infiltration for entry door in m3/s (there is no attic in 'DOE Ref Pre-1980') unless template == 'DOE Ref 1980-2004' || template == 'DOE Ref Pre-1980' entry_space = model.getSpaceByName('Lounge_Bot').get infiltration_entrydoor = OpenStudio::Model::SpaceInfiltrationDesignFlowRate.new(model) infiltration_entrydoor.setName('entry door Infiltration') infiltration_per_zone_entrydoor = 0 if template == '90.1-2004' infiltration_per_zone_entrydoor = 1.04300287 infiltration_entrydoor.setSchedule(model_add_schedule(model,'OfficeMedium INFIL_Door_Opening_SCH')) elsif template == '90.1-2007' || template == '90.1-2010'|| template == '90.1-2013' case climate_zone when 'ASHRAE 169-2006-1A', 'ASHRAE 169-2006-2A', 'ASHRAE 169-2006-1B', 'ASHRAE 169-2006-2B' infiltration_per_zone_entrydoor = 1.04300287 infiltration_entrydoor.setSchedule(model_add_schedule(model, 'OfficeMedium INFIL_Door_Opening_SCH')) else infiltration_per_zone_entrydoor = 0.678659786 infiltration_entrydoor.setSchedule(model_add_schedule(model, 'OfficeMedium INFIL_Door_Opening_SCH')) end end infiltration_entrydoor.setDesignFlowRate(infiltration_per_zone_entrydoor) infiltration_entrydoor.setSpace(entry_space) end end # def model_custom_daylighting_tweaks(building_type, climate_zone, prototype_input, model) # OpenStudio.logFree(OpenStudio::Info, 'openstudio.model.Model', 'Adjusting daylight sensor positions and fractions') # # adjustments = [ # { 'stds_spc_type' => 'WholeBuilding - Md Office', # 'sensor_1_frac' => 0.3835, # 'sensor_2_frac' => 0.1395, # } # ] # # Adjust daylight sensors in each space # model.getSpaces.each do |space| # next if space.thermalZone.empty? # zone = space.thermalZone.get # next if space.spaceType.empty? # spc_type = space.spaceType.get # next if spc_type.standardsSpaceType.empty? # stds_spc_type = spc_type.standardsSpaceType.get # adjustments.each do |adj| # next unless adj['stds_spc_type'] == stds_spc_type # # Adjust the primary sensor # if adj['sensor_1_frac'] && zone.primaryDaylightingControl.is_initialized # OpenStudio.logFree(OpenStudio::Info, 'openstudio.model.Model', "For #{zone.name}: Adjusting primary daylight sensor to control #{adj['sensor_1_frac']} of the lighting.") # zone.setFractionofZoneControlledbyPrimaryDaylightingControl(adj['sensor_1_frac']) # pri_ctrl = zone.primaryDaylightingControl.get # if adj['sensor_1_xyz'] # x = adj['sensor_1_xyz'][0] # y = adj['sensor_1_xyz'][1] # z = adj['sensor_1_xyz'][2] # OpenStudio.logFree(OpenStudio::Info, 'openstudio.model.Model', "For #{zone.name}: Adjusting primary daylight sensor position to [#{x}, #{y}, #{z}].") # pri_ctrl.setPositionXCoordinate(x) # pri_ctrl.setPositionYCoordinate(y) # pri_ctrl.setPositionZCoordinate(z) # end # end # Adjust the secondary sensor # if adj['sensor_2_frac'] && zone.secondaryDaylightingControl.is_initialized # OpenStudio.logFree(OpenStudio::Info, 'openstudio.model.Model', "For #{zone.name}: Adjusting secondary daylight sensor to control #{adj['sensor_2_frac']} of the lighting.") # zone.setFractionofZoneControlledbySecondaryDaylightingControl(adj['sensor_2_frac']) # sec_ctrl = zone.secondaryDaylightingControl.get # if adj['sensor_2_xyz'] # x = adj['sensor_2_xyz'][0] # y = adj['sensor_2_xyz'][1] # z = adj['sensor_2_xyz'][2] # OpenStudio.logFree(OpenStudio::Info, 'openstudio.model.Model', "For #{zone.name}: Adjusting secondary daylight sensor position to [#{x}, #{y}, #{z}].") # sec_ctrl.setPositionXCoordinate(x) # sec_ctrl.setPositionYCoordinate(y) # sec_ctrl.setPositionZCoordinate(z) # end # end # # end # end # # return true # end def update_waterheater_loss_coefficient(model) case template when '90.1-2004', '90.1-2007', '90.1-2010', '90.1-2013', 'NECB2011' model.getWaterHeaterMixeds.sort.each do |water_heater| water_heater.setOffCycleLossCoefficienttoAmbientTemperature(7.561562668) water_heater.setOnCycleLossCoefficienttoAmbientTemperature(7.561562668) end end end def model_custom_swh_tweaks(model, building_type, climate_zone, prototype_input) update_waterheater_loss_coefficient(model) return true end def model_custom_geometry_tweaks(building_type, climate_zone, prototype_input, model) return true end def air_terminal_single_duct_vav_reheat_apply_initial_prototype_damper_position(air_terminal_single_duct_vav_reheat, zone_oa_per_area) min_damper_position = template == '90.1-2010' || template == '90.1-2013' ? 0.2 : 0.3 # Set the minimum flow fraction air_terminal_single_duct_vav_reheat.setConstantMinimumAirFlowFraction(min_damper_position) return true end end