Class: BTAP::Measures::CSV_OS_Measures
- Inherits:
-
CSV_Measures
- Object
- CSV_Measures
- BTAP::Measures::CSV_OS_Measures
- Defined in:
- lib/openstudio-standards/btap/measures.rb
Instance Method Summary collapse
- #apply_ecms(model, row_data) ⇒ Object
-
#create_cold_lake_vintages(output_folder = nil) ⇒ Object
Helper methods.
-
#ecm_capital_costs(model) ⇒ Object
ecms.
- #ecm_cold_deck_reset_control(model) ⇒ Object
- #ecm_cooling_cop(model) ⇒ Object
- #ecm_dcv(model) ⇒ Object
- #ecm_dhw(model) ⇒ Object
- #ecm_economizers(model) ⇒ Object
- #ecm_envelope(model) ⇒ Object
- #ecm_erv(model) ⇒ Object
- #ecm_exhaust_fans(model) ⇒ Object
- #ecm_fans(model) ⇒ Object
- #ecm_heating_cooling_setpoints(model) ⇒ Object
- #ecm_hotwater_boilers(model) ⇒ Object
- #ecm_id(model) ⇒ Object
- #ecm_infiltration(model) ⇒ Object
- #ecm_lighting(model) ⇒ Object
- #ecm_plugs(model) ⇒ Object
- #ecm_pumps(model) ⇒ Object
- #ecm_sat_reset(model) ⇒ Object
- #ecm_sizing(model) ⇒ Object
- #ecm_temp_setback(model) ⇒ Object
- #load_base_model_building ⇒ Object
- #set_hourly_output(model) ⇒ Object
- #set_weather_file(model) ⇒ Object
-
#side_load_base_model_building(model) ⇒ Object
loading methods.
Methods inherited from CSV_Measures
#are_all_instance_variables_nil?, #initialize, #set_instance_variables
Constructor Details
This class inherits a constructor from BTAP::Measures::CSV_Measures
Instance Method Details
#apply_ecms(model, row_data) ⇒ Object
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# File 'lib/openstudio-standards/btap/measures.rb', line 602 def apply_ecms(model,row_data) log = "" @csv_data = row_data self.methods.select{ |i| i[/^ecm_.*$/] }.each do |ecm_method_name| log << "**********#{ecm_method_name}\n" raise ("model is nil") if model.nil? raise ("name is nil") if ecm_method_name.nil? log << self.method(ecm_method_name).call(model) end return model,log end |
#create_cold_lake_vintages(output_folder = nil) ⇒ Object
Helper methods
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# File 'lib/openstudio-standards/btap/measures.rb', line 552 def create_cold_lake_vintages(output_folder = nil) # check if only a single vintage was requested or a full set. baseline_models = Hash.new() prototype_models = Hash.new() puts "Creating Baseline models" CSV.foreach( @csv_file_path, :headers => true, :converters => :all ) do |row| @csv_data = row unless @csv_data["measure_id"] == "NA" model = self.load_base_model_building() self.set_weather_file(model) self.set_hourly_output(model) model,log = self.apply_ecms(model,@csv_data) BTAP::FileIO::save_osm( model, "#{output_folder}/#{BTAP::FileIO::get_name(model)}.osm") unless output_folder.nil? File.open("#{output_folder}/#{BTAP::FileIO::get_name(model)}.log", 'w') { |file| file.write(log) } unless output_folder.nil? baseline_models[BTAP::FileIO::get_name(model)] = model end end #create ECM models. puts "Creating ECM models" counter = 0 baseline_models.each do |name,model| #Scan folder and get the ecm csv files. ecm_csv_files = Dir.glob( "#{@script_root_folder_path}/**/ecm_*.csv" ) #iterate through each csv file. ecm_csv_files.each do |ecm_csv_file| puts "evaluating #{ecm_csv_file}" # iterate through each row CSV.foreach( ecm_csv_file, :headers => true, :converters => :all ) do |row| # If row baseline matches current baseline name then if name == "#{row["building_type"]}~#{row["vintage_name"]}~baseline" #Skip row if measure_id is NA counter = counter + 1 if row["measure_id"].nil? or row["measure_id"].upcase.strip == "NA" or row["measure_id"].upcase.strip == "" else new_model = BTAP::FileIO::deep_copy(model) new_model,log = self.apply_ecms(new_model,row) BTAP::FileIO::save_osm( new_model, "#{output_folder}/#{BTAP::FileIO::get_name(new_model)}.osm") unless output_folder.nil? File.open("#{output_folder}/#{BTAP::FileIO::get_name(new_model)}.log", 'w') { |file| file.write(log) } unless output_folder.nil? end end end end end puts "ECM generation completed." end |
#ecm_capital_costs(model) ⇒ Object
ecms
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# File 'lib/openstudio-standards/btap/measures.rb', line 615 def ecm_capital_costs(model) log = "" measure_values = [ "measure_id", "cost_per_floor_m2", "cost_per_building" ] self.set_instance_variables( measure_values ) #cost per building and building area building = model.building.get raise ("you did not enter a cost for measure #{@measure_id}. All measures must have a cost of at least 0.0 . Please add a cost_per_building field.") if @cost_per_building.nil? unless @cost_per_building.nil? BTAP::Resources::Economics::object_cost(building,"#{@measure_id} Capital Cost per building",@cost_per_building.to_f,"CostPerEach") log << "added cost of #{@measure_id} per building for #{@measure_id}" puts log end return log end |
#ecm_cold_deck_reset_control(model) ⇒ Object
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# File 'lib/openstudio-standards/btap/measures.rb', line 1379 def ecm_cold_deck_reset_control( model ) log = "" measure_values = [ "cold_deck_reset_enabled", "cold_deck_reset_max_supply_air_temp", "cold_deck_reset_min_supply_air_temp", ] #Set all the above instance variables to the @csv_data values or, if not set or == 'na', to nil. self.set_instance_variables(measure_values) if @cold_deck_reset_enabled.to_bool == true model.getAirLoopHVACs.sort.each do |iairloop| cooling_present = false set_point_manager = nil iairloop.components.each do |icomponent| if icomponent.to_CoilCoolingDXSingleSpeed.is_initialized or icomponent.to_CoilCoolingDXTwoSpeed.is_initialized or icomponent.to_CoilCoolingWater.is_initialized or icomponent.to_CoilCoolingCooledBeam.is_initialized or icomponent.to_CoilCoolingDXMultiSpeed.is_initialized or icomponent.to_CoilCoolingDXVariableRefrigerantFlow.is_initialized or icomponent.to_CoilCoolingLowTempRadiantConstFlow.is_initialized or icomponent.to_CoilCoolingLowTempRadiantVarFlow.is_initialized cooling_present = true log << "found cooling." end end #check if setpoint manager is present at supply outlet. model.getSetpointManagerSingleZoneReheats.sort.each do |manager| if iairloop.supplyOutletNode == manager.setpointNode.get set_point_manager = manager end end if set_point_manager.nil? and cooling_present == true set_point_manager = OpenStudio::Model::SetpointManagerSingleZoneReheat.new(model) set_point_manager.addToNode(iairloop.supplyOutletNode) end if cooling_present == true and not set_point_manager.nil? set_point_manager.setMaximumSupplyAirTemperature(@cold_deck_reset_max_supply_air_temp) set_point_manager.setMinimumSupplyAirTemperature(@cold_deck_reset_min_supply_air_temp) log << "to_SetpointManagerSingleZoneReheat set to 20.0 and 13.0" end end end return log end |
#ecm_cooling_cop(model) ⇒ Object
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# File 'lib/openstudio-standards/btap/measures.rb', line 963 def ecm_cooling_cop( model ) log = "" measure_values =[ "cop" ] #Set all the above instance variables to the @csv_data values or, if not set or == 'na', to nil. self.set_instance_variables(measure_values) unless model.getCoilCoolingDXSingleSpeeds.empty? log = "coil_cooling_dx_single_speed_name,cop\n" model.getCoilCoolingDXSingleSpeeds.sort.each do |cooling_coil| cooling_coil.setRatedCOP( OpenStudio::OptionalDouble.new( @cop ) ) unless @cop.nil? cop = "NA" cop = cooling_coil.ratedCOP.get unless cooling_coil.ratedCOP.empty? log << cooling_coil.name.get.to_s << ",#{cop}\n" end end unless model.getCoilCoolingDXTwoSpeeds.empty? log << "coil_cooling_dx_two_speed_name,cop\n" model.getCoilCoolingDXTwoSpeeds.sort.each do |cooling_coil| cooling_coil.setRatedHighSpeedCOP( @cop ) unless @cop.nil? cooling_coil.setRatedLowSpeedCOP( @cop ) unless @cop.nil? cop_high = "NA" cop_high = cooling_coil.ratedHighSpeedCOP.get unless cooling_coil.ratedHighSpeedCOP.empty? cop_low = "NA" cop_low = cooling_coil.ratedLowSpeedCOP.get unless cooling_coil.ratedLowSpeedCOP.empty? log << cooling_coil.name.get.to_s << ",#{cop_high},#{cop_low}\n" end end return log end |
#ecm_dcv(model) ⇒ Object
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# File 'lib/openstudio-standards/btap/measures.rb', line 1185 def ecm_dcv( model ) log = "" measure_values =[ "dcv_enabled" ] #Set all the above instance variables to the @csv_data values or, if not set or == 'na', to nil. self.set_instance_variables(measure_values) unless @dcv_enabled.nil? log = BTAP::Resources::HVAC::enable_demand_control_ventilation(model,@dcv_enabled.to_bool) end return log end |
#ecm_dhw(model) ⇒ Object
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# File 'lib/openstudio-standards/btap/measures.rb', line 1053 def ecm_dhw( model ) log = "shw_setpoint_sched,shw_heater_fuel_type,shw_thermal_eff\n" measure_values =[ "shw_setpoint_sched_name", "shw_heater_fuel_type", "shw_thermal_eff" ] log = "*SHW Measures*\n" #Set all the above instance variables to the @csv_data values or, if not set or == 'na', to nil. self.set_instance_variables(measure_values) #Create Schedule #schedule = BTAP::Resources::Schedules::create_annual_ruleset_schedule_detailed_json(model, @shw_setpoint_sched) unless @shw_setpoint_sched_name.nil? or @shw_setpoint_sched.nil? #iterate through water heaters. model.getWaterHeaterMixeds.sort.each do |item| unless @shw_setpoint_sched_name.nil? or @shw_setpoint_sched.nil? item.setSetpointTemperatureSchedule(schedule) end item.setHeaterFuelType(@shw_heater_fuel_type) unless @shw_heater_fuel_type.nil? item.setHeaterThermalEfficiency(@shw_thermal_eff) unless @shw_thermal_eff.nil? log << item.name.get.to_s << ",#{item.setpointTemperatureSchedule},#{item.heaterFuelType},#{item.getHeaterThermalEfficiency.get}\n" end return log end |
#ecm_economizers(model) ⇒ Object
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# File 'lib/openstudio-standards/btap/measures.rb', line 997 def ecm_economizers( model ) measure_values =[ "economizer_control_type", "economizer_control_action_type", "economizer_maximum_limit_dry_bulb_temperature", "economizer_maximum_limit_enthalpy", "economizer_maximum_limit_dewpoint_temperature", "economizer_minimum_limit_dry_bulb_temperature" ] #Set all the above instance variables to the @csv_data values or, if not set or == 'na', to nil. self.set_instance_variables(measure_values) log = "" unless @economizer_control_type.nil? log << BTAP::Resources::HVAC::enable_economizer( model, @economizer_control_type, @economizer_control_action_type, @economizer_maximum_limit_dry_bulb_temperature, @economizer_maximum_limit_enthalpy, @economizer_maximum_limit_dewpoint_temperature, @economizer_minimum_limit_dry_bulb_temperature ) end return log end |
#ecm_envelope(model) ⇒ Object
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# File 'lib/openstudio-standards/btap/measures.rb', line 649 def ecm_envelope( model ) log = "" #List of variables required by this measure that are to be extracted from CSV row. measure_values = [ "library_file", "default_construction_set_name", "ext_wall_rsi", "ext_floor_rsi", "ext_roof_rsi", "ground_wall_rsi", "ground_floor_rsi", "ground_roof_rsi", "fixed_window_rsi", "fixed_wind_solar_trans", "fixed_wind_vis_trans", "operable_window_rsi", "operable_wind_solar_trans", "operable_wind_vis_trans", "door_construction_rsi", "glass_door_rsi", "glass_door_solar_trans", "glass_door_vis_trans", "overhead_door_rsi", "skylight_rsi", "skylight_solar_trans", "skylight_vis_trans", "tubular_daylight_dome_rsi", "tubular_daylight_dome_solar_trans", "tubular_daylight_dome_vis_trans", "tubular_daylight_diffuser_rsi", "tubular_daylight_diffuser_solar_trans", "tubular_daylight_diffuser_vis_trans", "ext_wall_cost_m3", "ext_floor_cost_m3", "ext_roof_cost_m3", "ground_wall_cost_m3", "ground_floor_cost_m3", "ground_roof_cost_m3", "fixed_window_cost_m3", "operable_window_cost_m3", "door_construction_cost_m3", "glass_door_cost_m3", "overhead_door_cost_m3", "skylight_cost_m3", "tubular_daylight_dome_cost_m3", "tubular_daylight_diffuser_cost_m3", "total_building_construction_set_cost" ] self.set_instance_variables(measure_values) unless @default_construction_set_name.nil? or @library_file.nil? # #Remove all existing constructions from model. BTAP::Resources::Envelope::remove_all_envelope_information( model ) # #Load Contruction osm library. construction_lib = BTAP::FileIO::load_osm("#{@script_root_folder_path}/#{@library_file}") #Get construction set.. I/O expensive so doing it here. vintage_construction_set = construction_lib.getDefaultConstructionSetByName(@default_construction_set_name) if vintage_construction_set.empty? raise("#{@default_construction_set} does not exist in #{@script_root_folder_path}/#{@library_file} library ") else vintage_construction_set = construction_lib.getDefaultConstructionSetByName(@default_construction_set_name).get end new_construction_set =vintage_construction_set.clone(model).to_DefaultConstructionSet.get #Set conductances to needed values in construction set if possible. BTAP::Resources::Envelope::ConstructionSets::customize_default_surface_construction_set_rsi!( model, "#{@default_construction_set}-modified",new_construction_set, @ext_wall_rsi, @ext_floor_rsi, @ext_roof_rsi, @ground_wall_rsi, @ground_floor_rsi, @ground_roof_rsi, @fixed_window_rsi, @fixed_wind_solar_trans, @fixed_wind_vis_trans, @operable_window_rsi, @operable_wind_solar_trans, @operable_wind_vis_trans, @door_construction_rsi, @glass_door_rsi, @glass_door_solar_trans, @glass_door_vis_trans, @overhead_door_rsi, @skylight_rsi, @skylight_solar_trans, @skylight_vis_trans, @tubular_daylight_dome_rsi, @tubular_daylight_dome_solar_trans, @tubular_daylight_dome_vis_trans, @tubular_daylight_diffuser_rsi, @tubular_daylight_diffuser_solar_trans, @tubular_daylight_diffuser_vis_trans ) #Set as default to model. model.building.get.setDefaultConstructionSet( new_construction_set ) #Set cost information. BTAP::Resources::Envelope::ConstructionSets::customize_default_surface_construction_set_costs(new_construction_set, @ext_wall_cost_m2, @ext_floor_cost_m2, @ext_roof_cost_m2, @ground_wall_cost_m2, @ground_floor_cost_m2, @ground_roof_cost_m2, @fixed_window_cost_m2, @operable_window_cost_m2, @door_construction_cost_m2, @glass_door_cost_m2, @overhead_door_cost_m2, @skylight_cost_m2, @tubular_daylight_dome_cost_m2, @tubular_daylight_diffuser_cost_m2, @total_building_construction_set_cost ) #Give adiabatic surfaces a construction. Does not matter what. This is a bug in Openstudio that leave these surfaces unassigned by the default construction set. all_adiabatic_surfaces = BTAP::Geometry::Surfaces::filter_by_boundary_condition(model.getSurfaces, "Adiabatic") unless all_adiabatic_surfaces.empty? BTAP::Geometry::Surfaces::set_surfaces_construction( all_adiabatic_surfaces, model.building.get.defaultConstructionSet.get.defaultInteriorSurfaceConstructions.get.wallConstruction.get) end #Create sample csv file. CSV.open("#{@script_root_folder_path}/sample_envelope_ecm.csv", 'w') { |csv| csv << measure_values.unshift("measure_id") } return BTAP::Resources::Envelope::ConstructionSets::get_construction_set_info( new_construction_set ) end return "Constructions were unchanged.\n" end |
#ecm_erv(model) ⇒ Object
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# File 'lib/openstudio-standards/btap/measures.rb', line 1246 def ecm_erv( model ) log = "" measure_values =[ "erv_enabled", "erv_autosizeNominalSupplyAirFlowRate", "erv_NominalSupplyAirFlowRate", "erv_HeatExchangerType", "erv_SensibleEffectivenessat100CoolingAirFlow", "erv_SensibleEffectivenessat75CoolingAirFlow", "erv_LatentEffectiveness100Cooling", "erv_LatentEffectiveness75Cooling", "erv_SensibleEffectiveness100Heating", "erv_SensibleEffectiveness75Heating", "erv_LatentEffectiveness100Heating", "erv_LatentEffectiveness75Heating", "erv_SupplyAirOutletTemperatureControl", "erv_setFrostControlType", "erv_ThresholdTemperature", "erv_InitialDefrostTimeFraction", "erv_nominal_electric_power", "erv_economizer_lockout" ] #Set all the above instance variables to the @csv_data values or, if not set or == 'na', to nil. self.set_instance_variables(measure_values) unless @erv_enabled.nil? or @erv_enabled.to_bool == false BTAP::Resources::HVAC::enable_erv( model, @erv_autosizeNominalSupplyAirFlowRate, @erv_NominalSupplyAirFlowRate, @erv_HeatExchangerType, @erv_SensibleEffectivenessat100CoolingAirFlow, @erv_SensibleEffectivenessat75CoolingAirFlow, @erv_LatentEffectiveness100Cooling, @erv_LatentEffectiveness75Cooling, @erv_SensibleEffectiveness100Heating, @erv_SensibleEffectiveness75Heating, @erv_LatentEffectiveness100Heating, @erv_LatentEffectiveness75Heating, @erv_SupplyAirOutletTemperatureControl.to_bool, @erv_setFrostControlType, @erv_ThresholdTemperature, @erv_InitialDefrostTimeFraction, @erv_nominal_electric_power, @erv_economizer_lockout.to_bool ).each { |erv| log << erv.to_s } #Add setpoint manager to all OA object in airloops. model.getHeatExchangerAirToAirSensibleAndLatents.sort.each do |erv| #needed to get the supply outlet node from the erv to place the setpoint manager. node = erv.primaryAirOutletModelObject.get.to_Node.get if erv.primaryAirOutletModelObject.is_initialized new_set_point_manager = OpenStudio::Model::SetpointManagerWarmest.new(model) raise ("Could not add setpoint manager") unless new_set_point_manager.addToNode(node) log << "added warmest control to node #{node}" new_set_point_manager.setMaximumSetpointTemperature(16.0) new_set_point_manager.setMinimumSetpointTemperature(5.0) new_set_point_manager.setStrategy("MaximumTemperature") new_set_point_manager.setControlVariable("Temperature") end log << "ERV have been modified.\n" else log << "ERV not changed." end return log end |
#ecm_exhaust_fans(model) ⇒ Object
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# File 'lib/openstudio-standards/btap/measures.rb', line 1315 def ecm_exhaust_fans( model ) log = "" #Exhaust ECM measure_values =[ "exhaust_fans_occ_control_enabled" ] #Set all the above instance variables to the @csv_data values or, if not set or == 'na', to nil. self.set_instance_variables(measure_values) unless @exhaust_fans_occ_control_enabled.nil? or @exhaust_fans_occ_control_enabled.to_bool == false fans = BTAP::Resources::Schedules::set_exhaust_fans_availability_to_building_default_occ_schedule(model) fans.each { |fan| log << fan.to_s} else log << "No changes to exhaust fans." end return log end |
#ecm_fans(model) ⇒ Object
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# File 'lib/openstudio-standards/btap/measures.rb', line 787 def ecm_fans( model ) measure_values = [ "fan_total_eff", "fan_motor_eff", "fan_volume_type" ] #Set all the above instance variables to the @csv_data values or, if not set or == 'na', to nil. self.set_instance_variables(measure_values) log = "" unless model.getFanVariableVolumes.empty? log = "fan_variable_volume_name,fan_total_eff,fan_motor_eff\n" model.getFanVariableVolumes.sort.each do |fan| fan.setFanEfficiency( @fan_total_eff ) unless @fan_total_eff.nil? fan.setMotorEfficiency( @fan_motor_eff ) unless @fan_motor_eff.nil? log << fan.name.get.to_s << ",#{fan.fanEfficiency},#{fan.motorEfficiency}\n" end end unless model.getFanConstantVolumes.empty? log = "fan_constant_volume_name,fan_total_eff,fan_motor_eff\n" model.getFanConstantVolumes.sort.each do |fan| fan.setFanEfficiency( @fan_total_eff ) unless @fan_total_eff.nil? fan.setMotorEfficiency( @fan_motor_eff ) unless @fan_motor_eff.nil? log << fan.name.get.to_s << ",#{fan.fanEfficiency},#{fan.motorEfficiency}\n" end end case @fan_volume_type when "VariableVolume" model.getFanConstantVolumes.sort.each do |fan_const| #check that this is indeed connected to an airloop. log << "Found Const Vol Fan #{fan_const.name.get.to_s}" unless fan_const.loop.empty? fan_variable = OpenStudio::Model::FanVariableVolume.new(model,fan_const.availabilitySchedule) #pass information from old fan as much as possible. fan_variable.setFanEfficiency(fan_const.fanEfficiency) fan_variable.setPressureRise( fan_const.pressureRise() ) fan_variable.autosizeMaximumFlowRate fan_variable.setFanPowerMinimumFlowRateInputMethod("FixedFlowRate") fan_variable.setFanPowerMinimumFlowFraction(0.25) fan_variable.setMotorInAirstreamFraction( fan_const.motorInAirstreamFraction() ) fan_variable.setFanPowerCoefficient1(0.35071223) fan_variable.setFanPowerCoefficient2(0.30850535) fan_variable.setFanPowerCoefficient3(-0.54137364) fan_variable.setFanPowerCoefficient4(0.87198823) #get the airloop. air_loop = fan_const.loop.get #add the FanVariableVolume fan_variable.addToNode(air_loop.supplyOutletNode()) #Remove FanConstantVolume fan_const.remove() log << "Replaced by Variable Vol Fan #{fan_variable.name.get.to_s}" end end when "ConstantVolume" model.getFanVariableVolumes.sort.each do |fan| #check that this is indeed connected to an airloop. log << "Found Const Vol Fan #{fan.name.get.to_s}" unless fan.loop.empty? new_fan = OpenStudio::Model::FanConstantVolume.new(model,fan.availabilitySchedule) #pass information from constant speed fan as much as possible. new_fan.setFanEfficiency(fan.fanEfficiency) new_fan.setPressureRise( fan.pressureRise() ) new_fan.setMotorEfficiency(fan.motorEfficiency) new_fan.setMotorInAirstreamFraction( fan.motorInAirstreamFraction() ) new_fan.autosizeMaximumFlowRate #get the airloop. air_loop = fan.loop.get #add the FanVariableVolume new_fan.addToNode(air_loop.supplyOutletNode()) #Remove FanConstantVolume fan.remove() log << "Replaced by Constant Vol Fan #{new_fan.name.get.to_s}" end end when nil log << "No changes to Fan." else raise("fan_volume_type should be ConstantVolume or VariableVolume") end return log end |
#ecm_heating_cooling_setpoints(model) ⇒ Object
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# File 'lib/openstudio-standards/btap/measures.rb', line 1197 def ecm_heating_cooling_setpoints(model) log = "" measure_values =[ "library_file", "heating_schedule_name", "cooling_schedule_name" ] #Set all the above instance variables to the @csv_data values or, if not set or == 'na', to nil. self.set_instance_variables(measure_values) library_file = @library_file heating_schedule_name = @heating_schedule_name cooling_schedule_name = @cooling_schedule_name unless @heating_schedule_name.nil? and @cooling_schedule_name.nil? #Load Contruction osm library. lib = BTAP::FileIO::load_osm("#{@script_root_folder_path}/#{library_file}") unless heating_schedule_name.nil? #Get heating schedule from library and clone it. heating_schedule = lib.getScheduleRulesetByName(heating_schedule_name) if heating_schedule.empty? raise("#{heating_schedule_name} does not exist in #{library_file} library ") else heating_schedule = lib.getScheduleRulesetByName(heating_schedule_name).get.clone(model).to_ScheduleRuleset.get end end unless cooling_schedule_name.nil? #Get cooling schedule from library and clone it. cooling_schedule = lib.getScheduleRulesetByName(cooling_schedule_name) if cooling_schedule.empty? raise("#{cooling_schedule_name} does not exist in #{library_file} library ") else cooling_schedule = lib.getScheduleRulesetByName(cooling_schedule_name).get.clone(model).to_ScheduleRuleset.get end end model.getThermostatSetpointDualSetpoints.sort.each do |dual_setpoint| unless heating_schedule_name.nil? raise ("Could not set heating Schedule") unless dual_setpoint.setHeatingSetpointTemperatureSchedule(heating_schedule) end unless cooling_schedule_name.nil? raise ("Could not set cooling Schedule") unless dual_setpoint.setCoolingSetpointTemperatureSchedule(cooling_schedule) end end end return log end |
#ecm_hotwater_boilers(model) ⇒ Object
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# File 'lib/openstudio-standards/btap/measures.rb', line 1078 def ecm_hotwater_boilers( model ) measure_values = [ "hw_boiler_design_water_outlet_temperature", "hw_boiler_fuel_type", "hw_boiler_thermal_eff", "hw_boiler_curve", "hw_boiler_flow_mode",# "hw_boiler_eff_curve_temp_eval_var",# "hw_boiler_reset_highsupplytemp" , "hw_boiler_reset_outsidehighsupplytemp" , "hw_boiler_reset_lowsupplytemp" , "hw_boiler_reset_outsidelowsupplytemp" , ] #Set all the above instance variables to the @csv_data values or, if not set or == 'na', to nil. self.set_instance_variables(measure_values) table = "name,boiler_design_water_outlet_temperature,boiler_fuel_type,boiler_thermal_eff\n" model.getPlantLoops.sort.each do |iplantloop| iplantloop.components.each do |icomponent| if icomponent.to_BoilerHotWater.is_initialized boiler = icomponent.to_BoilerHotWater.get #set design outlet temp boiler.setDesignWaterOutletTemperature(@hw_boiler_design_water_outlet_temperature) unless @hw_boiler_design_water_outlet_temperature.nil? #set fuel type boiler.setFuelType(@hw_boiler_fuel_type) unless @hw_boiler_fuel_type.nil? #set thermal eff boiler.setNominalThermalEfficiency(@hw_boiler_thermal_eff) unless @hw_boiler_thermal_eff.nil? #set boiler flow mode unless @hw_boiler_flow_mode.nil? ["ConstantFlow","LeavingSetpointModulated","NotModulated"].include?(@hw_boiler_flow_mode) ? boiler.setBoilerFlowMode(@hw_boiler_flow_mode) : raise("Boiler flow mode #{@hw_boiler_flow_mode} invalid.") end #set setDesignWaterOutletTemperature boiler.setDesignWaterOutletTemperature(@hotwaterboiler_reset_highsupplytemp) unless @hotwaterboiler_reset_highsupplytemp.nil? #set EfficiencyCurveTemperatureEvaluationVariable unless @hw_boiler_eff_curve_temp_eval_var.nil? ["LeavingBoiler","EnteringBoiler"].include?(@hw_boiler_eff_curve_temp_eval_var) ? boiler.setEfficiencyCurveTemperatureEvaluationVariable(@hw_boiler_eff_curve_temp_eval_var) : raise("EfficiencyCurveTemperatureEvaluationVariable #{@hw_boiler_eff_curve_temp_eval_var} invalid.") end #Set boiler curve curve = boiler.normalizedBoilerEfficiencyCurve if not @hw_boiler_curve.nil? and curve.is_initialized and curve.get.to_CurveBiquadratic.is_initialized case @hw_boiler_curve.downcase when "atmospheric" biqcurve = curve.get.to_CurveBiquadratic.get biqcurve.setCoefficient1Constant(1.057059) biqcurve.setCoefficient1Constant(1.057059) biqcurve.setCoefficient2x(-0.0774177) biqcurve.setCoefficient3xPOW2(0.07875142) biqcurve.setCoefficient4y(0.0003943856) biqcurve.setCoefficient5yPOW2(-0.000004074629) biqcurve.setCoefficient6xTIMESY(-0.002202606) biqcurve.setMinimumValueofx(0.3) biqcurve.setMaximumValueofx(1.0) biqcurve.setMinimumValueofy(40.0) biqcurve.setMaximumValueofy(90.0) biqcurve.setMinimumCurveOutput(0.0) biqcurve.setMaximumCurveOutput(1.1) biqcurve.setInputUnitTypeforX("Dimensionless") biqcurve.setInputUnitTypeforY("Temperature") biqcurve.setOutputUnitType("Dimensionless") when "condensing" biqcurve = curve.get.to_CurveBiquadratic.get biqcurve.setCoefficient1Constant(0.4873) biqcurve.setCoefficient2x(1.1322) biqcurve.setCoefficient3xPOW2(-0.6425) biqcurve.setCoefficient4y(0.0) biqcurve.setCoefficient5yPOW2(0.0) biqcurve.setCoefficient6xTIMESY(0.0) biqcurve.setMinimumValueofx(0.1) biqcurve.setMaximumValueofx(1.0) biqcurve.setMinimumValueofy(0.0) biqcurve.setMaximumValueofy(0.0) biqcurve.setMinimumCurveOutput(0.0) biqcurve.setMaximumCurveOutput(1.0) biqcurve.setInputUnitTypeforX("Dimensionless") biqcurve.setInputUnitTypeforY("Temperature") biqcurve.setOutputUnitType("Dimensionless") else raise("#{@hotwaterboiler_curve} is not a valid boiler curve name (condensing_boiler_curve,atmospheric_boiler_curve") end end #boiler reset setpoint manager unless @hotwaterboiler_reset_lowsupplytemp.nil? and @hotwaterboiler_reset_outsidelowsupplytemp.nil? and @hotwaterboiler_reset_highsupplytemp.nil? and @hotwaterboiler_reset_outsidehighsupplytemp.nil? #check if setpoint manager is present at supply outlet #Find any setpoint manager if it exists and outlet node and remove it. iplantloop.supplyOutletNode.setpointManagers.each {|sm| sm.disconnect} #Add new setpoint manager oar_stpt_manager = OpenStudio::Model::SetpointManagerOutdoorAirReset.new(model) oar_stpt_manager.addToNode(iplantloop.supplyOutletNode) oar_stpt_manager.setSetpointatOutdoorHighTemperature(@hw_boiler_reset_lowsupplytemp) unless @hw_boiler_reset_lowsupplytemp.nil? oar_stpt_manager.setOutdoorHighTemperature(@hotwaterboiler_reset_outsidelowsupplytemp) unless @hw_boiler_reset_outsidelowsupplytemp.nil? oar_stpt_manager.setSetpointatOutdoorLowTemperature(@hw_boiler_reset_highsupplytemp) unless @hw_boiler_reset_highsupplytemp.nil? oar_stpt_manager.setOutdoorLowTemperature(@hw_boiler_reset_outsidehighsupplytemp) unless @hw_boiler_reset_outsidehighsupplytemp.nil? end table << boiler.name.get.to_s << "," boiler.designWaterOutletTemperature.empty? ? dowt = "NA" : dowt = boiler.designWaterOutletTemperature.get table << "#{dowt},#{boiler.fuelType},#{boiler.nominalThermalEfficiency}\n" end end end #end boilers loop return table end |
#ecm_id(model) ⇒ Object
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# File 'lib/openstudio-standards/btap/measures.rb', line 635 def ecm_id(model) log = "" measure_values = [ "building_type", "vintage_name", "measure_id" ] self.set_instance_variables( measure_values ) BTAP::FileIO::set_name(model,"#{@building_type}~#{@vintage_name}~#{@measure_id}") puts BTAP::FileIO::get_name(model) return "Changed name to #{BTAP::FileIO::get_name(model)}" end |
#ecm_infiltration(model) ⇒ Object
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# File 'lib/openstudio-standards/btap/measures.rb', line 766 def ecm_infiltration( model ) measure_values = [ "infiltration_design_flow_rate", "infiltration_flow_per_space", "infiltration_flow_per_exterior_area", "infiltration_air_changes_per_hour" ] #Set all the above instance variables to the @csv_data values or, if not set or == 'na', to nil. self.set_instance_variables(measure_values) log = BTAP::Resources::SpaceLoads::ScaleLoads::set_inflitration_magnitude( model, @infiltration_design_flow_rate, @infiltration_flow_per_space, @infiltration_flow_per_exterior_area, @infiltration_air_changes_per_hour ) return log end |
#ecm_lighting(model) ⇒ Object
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# File 'lib/openstudio-standards/btap/measures.rb', line 1331 def ecm_lighting( model ) log = "" #Lighting ECM measure_values =[ "lighting_scaling_factor", "lighting_fraction_radiant", "lighting_fraction_visible", "lighting_return_air_fraction" ] #Set all the above instance variables to the @csv_data values or, if not set or == 'na', to nil. self.set_instance_variables(measure_values) BTAP::Resources::SpaceLoads::ScaleLoads::scale_lighting_loads( model, @lighting_scaling_factor ) unless @lighting_scaling_factor.nil? #Set lighting variables model.getLightsDefinitions.sort.each do |lightsdef| lightsdef.setFractionRadiant(@lighting_fraction_radiant.to_f) lightsdef.setFractionVisible(@lighting_fraction_visible.to_f) lightsdef.setReturnAirFraction(@lighting_return_air_fraction.to_f) end return log end |
#ecm_plugs(model) ⇒ Object
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# File 'lib/openstudio-standards/btap/measures.rb', line 1353 def ecm_plugs( model ) log = "" #Plug loads ECM measure_values = [ "elec_equipment_scaling_factor", "elec_equipment_fraction_radiant", "elec_equipment_fraction_latent", "elec_equipment_fraction_lost" ] #Set all the above instance variables to the @csv_data values or, if not set or == 'na', to nil. self.set_instance_variables(measure_values) BTAP::Resources::SpaceLoads::ScaleLoads::scale_electrical_loads( model, @elec_equipment_scaling_factor) unless @elec_equipment_scaling_factor.nil? #Set plug loads variables model.getElectricEquipmentDefinitions.sort.each do |elec_equip_def| elec_equip_def.setFractionRadiant(@elec_equipment_fraction_radiant.to_f) elec_equip_def.setFractionLatent(@elec_equipment_fraction_latent.to_f) elec_equip_def.setFractionLost(@elec_equipment_fraction_lost.to_f) end CSV.open("#{@script_root_folder_path}/sample_scale_plug_loads_ecm.csv", 'w') { |csv| csv << measure_values.unshift("measure_id") } return log end |
#ecm_pumps(model) ⇒ Object
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# File 'lib/openstudio-standards/btap/measures.rb', line 873 def ecm_pumps( model ) measure_values = [ "pump_motor_eff", "pump_control_type", "pump_speed_type" ] #Set all the above instance variables to the @csv_data values or, if not set or == 'na', to nil. self.set_instance_variables(measure_values) log = "" unless model.getPumpVariableSpeeds.empty? log = "pump_variable_speed_name,@pump_motor_eff\n" model.getPumpVariableSpeeds.sort.each do |pump| pump.setMotorEfficiency( @pump_motor_eff.to_f ) unless @pump_motor_eff.nil? pump.setPumpControlType( @pump_control_type ) unless @pump_control_type.nil? log << pump.name.get.to_s << ",#{pump.motorEfficiency}\n" end end unless model.getPumpConstantSpeeds.empty? log << "pump_variable_speed_name,@pump_motor_eff\n" model.getPumpConstantSpeeds.sort.each do |pump| pump.setMotorEfficiency( @pump_motor_eff.to_f ) unless @pump_motor_eff.nil? pump.setPumpControlType( @pump_control_type ) unless @pump_control_type.nil? log << pump.name.get.to_s << ",#{pump.motorEfficiency}\n" end end #set pump speed type based on existing pump. case @pump_speed_type when "VariableSpeed" model.getPumpConstantSpeeds.sort.each do |pump_const| log << "Found Const Vol Fan #{pump_const.name.get.to_s}" #check that this is indeed connected to an plant loop. unless pump_const.plantLoop.empty? pump_variable = OpenStudio::Model::PumpVariableSpeed.new(model) #pass information from constant speed fan as much as possible. pump_variable.setRatedFlowRate(pump_const.getRatedFlowRate.get) pump_variable.setRatedPumpHead(pump_const.ratedPumpHead()) pump_variable.setRatedPowerConsumption(pump_const.ratedPowerConsumption.to_f) pump_variable.setMotorEfficiency(pump_const.motorEfficiency().to_f) pump_variable.setPumpControlType( pump_const.pumpControlType ) pump_variable.setFractionofMotorInefficienciestoFluidStream(pump_const.fractionofMotorInefficienciestoFluidStream().to_f) pump_variable.autosizeRatedFlowRate if pump_const.isRatedFlowRateAutosized pump_variable.autosizeRatedPowerConsumption if pump_const.isRatedPowerConsumptionAutosized #get the hot water loop. hw_loop = pump_const.plantLoop.get #Remove PumpConstantSpeed pump_const.remove() #add pump_variable.addToNode(hw_loop.supplyInletNode) log << "Replaced by Variable Vol Pump #{pump_variable.name.get.to_s}" end end #end loop PumpConstantSpeeds when "ConstantSpeed" model.getPumpVariableSpeeds.sort.each do |pump| log << "Found Variable Speed Pump #{pump.name.get.to_s}" #check that this is indeed connected to an plant loop. unless pump.plantLoop.empty? new_pump = OpenStudio::Model::PumpVariableSpeed.new(model) #pass information from constant speed fan as much as possible. new_pump.setRatedFlowRate(pump.getRatedFlowRate.get) new_pump.setRatedPumpHead(pump.ratedPumpHead()) new_pump.setRatedPowerConsumption(pump.ratedPowerConsumption.to_f) new_pump.setMotorEfficiency(pump.motorEfficiency().to_f) new_pump.setFractionofMotorInefficienciestoFluidStream(pump.fractionofMotorInefficienciestoFluidStream().to_f) new_pump.setPumpControlType( pump.pumpControlType ) new_pump.autosizeRatedFlowRate if pump.isRatedFlowRateAutosized new_pump.autosizeRatedPowerConsumption if pump.isRatedPowerConsumptionAutosized #get the hot water loop. hw_loop = pump.plantLoop.get #Remove PumpVariableSpeed pump.remove() #add the pump to loop. new_pump.addToNode(hw_loop.supplyInletNode) log << "Replaced by constant speed Pump #{new_pump.name.get.to_s}" end end #end loop Pump variable Speeds when nil log << "No changes" else raise( "pump_speed_type field is not ConstantSpeed or VariableSpeed" ) end #Create sample csv file. CSV.open("#{@script_root_folder_path}/sample_pump_eff_ecm.csv", 'w') { |csv| csv << measure_values.unshift("measure_id") } return log end |
#ecm_sat_reset(model) ⇒ Object
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# File 'lib/openstudio-standards/btap/measures.rb', line 1430 def ecm_sat_reset( model ) log = "" measure_values = [ "sat_reset_enabled", "sat_reset_outdoor_high_temperature", "sat_reset_outdoor_low_temperature", "sat_reset_setpoint_at_outdoor_high_temperature", "sat_reset_setpoint_at_outdoor_low_temperature" ] #Set all the above instance variables to the @csv_data values or, if not set or == 'na', to nil. self.set_instance_variables(measure_values) if @sat_reset_enabled.to_bool == true model.getAirLoopHVACs.sort.each do |iairloop| #check if setpoint manager is present at supply outlet model.getSetpointManagerSingleZoneReheats.sort.each do |manager| if iairloop.supplyOutletNode == manager.setpointNode.get manager.disconnect end end new_set_point_manager = OpenStudio::Model::SetpointManagerOutdoorAirReset.new(model) new_set_point_manager.addToNode(iairloop.supplyOutletNode) new_set_point_manager.setOutdoorHighTemperature(@sat_reset_outdoor_high_temperature) new_set_point_manager.setOutdoorLowTemperature(@sat_reset_outdoor_low_temperature) new_set_point_manager.setSetpointatOutdoorHighTemperature(@sat_reset_setpoint_at_outdoor_high_temperature) new_set_point_manager.setSetpointatOutdoorLowTemperature(@sat_reset_setpoint_at_outdoor_low_temperature) new_set_point_manager.setControlVariable("Temperature") log << "Replaced SingleZoneReheat with OA reset control." end end return log end |
#ecm_sizing(model) ⇒ Object
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# File 'lib/openstudio-standards/btap/measures.rb', line 1024 def ecm_sizing( model) measure_values =[ "heating_sizing_factor", "cooling_sizing_factor", "zone_heating_sizing_factor", "zone_cooling_sizing_factor" ] table = "*Sizing Factor Measure*" #Set all the above instance variables to the @csv_data values or, if not set or == 'na', to nil. self.set_instance_variables(measure_values) table = "handle,heating_sizing_factor,cooling_sizing_factor\n" #Sizing Parameters model.getSizingParameters.setHeatingSizingFactor(@heating_sizing_factor) unless @heating_sizing_factor.nil? model.getSizingParameters.setCoolingSizingFactor(@cooling_sizing_factor) unless @cooling_sizing_factor.nil? #SizingZone table << "handle,zone_heating_sizing_factor,zone_cooling_sizing_factor\n" model.getSizingZones.sort.each do |item| item.setZoneHeatingSizingFactor(@zone_heating_sizing_factor) unless @zone_heating_sizing_factor.nil? item.setZoneCoolingSizingFactor(@zone_cooling_sizing_factor) unless @zone_cooling_sizing_factor.nil? table << "#{item.handle},#{item.zoneHeatingSizingFactor.get},#{item.zoneCoolingSizingFactor.get}\n" end #Create sample csv file. CSV.open("#{@script_root_folder_path}/sample_sizing_param_ecm.csv", 'w') { |csv| csv << measure_values.unshift("measure_id") } return table end |
#ecm_temp_setback(model) ⇒ Object
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# File 'lib/openstudio-standards/btap/measures.rb', line 1465 def ecm_temp_setback( model ) log = "" measure_values = [ "occ_stbck_enabled", "occ_stbck_tolerance", "occ_stbck_heat_setback", "occ_stbck_heat_setpoint", "occ_stbck_cool_setback", "occ_stbck_cool_setpoint" ] #Set all the above instance variables to the @csv_data values or, if not set or == 'na', to nil. self.set_instance_variables(measure_values) # get occupancy schedule if possible. unless @occ_stbck_enabled.nil? or @occ_stbck_enabled == false if model.building.get.defaultScheduleSet.is_initialized and model.building.get.defaultScheduleSet.get.numberofPeopleSchedule.is_initialized and model.building.get.defaultScheduleSet.get.numberofPeopleSchedule.get.to_ScheduleRuleset.is_initialized occupancy_schedule = model.building.get.defaultScheduleSet.get.numberofPeopleSchedule.get heating_schedule,cooling_schedule = BTAP::Resources::Schedules::create_setback_schedule_based_on_another_schedule( model, occupancy_schedule, @occ_stbck_tolerance.to_f, @occ_stbck_heat_setpoint.to_f, @occ_stbck_heat_setback.to_f, @occ_stbck_cool_setpoint.to_f, @occ_stbck_cool_setback.to_f) model.getThermostatSetpointDualSetpoints.sort.each do |dual_setpoint| raise ("Could not set setback heating Schedule") unless dual_setpoint.setHeatingSetpointTemperatureSchedule(heating_schedule) raise ("Could not set setback cooling Schedule") unless dual_setpoint.setCoolingSetpointTemperatureSchedule(cooling_schedule) log << "modified....#{dual_setpoint}" end end else log << "no change to setbacks." end return log end |
#load_base_model_building ⇒ Object
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# File 'lib/openstudio-standards/btap/measures.rb', line 489 def load_base_model_building() = "" measure_values =[ "base_model_rel_path" ] #Set all the above instance variables to the @csv_data values or, if not set or == 'na', to nil. self.set_instance_variables(measure_values) osm_model_full_path = "#{@script_root_folder_path}/#{@base_model_rel_path}" model = BTAP::FileIO::load_osm(osm_model_full_path,"-") << "\nModel rloaded #{osm_model_full_path}.\n" return model end |
#set_hourly_output(model) ⇒ Object
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# File 'lib/openstudio-standards/btap/measures.rb', line 508 def set_hourly_output(model) #create array of output variables strings from E+ output_variable_array = [ "Facility Total Electric Demand Power", "Water Heater Gas Rate", "Plant Supply Side Heating Demand Rate", "Heating Coil Gas Rate", "Cooling Coil Electric Power", "Boiler Gas Rate", "Heating Coil Air Heating Rate", "Heating Coil Electric Power", "Cooling Coil Total Cooling Rate", "Water Heater Heating Rate", # "Facility Total HVAC Electric Demand Power", # "Facility Total Electric Demand Power", "Zone Air Temperature", "Water Heater Electric Power" # "Baseboard Air Inlet Temperature", # "Baseboard Air Outlet Temperature", # "Baseboard Water Inlet Temperature", # "Baseboard Water Outlet Temperature", # "Boiler Inlet Temperature", # "Boiler Outlet Temperature", # "Plant Supply Side Inlet Temperature", # "Plant Supply Side Outlet Temperature", # "People Radiant Heating Rate", # "People Sensible Heating Rate", # "People Latent Gain Rate", # "People Total Heating Rate", # "Lights Total Heating Rate", # "Electric Equipment Total Heating Rate", # "Other Equipment Total Heating Rate", # "District Heating Hot Water Rate", # "District Heating Rate", # "Air System Outdoor Air Flow Fraction", # "Air System Outdoor Air Minimum Flow Fraction", # "Air System Fan Electric Energy" ] BTAP::Reports::set_output_variables(model,"Hourly", output_variable_array) return "added output variables ..." << output_variable_array.to_s << "\n" end |
#set_weather_file(model) ⇒ Object
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# File 'lib/openstudio-standards/btap/measures.rb', line 501 def set_weather_file(model) measure_values =["weather_file_rel_path"] #Set all the above instance variables to the @csv_data values or, if not set or == 'na', to nil. self.set_instance_variables(measure_values) BTAP::Site::set_weather_file(model,"#{@script_root_folder_path}/#{@weather_file_rel_path}") unless @weather_file_rel_path.nil? return "Set weather file to #{@weather_file_rel_path}.\n" end |
#side_load_base_model_building(model) ⇒ Object
loading methods
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# File 'lib/openstudio-standards/btap/measures.rb', line 479 def side_load_base_model_building( model ) = "" measure_values =["base_model_rel_path"] #Set all the above instance variables to the @csv_data values or, if not set or == 'na', to nil. self.set_instance_variables(measure_values) puts osm_model_full_path = "#{@script_root_folder_path}/#{@base_model_rel_path}" newModel = BTAP::FileIO::load_osm(osm_model_full_path,"-") model.swap(newModel) << "\nModel replaced with alternative model #{osm_model_full_path}.\n" end |