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# see the URL below for information on how to write OpenStudio measures
# http://openstudio.nrel.gov/openstudio-measure-writing-guide
# see the URL below for information on using life cycle cost objects in OpenStudio
# http://openstudio.nrel.gov/openstudio-life-cycle-examples
# see the URL below for access to C++ documentation on model objects (click on "model" in the main window to view model objects)
# http://openstudio.nrel.gov/sites/openstudio.nrel.gov/files/nv_data/cpp_documentation_it/model/html/namespaces.html
# load OpenStudio measure libraries from openstudio-extension gem
require 'openstudio-extension'
require 'openstudio/extension/core/os_lib_helper_methods'
require 'openstudio/extension/core/os_lib_lighting_and_equipment'
require 'openstudio/extension/core/os_lib_schedules'
# load OpenStudio measure libraries
require "#{File.dirname(__FILE__)}/resources/OsLib_AedgMeasures"
# start the measure
class AedgSmallToMediumOfficeElectricEquipment < OpenStudio::Measure::ModelMeasure
# define the name that a user will see, this method may be deprecated as
# the display name in PAT comes from the name field in measure.xml
def name
return 'AedgSmallToMediumOfficeElectricEquipment'
end
# define the arguments that the user will input
def arguments(model)
args = OpenStudio::Measure::OSArgumentVector.new
# make an argument for material and installation cost
material_cost_ip = OpenStudio::Measure::OSArgument.makeDoubleArgument('material_cost_ip', true)
material_cost_ip.setDisplayName('Material and Installation Costs for Electric Equipment per Floor Area ($/ft^2).')
material_cost_ip.setDefaultValue(0.0)
args << material_cost_ip
return args
end
# define what happens when the measure is run
def run(model, runner, user_arguments)
super(model, runner, user_arguments)
# use the built-in error checking
if !runner.validateUserArguments(arguments(model), user_arguments)
return false
end
# assign the user inputs to variables
material_cost_ip = runner.getDoubleArgumentValue('material_cost_ip', user_arguments)
# prepare rule hash
rules = [] # target, space type, EPD_ip
# currently only target is lower energy, but setup hash this way so could add baseline in future
# climate zone doesn't impact values for EPD in AEDG
# populate rules hash # todo - find spreadsheet I setup to create multi-space type office and adapt that
rules << ['LowEnergy', 'BreakRoom', 4.46]
rules << ['LowEnergy', 'ClosedOffice', 0.64]
rules << ['LowEnergy', 'Conference', 0.37]
rules << ['LowEnergy', 'Corridor', 0.16]
rules << ['LowEnergy', 'IT_Room', 1.56]
rules << ['LowEnergy', 'Lobby', 0.07]
rules << ['LowEnergy', 'Elec/MechRoom', 0.07]
rules << ['LowEnergy', 'OpenOffice', 0.71]
rules << ['LowEnergy', 'PrintRoom', 2.79]
rules << ['LowEnergy', 'Restroom', 0.07]
rules << ['LowEnergy', 'Stair', 0.0]
rules << ['LowEnergy', 'Storage', 0.0]
rules << ['LowEnergy', 'Vending', 3.85]
# make rule hash for cleaner code
rulesHash = {}
rules.each do |rule|
rulesHash["#{rule[0]} #{rule[1]}"] = rule[2]
end
# calculate building EPD
building = model.getBuilding
initialLpdDisplay = OsLib_HelperMethods.neatConvertWithUnitDisplay(building.electricEquipmentPowerPerFloorArea, 'W/m^2', 'W/ft^2', 1) # can add choices for unit display
# calculate initial EPD to use later
equipmentDefs = model.getElectricEquipmentDefinitions
initialCostForElecEquip = OsLib_HelperMethods.getTotalCostForObjects(equipmentDefs)
# reporting initial condition of model
runner.registerInitialCondition("The building started with an EPD #{initialLpdDisplay}.")
# global variables for costs
expected_life = 25
years_until_costs_start = 0
# loop through space types
model.getSpaceTypes.each do |spaceType|
# skip of not used in model
next if spaceType.spaces.empty?
# confirm recognized spaceType standards information
standardsInfo = OsLib_HelperMethods.getSpaceTypeStandardsInformation([spaceType])
if rulesHash["LowEnergy #{standardsInfo[spaceType][1]}"].nil?
runner.registerInfo("Couldn't map #{spaceType.name} to a recognized space type used in the AEDG. Electric equipment levels for this SpaceType will not be altered.")
next
end
# get target EPD
targetEPD = OpenStudio.convert(rulesHash["LowEnergy #{standardsInfo[spaceType][1]}"], 'W/ft^2', 'W/m^2').to_f
# get initial LPD for space type
initialSpaceTypeLpd = OsLib_LightingAndEquipment.getEpdForSpaceArray(spaceType.spaces)
# harvest any hard assigned schedules along with equipment power of elecEquip. If there is no default the use the largest one of these
oldElecEquip = []
spaceType.electricEquipment.each do |elecEquip|
oldElecEquip << elecEquip
end
# remove equipment associated directly with spaces
spaceElecEquipRemoved = false
spaceElecEquipSchedules = []
spaceType.spaces.each do |space|
equipment = space.electricEquipment
equipment.each do |elecEquip|
oldElecEquip << elecEquip
elecEquip.remove
spaceElecEquipRemoved = true
end
end
# in future versions will use (equipment power)weighted average schedule merge for new schedule
oldScheduleHash = OsLib_LightingAndEquipment.createHashOfInternalLoadWithHardAssignedSchedules(oldElecEquip)
oldElecEquip.size == oldScheduleHash.size ? (defaultUsedAtLeastOnce = false) : (defaultUsedAtLeastOnce = true)
# add new equipment
spaceType.setElectricEquipmentPowerPerFloorArea(targetEPD)
newElecEquip = spaceType.electricEquipment[0]
newElecEquipDef = newElecEquip.electricEquipmentDefinition
newElecEquipDef.setName("AEDG SmMdOff - #{standardsInfo[spaceType][1]} electric equipment")
# add cost to equipment
lcc_equipment = OpenStudio::Model::LifeCycleCost.createLifeCycleCost("lcc_#{newElecEquipDef.name}", newElecEquipDef, material_cost_ip, 'CostPerArea', 'Construction', expected_life, years_until_costs_start)
# report change
if !spaceType.electricEquipmentPowerPerFloorArea.empty?
oldLpdDisplay = OsLib_HelperMethods.neatConvertWithUnitDisplay(initialSpaceTypeLpd, 'W/m^2', 'W/ft^2', 1)
newLpdDisplay = OsLib_HelperMethods.neatConvertWithUnitDisplay(spaceType.electricEquipmentPowerPerFloorArea.get, 'W/m^2', 'W/ft^2', 1) # can add choices for unit display
runner.registerInfo("Changing EPD of #{spaceType.name} space type to #{newLpdDisplay} from #{oldLpdDisplay}")
else
runner.registerInfo("For some reason no EPD was set for #{spaceType.name} space type.")
end
if spaceElecEquipRemoved
runner.registerInfo("One more more electric equipment objects directly assigned to spaces using #{spaceType.name} were removed. This is to limit EPD to what is added by this measure.")
end
# adjust schedules as necessary only hard assign if the default schedule was never used
if (defaultUsedAtLeastOnce == false) && !oldElecEquip.empty?
# retrieve hard assigned schedule
newElecEquip.setSchedule(oldScheduleHash.sort.reverse[0][0]) # todo - see why this is failing. Need to spend some time looking through this closely, maybe
else
if newElecEquip.schedule.empty?
runner.registerWarning("Didn't find an inherited or hard assigned schedule for equipment in #{spaceType.name} or underlying spaces. Please add a schedule before running a simulation.")
end
end
end
# warn if some spaces didn't have equipment altered at all (this would apply to spaces with space types not mapped)
model.getSpaces.each do |space|
next if !space.spaceType.empty?
runner.registerWarning("#{space.name} doesn't have a space type. Couldn't identify target EPD without a space type. EPD was not altered.")
end
# populate AEDG tip keys
aedgTips = []
aedgTips.push('PL01', 'PL02', 'PL04', 'PL05', 'PL06')
# populate how to tip messages
aedgTipsLong = OsLib_AedgMeasures.getLongHowToTips('SmMdOff', aedgTips.uniq.sort, runner)
if !aedgTipsLong
return false # this should only happen if measure writer passes bad values to getLongHowToTips
end
# calculate final building EPD
building = model.getBuilding
finalLpdDisplay = OsLib_HelperMethods.neatConvertWithUnitDisplay(building.electricEquipmentPowerPerFloorArea, 'W/m^2', 'W/ft^2', 1) # can add choices for unit display
# calculate final EPD to use later
equipmentDefs = model.getElectricEquipmentDefinitions
finalCostForElecEquip = OsLib_HelperMethods.getTotalCostForObjects(equipmentDefs)
# change in cost
costRelatedToMeasure = finalCostForElecEquip - initialCostForElecEquip
costRelatedToMeasureDisplay = OsLib_HelperMethods.neatConvertWithUnitDisplay(costRelatedToMeasure, '$', '$', 0, true, false, false, false) # bools (prefix,suffix,space,parentheses)
# reporting final condition of model
if costRelatedToMeasure > 0
runner.registerFinalCondition("The resulting building has an EPD #{finalLpdDisplay}. Initial capital cost related to this measure is #{costRelatedToMeasureDisplay}. #{aedgTipsLong}")
else
runner.registerFinalCondition("The resulting building has an EPD #{finalLpdDisplay}. #{aedgTipsLong}")
end
return true
end
end
# this allows the measure to be use by the application
AedgSmallToMediumOfficeElectricEquipment.new.registerWithApplication