Class: WaterHeaterMixedPercentChange

Inherits:
OpenStudio::Measure::ModelMeasure
  • Object
show all
Defined in:
lib/measures/WaterHeaterMixedPercentChange/measure.rb

Overview

start the measure

Instance Method Summary collapse

Instance Method Details

#arguments(model) ⇒ Object

define the arguments that the user will input



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# File 'lib/measures/WaterHeaterMixedPercentChange/measure.rb', line 39

def arguments(model)
  args = OpenStudio::Measure::OSArgumentVector.new

  # make a choice argument for model objects
  water_heater_handles = OpenStudio::StringVector.new
  water_heater_display_names = OpenStudio::StringVector.new

  # putting model object and names into hash
  water_heater_args = model.getWaterHeaterMixeds
  water_heater_args.each do |water_heater_arg|
    water_heater_handles << water_heater_arg.handle.to_s
    water_heater_display_names << water_heater_arg.name.to_s
  end

  # add building to string vector with space type
  building = model.getBuilding
  water_heater_handles << building.handle.to_s
  water_heater_display_names << '*All WaterHeaterMixeds*'
  water_heater_handles << '0'
  water_heater_display_names << '*None*'

  # make a choice argument for space type
  water_heater = OpenStudio::Measure::OSArgument.makeChoiceArgument('water_heater', water_heater_handles, water_heater_display_names)
  water_heater.setDisplayName('Apply the Measure to a SINGLE WaterHeaterMixed, ALL the WaterHeaterMixeds or NONE.')
  water_heater.setDefaultValue('*All WaterHeaterMixeds*') # if no space type is chosen this will run on the entire building
  args << water_heater

  # maximum_capacity_multiplier
  maximum_capacity_multiplier = OpenStudio::Measure::OSArgument.makeDoubleArgument('maximum_capacity_multiplier', true)
  maximum_capacity_multiplier.setDisplayName('Percent Change for Heater Maximum Capacity.')
  maximum_capacity_multiplier.setDescription('Percent Change for Heater Maximum Capacity.')
  maximum_capacity_multiplier.setDefaultValue(0.0)
  maximum_capacity_multiplier.setMinValue(0.0)
  args << maximum_capacity_multiplier

  # minimum_capacity_multiplier
  minimum_capacity_multiplier = OpenStudio::Measure::OSArgument.makeDoubleArgument('minimum_capacity_multiplier', true)
  minimum_capacity_multiplier.setDisplayName('Percent Change for Heater Minimum Capacity.')
  minimum_capacity_multiplier.setDescription('Percent Change for Heater Minimum Capacity.')
  minimum_capacity_multiplier.setDefaultValue(0.0)
  args << minimum_capacity_multiplier

  # thermal_efficiency_multiplier
  thermal_efficiency_multiplier = OpenStudio::Measure::OSArgument.makeDoubleArgument('thermal_efficiency_multiplier', true)
  thermal_efficiency_multiplier.setDisplayName('Percent Change for Thermal Efficiency.')
  thermal_efficiency_multiplier.setDescription('Percent Change for Thermal Efficiency.')
  thermal_efficiency_multiplier.setDefaultValue(0.0)
  args << thermal_efficiency_multiplier

  # make a choice argument for fuel type
  fuel_type = OpenStudio::StringVector.new
  fuel_type << 'NaturalGas'
  fuel_type << 'Electricity'
  fuel_type << 'PropaneGas'

  # heater_fuel_type
  heater_fuel_type = OpenStudio::Measure::OSArgument.makeChoiceArgument('fuel_type', fuel_type, fuel_type)
  heater_fuel_type.setDisplayName('Heater Fuel Type.')
  heater_fuel_type.setDescription('Heater Fuel Type.')
  heater_fuel_type.setDefaultValue('NaturalGas')
  args << heater_fuel_type

  args
end

#change_name(object, maximum_capacity_multiplier, minimum_capacity_multiplier, thermal_efficiency_multiplier, fuel_type, orig_fuel_type) ⇒ Object



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# File 'lib/measures/WaterHeaterMixedPercentChange/measure.rb', line 23

def change_name(object, maximum_capacity_multiplier, minimum_capacity_multiplier, thermal_efficiency_multiplier, fuel_type, orig_fuel_type)
  nameString = object.name.get.to_s
  if maximum_capacity_multiplier != 0.0
    nameString += " #{maximum_capacity_multiplier.round(2)}x maxCap"
  end
  if minimum_capacity_multiplier != 0.0
    nameString += " #{minimum_capacity_multiplier.round(2)}x minCap"
  end
  if thermal_efficiency_multiplier != 0.0
    nameString += " #{thermal_efficiency_multiplier.round(2)}x thermEff"
  end
  nameString += " #{fuel_type} fuel Change" if orig_fuel_type != fuel_type
  object.setName(nameString)
end

#descriptionObject

human readable description



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# File 'lib/measures/WaterHeaterMixedPercentChange/measure.rb', line 14

def description
  'This is a general purpose measure to calibrate WaterHeaterMixed with a Percent Change.'
end

#modeler_descriptionObject

human readable description of modeling approach



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# File 'lib/measures/WaterHeaterMixedPercentChange/measure.rb', line 19

def modeler_description
  'It will be used for calibration of WaterHeaterMixed. User can choose between a SINGLE WaterHeaterMixed or ALL the WaterHeaterMixed objects.'
end

#nameObject

human readable name



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# File 'lib/measures/WaterHeaterMixedPercentChange/measure.rb', line 9

def name
  'Water Heater Mixed Percent Change'
end

#run(model, runner, user_arguments) ⇒ Object

define what happens when the measure is run



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# File 'lib/measures/WaterHeaterMixedPercentChange/measure.rb', line 105

def run(model, runner, user_arguments)
  super(model, runner, user_arguments)

  # use the built-in error checking
  unless runner.validateUserArguments(arguments(model), user_arguments)
    return false
  end

  # assign the user inputs to variables
  water_heater_object = runner.getOptionalWorkspaceObjectChoiceValue('water_heater', user_arguments, model)
  water_heater_handle = runner.getStringArgumentValue('water_heater', user_arguments)
  fuel_type = runner.getStringArgumentValue('fuel_type', user_arguments)
  thermal_efficiency_multiplier = runner.getDoubleArgumentValue('thermal_efficiency_multiplier', user_arguments)
  maximum_capacity_multiplier = runner.getDoubleArgumentValue('maximum_capacity_multiplier', user_arguments)
  minimum_capacity_multiplier = runner.getDoubleArgumentValue('minimum_capacity_multiplier', user_arguments)

  # find objects to change
  water_heaters = []
  building = model.getBuilding
  building_handle = building.handle.to_s
  runner.registerInfo("water_heater_handle: #{water_heater_handle}")
  # setup water_heaters
  if water_heater_handle == building_handle
    # Use ALL SpaceTypes
    runner.registerInfo('Applying change to ALL SpaceTypes')
    water_heaters = model.getWaterHeaterMixeds
  elsif water_heater_handle == 0.to_s
    # SpaceTypes set to NONE so do nothing
    runner.registerInfo('Applying change to NONE SpaceTypes')
  elsif !water_heater_handle.empty?
    # Single WaterHeaterMixed handle found, check if object is good
    if !water_heater_object.get.to_WaterHeaterMixed.empty?
      runner.registerInfo("Applying change to #{water_heater_object.get.name} WaterHeaterMixed")
      water_heaters << water_heater_object.get.to_WaterHeaterMixed.get
    else
      runner.registerError("WaterHeaterMixed with handle #{water_heater_handle} could not be found.")
    end
  else
    runner.registerError('WaterHeaterMixed handle is empty.')
    return false
  end

  altered_heaters = []
  altered_thermalefficiency = []
  altered_max_cap = []
  altered_min_cap = []

  # report initial condition of model
  runner.registerInitialCondition("Applying Percent Change to #{water_heaters.size} Water Heaters.")

  # loop through space types
  water_heaters.each do |water_heater|
    altered_heater = false
    # modify maximum_capacity_multiplier
    if maximum_capacity_multiplier != 0.0 && water_heater.heaterMaximumCapacity.is_initialized
      runner.registerInfo("Applying #{maximum_capacity_multiplier}x maximum capacity Percent Change to #{water_heater.name.get}.")
      water_heater.setHeaterMaximumCapacity(water_heater.heaterMaximumCapacity.get + water_heater.heaterMaximumCapacity.get * maximum_capacity_multiplier * 0.01)
      altered_max_cap << water_heater.handle.to_s
      altered_heater = true
    end

    # modify minimum_capacity_multiplier
    if minimum_capacity_multiplier != 0.0 && water_heater.heaterMinimumCapacity.is_initialized
      runner.registerInfo("Applying #{minimum_capacity_multiplier}x minimum capacity Percent Change to #{water_heater.name.get}.")
      water_heater.setHeaterMaximumCapacity(water_heater.heaterMinimumCapacity.get + water_heater.heaterMinimumCapacity.get * minimum_capacity_multiplier * 0.01)
      altered_min_cap << water_heater.handle.to_s
      altered_heater = true
    end

    # modify thermal_efficiency_multiplier
    if thermal_efficiency_multiplier != 0.0 && water_heater.heaterThermalEfficiency.is_initialized
      runner.registerInfo("Applying #{thermal_efficiency_multiplier}x thermal efficiency Percent Change to #{water_heater.name.get}.")
      water_heater.setHeaterThermalEfficiency(water_heater.heaterThermalEfficiency.get + water_heater.heaterThermalEfficiency.get * thermal_efficiency_multiplier * 0.01)
      altered_thermalefficiency << water_heater.handle.to_s
      altered_heater = true
    end

    orig_fuel_type = water_heater.heaterFuelType
    if orig_fuel_type != fuel_type
      runner.registerInfo("Changing Fuel Type to #{fuel_type} for #{water_heater.name.get}.")
      water_heater.setHeaterFuelType(fuel_type)
      altered_heater = true
    end

    next unless altered_heater

    altered_heaters << water_heater.handle.to_s
    change_name(water_heater, maximum_capacity_multiplier, minimum_capacity_multiplier, thermal_efficiency_multiplier, fuel_type, orig_fuel_type)
    runner.registerInfo("WaterHeater name changed to: #{water_heater.name.get}")
  end

  # na if nothing in model to look at
  if altered_heaters.empty?
    runner.registerAsNotApplicable('No WaterHeaters were altered in the model')
    return true
  end

  # report final condition of model
  runner.registerFinalCondition("#{altered_heaters.size} WaterHeater objects were altered.")

  true
end