modifications done to the xml file and north_america_energy_system_catalog.py
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@ -14,7 +14,7 @@ from hub.catalog_factories.data_models.energy_systems.content import Content
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from hub.catalog_factories.data_models.energy_systems.generation_system import GenerationSystem
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from hub.catalog_factories.data_models.energy_systems.pv_generation_system import PvGenerationSystem
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from hub.catalog_factories.data_models.energy_systems.distribution_system import DistributionSystem
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from hub.catalog_factories.data_models.energy_systems.emission_system import EnergyEmissionSystem
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from hub.catalog_factories.data_models.energy_systems.emission_system import EmissionSystem
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from hub.catalog_factories.data_models.energy_systems.energy_storage_system import EnergyStorageSystem
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from hub.catalog_factories.data_models.energy_systems.performance_curves import PerformanceCurves
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from hub.catalog_factories.data_models.energy_systems.archetype import Archetype
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@ -29,11 +29,11 @@ class NorthAmericaEnergySystemCatalog(Catalog):
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"""
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def __init__(self, path):
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path = str(path / 'north_america_components.xml')
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path = str(path / 'north_america_systems.xml')
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with open(path, 'r', encoding='utf-8') as xml:
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self._archetypes = xmltodict.parse(xml.read(), force_list=['photovoltaicModules'])
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self._generation_components = self._load_generation_components()
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print(self._generation_components)
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# self._generation_components = self._load_generation_components()
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# print(self._generation_components)
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self._storage_components = self._load_storage_components()
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print(self._storage_components)
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self._systems = self._load_systems()
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@ -64,122 +64,126 @@ class NorthAmericaEnergySystemCatalog(Catalog):
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# return system_configurations
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def _load_generation_components(self):
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generation_components = []
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boilers = self._archetypes['encomp:EnergySystemCatalog']['energycomponent']['boilers']
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heat_pumps = self._archetypes['encomp:EnergySystemCatalog']['energycomponent']['heatPumps']
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photovoltaics = self._archetypes['encomp:EnergySystemCatalog']['energycomponent']['photovoltaicModules']
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for boiler in boilers:
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boiler_model_name = boiler['@modelName']
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boiler_manufacturer = boiler['@manufacturer']
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system_type = 'boiler'
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boiler_fuel_type = boiler['@fuel']
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boiler_nominal_thermal_output = float(boiler['@installedThermalPower'])
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boiler_modulation_range = float(boiler['@modulationRange'])
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boiler_heat_efficiency = float(boiler['@nominalEfficiency'])
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boiler_component = GenerationSystem(boiler_model_name,
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boiler_manufacturer,
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system_type,
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boiler_fuel_type,
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boiler_nominal_thermal_output,
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boiler_modulation_range,
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None,
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None,
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boiler_heat_efficiency,
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None,
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None,
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None,
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None,
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None,
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None,
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None,
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None,
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None)
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generation_components.append(boiler_component)
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for heat_pump in heat_pumps:
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heat_pump_model_name = heat_pump['@modelName']
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heat_pump_manufacturer = heat_pump['@manufacturer']
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system_type = 'heat pump'
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heat_pump_fuel_type = heat_pump['@fuel']
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heat_pump_nominal_thermal_output = float(heat_pump['@installedThermalPower'])
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heat_pump_modulation_range = float(heat_pump['@modulationRange'])
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heat_pump_source_type = heat_pump['@heatSource']
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heat_pump_supply_medium = heat_pump['@supply_medium']
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heat_pump_nominal_cop = float(heat_pump['@nominalCOP'])
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heat_pump_maximum_heating_temperature = float(heat_pump['@maxHeatingSupTemperature'])
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heat_pump_minimum_heating_temperature = float(heat_pump['@minHeatingSupTemperature'])
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heat_pump_maximum_cooling_temperature = float(heat_pump['@maxCoolingSupTemperature'])
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heat_pump_minimum_cooling_temperature = float(heat_pump['@minCoolingSupTemperature'])
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heat_pump_component = GenerationSystem(heat_pump_model_name,
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heat_pump_manufacturer,
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system_type,
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heat_pump_fuel_type,
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heat_pump_nominal_thermal_output,
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heat_pump_modulation_range,
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heat_pump_source_type,
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heat_pump_supply_medium,
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heat_pump_nominal_cop,
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None,
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None,
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None,
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None,
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None,
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heat_pump_maximum_heating_temperature,
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heat_pump_minimum_heating_temperature,
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heat_pump_maximum_cooling_temperature,
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heat_pump_minimum_cooling_temperature)
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generation_components.append(heat_pump_component)
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for pv in photovoltaics:
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nominal_ambient_temperature = float(pv['@nominalAmbientTemperature'])
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nominal_cell_temperature = float(pv['@nominalCellTemperature'])
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nominal_radiation = float(pv['@nominalRadiation'])
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standard_test_condition_cell_temperature = float(pv['@STCCellTemperature'])
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standard_test_condition_maximum_power = float(pv['@STCMaxPower'])
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cell_temperature_coefficient = float(pv['@CellTemperatureCoefficient'])
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width = float(pv['@width'])
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height = float(pv['@height'])
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pv_model_name = pv['@modelName']
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pv_manufacturer = pv['@manufacturer']
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pv_electricity_efficiency = pv['@nominalEfficiency']
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pv_nominal_electricity_output = pv['@nominalPower']
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pv_component = PvGenerationSystem(nominal_ambient_temperature,
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nominal_cell_temperature,
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nominal_radiation,
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standard_test_condition_cell_temperature,
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standard_test_condition_maximum_power,
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cell_temperature_coefficient,
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width,
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height,
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pv_model_name,
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pv_manufacturer,
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pv_electricity_efficiency,
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pv_nominal_electricity_output)
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generation_components.append(pv_component)
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return generation_components
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# def _load_generation_components(self):
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# generation_components = []
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# boilers = self._archetypes['encomp:EnergySystemCatalog']['energycomponent']['boilers']
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# heat_pumps = self._archetypes['encomp:EnergySystemCatalog']['energycomponent']['heatPumps']
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# photovoltaics = self._archetypes['encomp:EnergySystemCatalog']['energycomponent']['photovoltaicModules']
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# for boiler in boilers:
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# boiler_model_name = boiler['@modelName']
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# boiler_manufacturer = boiler['@manufacturer']
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# system_type = 'boiler'
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# boiler_fuel_type = boiler['@fuel']
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# boiler_nominal_thermal_output = float(boiler['@installedThermalPower'])
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# boiler_modulation_range = float(boiler['@modulationRange'])
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# boiler_heat_efficiency = float(boiler['@nominalEfficiency'])
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#
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# boiler_component = GenerationSystem(boiler_model_name,
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# boiler_manufacturer,
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# system_type,
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# boiler_fuel_type,
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# boiler_nominal_thermal_output,
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# boiler_modulation_range,
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# None,
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# None,
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# boiler_heat_efficiency,
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# None,
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# None,
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# None,
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# None,
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# None,
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# None,
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# None,
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# None,
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# None)
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# generation_components.append(boiler_component)
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# for heat_pump in heat_pumps:
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# heat_pump_model_name = heat_pump['@modelName']
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# heat_pump_manufacturer = heat_pump['@manufacturer']
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# system_type = 'heat pump'
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# heat_pump_fuel_type = heat_pump['@fuel']
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# heat_pump_nominal_thermal_output = float(heat_pump['@installedThermalPower'])
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# heat_pump_modulation_range = float(heat_pump['@modulationRange'])
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# heat_pump_source_type = heat_pump['@heatSource']
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# heat_pump_supply_medium = heat_pump['@supply_medium']
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# heat_pump_nominal_cop = float(heat_pump['@nominalCOP'])
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# heat_pump_maximum_heating_temperature = float(heat_pump['@maxHeatingSupTemperature'])
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# heat_pump_minimum_heating_temperature = float(heat_pump['@minHeatingSupTemperature'])
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# heat_pump_maximum_cooling_temperature = float(heat_pump['@maxCoolingSupTemperature'])
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# heat_pump_minimum_cooling_temperature = float(heat_pump['@minCoolingSupTemperature'])
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#
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# heat_pump_component = GenerationSystem(heat_pump_model_name,
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# heat_pump_manufacturer,
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# system_type,
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# heat_pump_fuel_type,
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# heat_pump_nominal_thermal_output,
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# heat_pump_modulation_range,
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# heat_pump_source_type,
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# heat_pump_supply_medium,
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# heat_pump_nominal_cop,
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# None,
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# None,
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# None,
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# None,
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# None,
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# heat_pump_maximum_heating_temperature,
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# heat_pump_minimum_heating_temperature,
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# heat_pump_maximum_cooling_temperature,
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# heat_pump_minimum_cooling_temperature)
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# generation_components.append(heat_pump_component)
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# for pv in photovoltaics:
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# nominal_ambient_temperature = float(pv['@nominalAmbientTemperature'])
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# nominal_cell_temperature = float(pv['@nominalCellTemperature'])
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# nominal_radiation = float(pv['@nominalRadiation'])
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# standard_test_condition_cell_temperature = float(pv['@STCCellTemperature'])
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# standard_test_condition_maximum_power = float(pv['@STCMaxPower'])
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# cell_temperature_coefficient = float(pv['@CellTemperatureCoefficient'])
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# width = float(pv['@width'])
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# height = float(pv['@height'])
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# pv_model_name = pv['@modelName']
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# pv_manufacturer = pv['@manufacturer']
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# pv_electricity_efficiency = pv['@nominalEfficiency']
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# pv_nominal_electricity_output = pv['@nominalPower']
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# pv_component = PvGenerationSystem(nominal_ambient_temperature,
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# nominal_cell_temperature,
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# nominal_radiation,
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# standard_test_condition_cell_temperature,
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# standard_test_condition_maximum_power,
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# cell_temperature_coefficient,
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# width,
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# height,
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# pv_model_name,
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# pv_manufacturer,
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# pv_electricity_efficiency,
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# pv_nominal_electricity_output)
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# generation_components.append(pv_component)
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# return generation_components
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def _load_storage_components(self):
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storage_components = []
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components = self._archetypes['encomp:EnergySystemCatalog']['energycomponent']['thermalStorages']
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for component in components:
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model_name = component['@modelName']
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manufacturer = component['@manufacturer']
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volume = component['@volume']
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height = component['@height']
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maximum_operating_temperature = component['@maxTemp']
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thermal_storages = self._archetypes['EnergySystemCatalog']['energy_storage_components']['thermalStorages']
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for tes in thermal_storages:
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storage_id = tes['@storage_id']
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name = tes['@name']
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model_name = tes['@modelName']
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manufacturer = tes['@manufacturer']
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volume = tes['@volume']
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height = tes['@height']
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maximum_operating_temperature = tes['@maxTemp']
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materials = self._load_materials()
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material_name = component['@insulationMaterial']
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insulation_material = self._search_material(materials, material_name)
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material_name = component['@tankMaterial']
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insulation_material_name = tes['@insulationMaterial']
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insulation_material = self._search_material(materials, insulation_material_name)
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material_name = tes['@tankMaterial']
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tank_material = self._search_material(materials, material_name)
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thickness = float(component['@insulationThickness']) / 100 # from cm to m
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thickness = float(tes['@insulationThickness']) / 100 # from cm to m
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insulation_layer = Layer(None, 'insulation', insulation_material, thickness)
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thickness = float(component['@tankThickness']) / 100 # from cm to m
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thickness = float(tes['@tankThickness']) / 100 # from cm to m
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tank_layer = Layer(None, 'insulation', tank_material, thickness)
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# the convention is from outside to inside
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layers = [insulation_layer, tank_layer]
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storage_component = EnergyStorageSystem(model_name,
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storage_component = EnergyStorageSystem(storage_id,
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name,
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model_name,
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manufacturer,
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'thermal',
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volume,
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@ -194,32 +198,32 @@ class NorthAmericaEnergySystemCatalog(Catalog):
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storage_components.append(storage_component)
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return storage_components
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def _load_systems(self):
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systems = []
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catalog_systems = self._archetypes['encomp:EnergySystemCatalog']['energysystemconfiguration']
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for catalog_system in catalog_systems:
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system_configuration = catalog_system['@configurationName']
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demands = catalog_system['demands']
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demand_types = []
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for demand in demands:
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name = demand['@name']
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demand_types.append(name)
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energy_system = System(None,
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None,
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system_configuration,
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demand_types,
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None,
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None,
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None,
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None,
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None,
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None)
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systems.append(energy_system)
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return systems
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# def _load_systems(self):
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# systems = []
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# catalog_systems = self._archetypes['encomp:EnergySystemCatalog']['energysystemconfiguration']
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# for catalog_system in catalog_systems:
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# system_configuration = catalog_system['@configurationName']
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# demands = catalog_system['demands']
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# demand_types = []
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# for demand in demands:
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# name = demand['@name']
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# demand_types.append(name)
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# energy_system = System(None,
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# None,
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# system_configuration,
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# demand_types,
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# None,
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# None,
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# None,
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# None,
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# None,
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# None)
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# systems.append(energy_system)
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# return systems
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def _load_materials(self):
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materials = []
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_materials = self._archetypes['encomp:EnergySystemCatalog']['energycomponent']['materials']
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_materials = self._archetypes['EnergySystemCatalog']['materials']['material']
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for _material in _materials:
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name = _material['@name']
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thermal_conductivity = _material['@thermalConductivity']
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@ -1,74 +0,0 @@
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<?xml version="1.0" encoding="UTF-8"?>
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<EnergySystemComponentCatalog>
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<medias>
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<media media_id="1" media_name="Water" density="981.0" heatCapacity="4180.0" evaporationTemperature="100.0"/>
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</medias>
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<energy_generation_components>
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<boilers generation_id="1" name="Natural-Gas Boiler" modelName="ALP080B" manufacturer="Alpine" installedThermalPower="21.0" modulationRange="0.88" nominalEfficiency="0.95" combi="true" fuel="natural gas"/>
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<boilers generation_id="2" name="Natural-Gas Boiler" modelName="ALP105B" manufacturer="Alpine" installedThermalPower="28.0" modulationRange="0.88" nominalEfficiency="0.95" combi="true" fuel="natural gas"/>
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<boilers generation_id="3" name="Natural-Gas Boiler" modelName="ALP150B" manufacturer="Alpine" installedThermalPower="40.0" modulationRange="0.88" nominalEfficiency="0.95" combi="true" fuel="natural gas"/>
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<boilers generation_id="4" name="Natural-Gas Boiler" modelName="ALP210B" manufacturer="Alpine" installedThermalPower="57.0" modulationRange="0.87" nominalEfficiency="0.95" combi="true" fuel="natural gas"/>
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<boilers generation_id="5" name="Natural-Gas Boiler" modelName="ALTAC-136" manufacturer="Alta" installedThermalPower="33.0" modulationRange="0.95" nominalEfficiency="0.95" combi="true" fuel="natural gas"/>
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<boilers generation_id="6" name="Natural-Gas Boiler" modelName="ALTA-120" manufacturer="Alta" installedThermalPower="33.0" modulationRange="0.95" nominalEfficiency="0.95" combi="true" fuel="natural gas"/>
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<boilers generation_id="7" name="Natural-Gas Boiler" modelName="ASPN-085" manufacturer="Aspen" installedThermalPower="23.15" modulationRange="0.97" nominalEfficiency="0.96" fuel="natural gas"/>
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<boilers generation_id="8" name="Natural-Gas Boiler" modelName="ASPN-110" manufacturer="Aspen" installedThermalPower="30.19" modulationRange="0.96" nominalEfficiency="0.96" fuel="natural gas"/>
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<boilers generation_id="9" name="Natural-Gas Boiler" modelName="ASPNC-155" manufacturer="Aspen" installedThermalPower="42.5" modulationRange="0.96" nominalEfficiency="0.95" combi="true" fuel="natural gas"/>
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<boilers generation_id="10" name="Natural-Gas Boiler" modelName="K2WTC-135B" manufacturer="K2" installedThermalPower="32.8" modulationRange="0.96" nominalEfficiency="0.95" combi="true" fuel="natural gas"/>
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<boilers generation_id="11" name="Natural-Gas Boiler" modelName="K2WTC-180B" manufacturer="K2" installedThermalPower="49.5" modulationRange="0.96" nominalEfficiency="0.95" combi="true" fuel="natural gas"/>
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<photovoltaicModules generation_id="12" name="Photovoltaic Module" modelName="445MS" manufacturer="Canadian Solar" nominalPower="334.0" nominalEfficiency="0.201" nominalRadiation="800.0" STCRadiation="1000.0" nominalCellTemperature="41.0" STCCellTemperature="26.0" nominalAmbientTemperature="20.0" STCMaxPower="445.0" CellTemperatureCoefficient="-0.0034" height="1.048" wgeneration_idth="2.01"/>
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<heatPumps generation_id="13" name="Air-to-Water Heat Pump" modelName="CMAA 012" description="A second degree equation is used in form of A*T_source^2 + B*T_source + C*T_source*T_sup + D*T_sup + E*T_sup^2 + F" manufacturer="TRANE" installedThermalPower="51.7" modulationRange="0.0" fuel="Electricity" heatSource="Air" nominalCOP="3.32" maxHeatingSupTemperature="55.0" minHeatingSupTemperature="6.0" maxCoolingSupTemperature="30.0" minCoolingSupTemperature="11.0" supply_medium="water">
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<coefficientOfPerformance xsi:type="encomp:SecondDegreePolynomialFunction" parameter="COP" parameterA="9.5E-4" parameterB="0.177" parameterC="-0.00242" parameterD="-0.155" parameterE="9.3E-4" parameterF="8.044"/>
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</heatPumps>
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<heatPumps generation_id="14" name="Air-to-Water Heat Pump" modelName="CMAA 70" description="A second degree equation is used in form of A*T_source^2 + B*T_source + C*T_source*T_sup + D*T_sup + E*T_sup^2 + F" manufacturer="TRANE" installedThermalPower="279.3" modulationRange="0.0" fuel="Electricity" heatSource="Air" nominalCOP="3.07" maxHeatingSupTemperature="55.0" minHeatingSupTemperature="6.0" maxCoolingSupTemperature="30.0" minCoolingSupTemperature="11.0" supply_medium="water">
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<coefficientOfPerformance xsi:type="encomp:SecondDegreePolynomialFunction" parameter="COP" parameterA="0.0011" parameterB="0.207" parameterC="-0.00292" parameterD="-0.187" parameterE="0.00121" parameterF="8.95"/>
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</heatPumps>
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<heatPumps generation_id="15" name="Air-to-Water Heat Pump" modelName="CMAA 140" description="A second degree equation is used in form of A*T_source^2 + B*T_source + C*T_source*T_sup + D*T_sup + E*T_sup^2 + F" manufacturer="TRANE" installedThermalPower="279.3" modulationRange="0.0" fuel="Electricity" heatSource="Air" nominalCOP="3.46" maxHeatingSupTemperature="55.0" minHeatingSupTemperature="6.0" maxCoolingSupTemperature="30.0" minCoolingSupTemperature="11.0" supply_medium="water">
|
||||
<coefficientOfPerformance xsi:type="encomp:SecondDegreePolynomialFunction" parameter="COP" parameterA="0.00109" parameterB="0.209" parameterC="-0.00291" parameterD="-0.172" parameterE="0.00102" parameterF="8.95"/>
|
||||
</heatPumps>
|
||||
<manufacturers manufacturer_id="1" name="Alpine" country="USA" product="Natural Gas Boiler"/>
|
||||
<manufacturers manufacturer_id="2" name="Alta" country="USA" product="Natural Gas Boiler"/>
|
||||
<manufacturers manufacturer_id="3" name="Aspen" country="USA" product="Natural Gas Boiler"/>
|
||||
<manufacturers manufacturer_id="4" name="K2" country="USA" product="Natural Gas Boiler"/>
|
||||
<manufacturers manufacturer_id="5" name="TRANE" product="Air-to-Water Heat Pump"/>
|
||||
<manufacturers manufacturer_id="6" name="Canadian Solar" country="Canada" product="Photovoltaic Module"/>
|
||||
</energy_generation_components>
|
||||
<energy_storage_components>
|
||||
<thermalStorages storage_id="1" name="Hot Water Storage Tank" modelName="HF 200" manufacturer="reflex" volume="0.5" maxTemp="95.0" insulationThickness="90.0" tankThickness="0" usesMedium="Water" insulationMaterial="Polyurethane" height="1.5" tankMaterial="Steel"/>
|
||||
<thermalStorages storage_id="2" name="Hot Water Storage Tank" modelName="HF 300" manufacturer="reflex" volume="0.6" maxTemp="95.0" insulationThickness="90.0" tankThickness="0" usesMedium="Water" insulationMaterial="Polyurethane" height="1.3" tankMaterial="Steel"/>
|
||||
<thermalStorages storage_id="3" name="Hot Water Storage Tank" modelName="HF 500" manufacturer="reflex" volume="0.5" maxTemp="95.0" insulationThickness="90.0" tankThickness="0" usesMedium="Water" insulationMaterial="Polyurethane" height="1.5" tankMaterial="Steel"/>
|
||||
<thermalStorages storage_id="4" name="Hot Water Storage Tank" modelName="HF 200" manufacturer="reflex" volume="0.5" maxTemp="95.0" insulationThickness="90.0" tankThickness="0" usesMedium="Water" insulationMaterial="Polyurethane" height="1.5" tankMaterial="Steel"/>
|
||||
<thermalStorages storage_id="5" name="Hot Water Storage Tank" modelName="HF 200" manufacturer="reflex" volume="0.5" maxTemp="95.0" insulationThickness="90.0" tankThickness="0" usesMedium="Water" insulationMaterial="Polyurethane" height="1.5" tankMaterial="Steel"/>
|
||||
<powerStorages/>
|
||||
<manufacturers manufacturer_id="1" name="reflex" product="Storage Tank"/>
|
||||
</energy_storage_components>
|
||||
<materials>
|
||||
<materials material_id="1" name="Polyurethane" thermalConductivity="0.028"/>
|
||||
<materials material_id="2" name="Steel" thermalConductivity="18.0"/>
|
||||
</materials>
|
||||
<energysystemconfiguration configurationName="PvHpBoiler">
|
||||
<components>
|
||||
<boilers modelName="virtualBoiler" description="template boiler north america" nominalEfficiency="0.95"/>
|
||||
<photovoltaicModules modelName="virtualPv" nominalEfficiency="0.2" width="1.0" height="1.0"/>
|
||||
<heatPumps modelName="virtualHp" fuel="Electricity" heatSource="Ground" nominalCOP="2.5" supply_medium="water"/>
|
||||
</components>
|
||||
<demands name="heating"/>
|
||||
<demands name="electricity"/>
|
||||
<demands name="domesticHotWater"/>
|
||||
</energysystemconfiguration>
|
||||
<energysystemconfiguration configurationName="hpTesBoiler">
|
||||
<components>
|
||||
<boilers modelName="virtualBoiler" description="template boiler north america" nominalEfficiency="0.95"/>
|
||||
<thermalStorages modelName="HF 200" manufacturer="reflex" volume="0.5" maxTemp="95.0" insulationThickness="90.0" tankThickness="0" usesMedium="Water" insulationMaterial="Polyurethane" height="1.5" tankMaterial="Steel"/>
|
||||
<heatPumps modelName="virtualHp" fuel="Electricity" heatSource="Ground" nominalCOP="2.5" supply_medium="water"/>
|
||||
</components>
|
||||
<demands name="heating"/>
|
||||
<demands name="electricity"/>
|
||||
<demands name="domesticHotWater"/>
|
||||
</energysystemconfiguration>
|
||||
<energysystemconfiguration configurationName="hpTes"/>
|
||||
<energydemand name="heating"/>
|
||||
<energydemand name="domesticHotWater"/>
|
||||
<energydemand name="electricity"/>
|
||||
<energydemand name="cooling"/>
|
||||
</EnergySystemComponentCatalog>
|
||||
|
|
@ -1,29 +1,204 @@
|
|||
<?xml version="1.0" encoding="UTF-8"?>
|
||||
<EnergySystemComponentCatalog>
|
||||
<energysystemconfiguration configurationName="PvHpBoiler">
|
||||
<components>
|
||||
<boilers modelName="virtualBoiler" description="template boiler north america" nominalEfficiency="0.95"/>
|
||||
<photovoltaicModules modelName="virtualPv" nominalEfficiency="0.2" width="1.0" height="1.0"/>
|
||||
<heatPumps modelName="virtualHp" fuel="Electricity" heatSource="Ground" nominalCOP="2.5" supply_medium="water"/>
|
||||
</components>
|
||||
<demands name="heating"/>
|
||||
<demands name="electricity"/>
|
||||
<demands name="domesticHotWater"/>
|
||||
</energysystemconfiguration>
|
||||
<energysystemconfiguration configurationName="hpTesBoiler">
|
||||
<components>
|
||||
<boilers modelName="virtualBoiler" description="template boiler north america" nominalEfficiency="0.95"/>
|
||||
<thermalStorages modelName="HF 200" manufacturer="reflex" volume="0.5" maxTemp="95.0" insulationThickness="90.0" tankThickness="0" usesMedium="Water" insulationMaterial="Polyurethane" height="1.5" tankMaterial="Steel"/>
|
||||
<heatPumps modelName="virtualHp" fuel="Electricity" heatSource="Ground" nominalCOP="2.5" supply_medium="water"/>
|
||||
</components>
|
||||
<demands name="heating"/>
|
||||
<demands name="electricity"/>
|
||||
<demands name="domesticHotWater"/>
|
||||
</energysystemconfiguration>
|
||||
<energysystemconfiguration configurationName="hpTes"/>
|
||||
<energydemand name="heating"/>
|
||||
<energydemand name="domesticHotWater"/>
|
||||
<energydemand name="electricity"/>
|
||||
<energydemand name="cooling"/>
|
||||
</EnergySystemComponentCatalog>
|
||||
<EnergySystemCatalog>
|
||||
<medias>
|
||||
<media media_id="1" media_name="Water" density="981.0" heatCapacity="4180.0" evaporationTemperature="100.0"/>
|
||||
</medias>
|
||||
<energy_generation_components>
|
||||
<boilers generation_id="1" name="Natural-Gas Boiler" modelName="ALP080B" manufacturer="Alpine" installedThermalPower="21.0" modulationRange="0.88" nominalEfficiency="0.95" combi="true" fuel="natural gas"/>
|
||||
<boilers generation_id="2" name="Natural-Gas Boiler" modelName="ALP105B" manufacturer="Alpine" installedThermalPower="28.0" modulationRange="0.88" nominalEfficiency="0.95" combi="true" fuel="natural gas"/>
|
||||
<boilers generation_id="3" name="Natural-Gas Boiler" modelName="ALP150B" manufacturer="Alpine" installedThermalPower="40.0" modulationRange="0.88" nominalEfficiency="0.95" combi="true" fuel="natural gas"/>
|
||||
<boilers generation_id="4" name="Natural-Gas Boiler" modelName="ALP210B" manufacturer="Alpine" installedThermalPower="57.0" modulationRange="0.87" nominalEfficiency="0.95" combi="true" fuel="natural gas"/>
|
||||
<boilers generation_id="5" name="Natural-Gas Boiler" modelName="ALTAC-136" manufacturer="Alta" installedThermalPower="33.0" modulationRange="0.95" nominalEfficiency="0.95" combi="true" fuel="natural gas"/>
|
||||
<boilers generation_id="6" name="Natural-Gas Boiler" modelName="ALTA-120" manufacturer="Alta" installedThermalPower="33.0" modulationRange="0.95" nominalEfficiency="0.95" combi="true" fuel="natural gas"/>
|
||||
<boilers generation_id="7" name="Natural-Gas Boiler" modelName="ASPN-085" manufacturer="Aspen" installedThermalPower="23.15" modulationRange="0.97" nominalEfficiency="0.96" fuel="natural gas"/>
|
||||
<boilers generation_id="8" name="Natural-Gas Boiler" modelName="ASPN-110" manufacturer="Aspen" installedThermalPower="30.19" modulationRange="0.96" nominalEfficiency="0.96" fuel="natural gas"/>
|
||||
<boilers generation_id="9" name="Natural-Gas Boiler" modelName="ASPNC-155" manufacturer="Aspen" installedThermalPower="42.5" modulationRange="0.96" nominalEfficiency="0.95" combi="true" fuel="natural gas"/>
|
||||
<boilers generation_id="10" name="Natural-Gas Boiler" modelName="K2WTC-135B" manufacturer="K2" installedThermalPower="32.8" modulationRange="0.96" nominalEfficiency="0.95" combi="true" fuel="natural gas"/>
|
||||
<boilers generation_id="11" name="Natural-Gas Boiler" modelName="K2WTC-180B" manufacturer="K2" installedThermalPower="49.5" modulationRange="0.96" nominalEfficiency="0.95" combi="true" fuel="natural gas"/>
|
||||
<photovoltaicModules generation_id="12" name="Photovoltaic Module" modelName="445MS" manufacturer="Canadian Solar" nominalPower="334.0" nominalEfficiency="0.201" nominalRadiation="800.0" STCRadiation="1000.0" nominalCellTemperature="41.0" STCCellTemperature="26.0" nominalAmbientTemperature="20.0" STCMaxPower="445.0" CellTemperatureCoefficient="-0.0034" height="1.048" width="2.01"/>
|
||||
<heatPumps generation_id="13" name="Air-to-Water Heat Pump" modelName="CMAA 012" description="A second degree equation is used in form of A*T_source^2 + B*T_source + C*T_source*T_sup + D*T_sup + E*T_sup^2 + F" manufacturer="TRANE" installedThermalPower="51.7" modulationRange="0.0" fuel="Electricity" heatSource="Air" nominalCOP="3.32" maxHeatingSupTemperature="55.0" minHeatingSupTemperature="6.0" maxCoolingSupTemperature="30.0" minCoolingSupTemperature="11.0" supply_medium="water">
|
||||
<performance_curve curve_type="second degree multivariable function">
|
||||
<parameters>COP</parameters>
|
||||
<parameters>source_temperature</parameters>
|
||||
<parameters>supply_temperature</parameters>
|
||||
<coefficients a="9.5E-4" b="0.177" c="-0.00242" d="-0.155" e="9.3E-4" f="8.044"/>
|
||||
</performance_curve>
|
||||
</heatPumps>
|
||||
<heatPumps generation_id="14" name="Air-to-Water Heat Pump" modelName="CMAA 70" description="A second degree equation is used in form of A*T_source^2 + B*T_source + C*T_source*T_sup + D*T_sup + E*T_sup^2 + F" manufacturer="TRANE" installedThermalPower="279.3" modulationRange="0.0" fuel="Electricity" heatSource="Air" nominalCOP="3.07" maxHeatingSupTemperature="55.0" minHeatingSupTemperature="6.0" maxCoolingSupTemperature="30.0" minCoolingSupTemperature="11.0" supply_medium="water">
|
||||
<performance_curve curve_type="second degree multivariable function">
|
||||
<parameters>COP</parameters>
|
||||
<parameters>source_temperature</parameters>
|
||||
<parameters>supply_temperature</parameters>
|
||||
<coefficients a="0.0011" b="0.207" c="-0.00292" d="-0.187" e="0.00121" f="8.95"/>
|
||||
</performance_curve>
|
||||
</heatPumps>
|
||||
<heatPumps generation_id="15" name="Air-to-Water Heat Pump" modelName="CMAA 140" description="A second degree equation is used in form of A*T_source^2 + B*T_source + C*T_source*T_sup + D*T_sup + E*T_sup^2 + F" manufacturer="TRANE" installedThermalPower="279.3" modulationRange="0.0" fuel="Electricity" heatSource="Air" nominalCOP="3.46" maxHeatingSupTemperature="55.0" minHeatingSupTemperature="6.0" maxCoolingSupTemperature="30.0" minCoolingSupTemperature="11.0" supply_medium="water">
|
||||
<performance_curve curve_type="second degree multivariable function">
|
||||
<parameters>COP</parameters>
|
||||
<parameters>source_temperature</parameters>
|
||||
<parameters>supply_temperature</parameters>
|
||||
<coefficients a="0.00109" b="0.209" c="-0.00291" d="-0.172" e="0.00102" f="8.95"/>
|
||||
</performance_curve>
|
||||
</heatPumps>
|
||||
<templates generation_id="16" name="template Natural-Gas Boiler" nominalEfficiency="0.90"/>
|
||||
<templates generation_id="17" name="template Electric Boiler" nominalEfficiency="0.95"/>
|
||||
<templates generation_id="18" name="template Air-to-Water Heat Pump" fuel="Electricity" heatSource="Air" nominalCOP="3" supply_medium="water"/>
|
||||
<templates generation_id="19" name="template Groundwater-to-Water Heat Pump" fuel="Electricity" heatSource="Ground" nominalCOP="3.5" supply_medium="water"/>
|
||||
<templates generation_id="20" name="template Water-to-Water Heat Pump" fuel="Electricity" heatSource="Water" nominalCOP="3.5" supply_medium="water"/>
|
||||
<templates generation_id="21" name="template Photovoltaic Module" nominalEfficiency="0.2" width="1.0" height="1.0"/>
|
||||
<manufacturers manufacturer_id="1" name="Alpine" country="USA" product="Natural Gas Boiler"/>
|
||||
<manufacturers manufacturer_id="2" name="Alta" country="USA" product="Natural Gas Boiler"/>
|
||||
<manufacturers manufacturer_id="3" name="Aspen" country="USA" product="Natural Gas Boiler"/>
|
||||
<manufacturers manufacturer_id="4" name="K2" country="USA" product="Natural Gas Boiler"/>
|
||||
<manufacturers manufacturer_id="5" name="TRANE" product="Air-to-Water Heat Pump"/>
|
||||
<manufacturers manufacturer_id="6" name="Canadian Solar" country="Canada" product="Photovoltaic Module"/>
|
||||
</energy_generation_components>
|
||||
<energy_storage_components>
|
||||
<thermalStorages storage_id="1" name="Hot Water Storage Tank" modelName="HF 200" manufacturer="reflex" volume="0.5" maxTemp="95.0" insulationThickness="90.0" tankThickness="0" usesMedium="Water" insulationMaterial="Polyurethane" height="1.5" tankMaterial="Steel"/>
|
||||
<thermalStorages storage_id="2" name="Hot Water Storage Tank" modelName="HF 300" manufacturer="reflex" volume="0.6" maxTemp="95.0" insulationThickness="90.0" tankThickness="0" usesMedium="Water" insulationMaterial="Polyurethane" height="1.3" tankMaterial="Steel"/>
|
||||
<thermalStorages storage_id="3" name="Hot Water Storage Tank" modelName="HF 500" manufacturer="reflex" volume="0.5" maxTemp="95.0" insulationThickness="90.0" tankThickness="0" usesMedium="Water" insulationMaterial="Polyurethane" height="1.5" tankMaterial="Steel"/>
|
||||
<thermalStorages storage_id="4" name="Hot Water Storage Tank" modelName="HF 200" manufacturer="reflex" volume="0.5" maxTemp="95.0" insulationThickness="90.0" tankThickness="0" usesMedium="Water" insulationMaterial="Polyurethane" height="1.5" tankMaterial="Steel"/>
|
||||
<thermalStorages storage_id="5" name="Hot Water Storage Tank" modelName="HF 200" manufacturer="reflex" volume="0.5" maxTemp="95.0" insulationThickness="90.0" tankThickness="0" usesMedium="Water" insulationMaterial="Polyurethane" height="1.5" tankMaterial="Steel"/>
|
||||
<templates storage_id="6" name="template Hot Water Storage Tank" maxTemp="95.0" insulationThickness="90.0" tankThickness="0" usesMedium="Water" insulationMaterial="Polyurethane" tankMaterial="Steel"/>
|
||||
<powerStorages/>
|
||||
<manufacturers manufacturer_id="1" name="reflex" product="Storage Tank"/>
|
||||
</energy_storage_components>
|
||||
<materials>
|
||||
<material material_id="1" name="Polyurethane" thermalConductivity="0.028"/>
|
||||
<material material_id="2" name="Steel" thermalConductivity="18.0"/>
|
||||
</materials>
|
||||
<systems>
|
||||
<system id="1">
|
||||
<name>Air Source Heat Pump with Natural Gas Boiler and thermal storage</name>
|
||||
<demands>
|
||||
<demand_id>1</demand_id>
|
||||
<demand_id>2</demand_id>
|
||||
</demands>
|
||||
<components>
|
||||
<generation_id>16</generation_id>
|
||||
<generation_id>18</generation_id>
|
||||
<storage_id>6</storage_id>
|
||||
</components>
|
||||
</system>
|
||||
<system id="2">
|
||||
<name>Air Source Heat Pump with Electrical Boiler and thermal storage</name>
|
||||
<demands>
|
||||
<demand_id>1</demand_id>
|
||||
<demand_id>2</demand_id>
|
||||
</demands>
|
||||
<components>
|
||||
<generation_id>17</generation_id>
|
||||
<generation_id>18</generation_id>
|
||||
<storage_id>6</storage_id>
|
||||
</components>
|
||||
</system>
|
||||
<system id="3">
|
||||
<name>Ground Source Heat Pump with Natural Gas Boiler and thermal storage</name>
|
||||
<demands>
|
||||
<demand_id>1</demand_id>
|
||||
<demand_id>2</demand_id>
|
||||
</demands>
|
||||
<components>
|
||||
<generation_id>16</generation_id>
|
||||
<generation_id>19</generation_id>
|
||||
<storage_id>6</storage_id>
|
||||
</components>
|
||||
</system>
|
||||
<system id="4">
|
||||
<name>Ground Source Heat Pump with Electrical Boiler and thermal storage</name>
|
||||
<demands>
|
||||
<demand_id>1</demand_id>
|
||||
<demand_id>2</demand_id>
|
||||
</demands>
|
||||
<components>
|
||||
<generation_id>17</generation_id>
|
||||
<generation_id>19</generation_id>
|
||||
<storage_id>6</storage_id>
|
||||
</components>
|
||||
</system>
|
||||
<system id="5">
|
||||
<name>Water Source Heat Pump with Natural Gas Boiler and thermal storage</name>
|
||||
<demands>
|
||||
<demand_id>1</demand_id>
|
||||
<demand_id>2</demand_id>
|
||||
</demands>
|
||||
<components>
|
||||
<generation_id>16</generation_id>
|
||||
<generation_id>20</generation_id>
|
||||
<storage_id>6</storage_id>
|
||||
</components>
|
||||
</system>
|
||||
<system id="6">
|
||||
<name>Water Source Heat Pump with Electrical Boiler and thermal storage</name>
|
||||
<demands>
|
||||
<demand_id>1</demand_id>
|
||||
<demand_id>2</demand_id>
|
||||
</demands>
|
||||
<components>
|
||||
<generation_id>17</generation_id>
|
||||
<generation_id>20</generation_id>
|
||||
<storage_id>6</storage_id>
|
||||
</components>
|
||||
</system>
|
||||
<system id="7">
|
||||
<name>Photovoltaic System</name>
|
||||
<demands>
|
||||
<demand_id>3</demand_id>
|
||||
</demands>
|
||||
<components>
|
||||
<generation_id>21</generation_id>
|
||||
</components>
|
||||
</system>
|
||||
</systems>
|
||||
<system_archetypes>
|
||||
<system_archetype id="1">
|
||||
<name>PV+ASHP+GasBoiler+TES</name>
|
||||
<systems>
|
||||
<system_id>7</system_id>
|
||||
<system_id>1</system_id>
|
||||
</systems>
|
||||
</system_archetype>
|
||||
<system_archetype id="2">
|
||||
<name>PV+ASHP+ElectricBoiler+TES</name>
|
||||
<systems>
|
||||
<system_id>7</system_id>
|
||||
<system_id>2</system_id>
|
||||
</systems>
|
||||
</system_archetype>
|
||||
<system_archetype id="3">
|
||||
<name>PV+GSHP+GasBoiler+TES</name>
|
||||
<systems>
|
||||
<system_id>7</system_id>
|
||||
<system_id>3</system_id>
|
||||
</systems>
|
||||
</system_archetype>
|
||||
<system_archetype id="4">
|
||||
<name>PV+GSHP+ElectricBoiler+TES</name>
|
||||
<systems>
|
||||
<system_id>7</system_id>
|
||||
<system_id>4</system_id>
|
||||
</systems>
|
||||
</system_archetype>
|
||||
<system_archetype id="5">
|
||||
<name>PV+WSHP+GasBoiler+TES</name>
|
||||
<systems>
|
||||
<system_id>7</system_id>
|
||||
<system_id>5</system_id>
|
||||
</systems>
|
||||
</system_archetype>
|
||||
<system_archetype id="6">
|
||||
<name>PV+WSHP+ElectricBoiler+TES</name>
|
||||
<systems>
|
||||
<system_id>7</system_id>
|
||||
<system_id>6</system_id>
|
||||
</systems>
|
||||
</system_archetype>
|
||||
</system_archetypes>
|
||||
<energy_demands>
|
||||
<demand demand_id="1" name="heating"/>
|
||||
<demand demand_id="2" name="domesticHotWater"/>
|
||||
<demand demand_id="3" name="electricity"/>
|
||||
<demand demand_id="4" name="cooling"/>
|
||||
</energy_demands>
|
||||
</EnergySystemCatalog>
|
||||
|
||||
|
|
Loading…
Reference in New Issue
Block a user