small changes to performance_curves.py and distribution_system.py
created the montreal_custom_catalog_new.py uploaded my xml file
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parent
3feecac15d
commit
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@ -3,6 +3,7 @@ Energy System catalog distribution system
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SPDX - License - Identifier: LGPL - 3.0 - or -later
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Copyright © 2023 Concordia CERC group
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Project Coder Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca
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Code contributors: Saeed Ranjbar saeed.ranjbar@concordia.ca
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"""
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from hub.catalog_factories.data_models.construction.material import Material
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@ -10,13 +10,14 @@ from __future__ import annotations
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from typing import Union
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class ParameterFunction:
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class PerformanceCurves:
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"""
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Parameter function class
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"""
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def __init__(self, type, coefficients):
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def __init__(self, type, parameters, coefficients):
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self._type = type
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self._parameters = parameters
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self._coefficients = coefficients
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@property
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@ -34,6 +35,14 @@ class ParameterFunction:
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"""
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return self._type
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@property
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def parameters(self):
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"""
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Get the list of parameters involved in fitting process as ['y', 'x', 'z']
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:return: string
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"""
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return self._parameters
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@property
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def coefficients(self):
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"""
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@ -45,9 +54,9 @@ class ParameterFunction:
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def to_dictionary(self):
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"""Class content to dictionary"""
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content = {'Parameter Function': {
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'type': self.type,
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'coefficients': self.coefficients,
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}
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}
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'type': self.type,
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'parameters': self.parameters,
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'coefficients': self.coefficients,
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}
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}
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return content
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@ -0,0 +1,251 @@
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"""
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Montreal custom energy systems catalog module
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SPDX - License - Identifier: LGPL - 3.0 - or -later
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Copyright © 2022 Concordia CERC group
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Project Coder Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca
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Code contributors: Saeed Ranjbar saeed.ranjbar@concordia.ca
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"""
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from ast import literal_eval
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import xmltodict
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from hub.catalog_factories.catalog import Catalog
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from hub.catalog_factories.data_models.energy_systems.system import System
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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.distribution_system import DistributionSystem
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from hub.catalog_factories.data_models.energy_systems.energy_emission_system import EnergyEmissionSystem
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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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class MontrealCustomCatalog(Catalog):
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"""
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Montreal custom energy systems catalog class
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"""
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def __init__(self, path):
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path = str(path / 'montreal_custom_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=('system', 'system_cluster', 'equipment',
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'demand', 'system_id'))
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self._lod = float(self._archetypes['catalog']['@lod'])
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self._catalog_generation_equipments = self._load_generation_equipments()
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self._catalog_distribution_equipments = self._load_distribution_equipments()
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self._catalog_emission_equipments = self._load_emission_equipments()
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self._catalog_systems = self._load_systems()
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self._catalog_archetypes = self._load_archetypes()
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# store the full catalog data model in self._content
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self._content = Content(self._catalog_archetypes,
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self._catalog_systems,
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self._catalog_generation_equipments,
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self._catalog_distribution_equipments,
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self._catalog_emission_equipments)
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def _load_generation_equipments(self):
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_equipments = []
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equipments = self._archetypes['catalog']['generation_equipments']['equipment']
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for equipment in equipments:
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equipment_id = float(equipment['@id'])
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equipment_type = equipment['@type']
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fuel_type = equipment['@fuel_type']
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name = equipment['name']
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heating_efficiency = None
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if 'heating_efficiency' in equipment:
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heating_efficiency = float(equipment['heating_efficiency'])
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cooling_efficiency = None
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if 'cooling_efficiency' in equipment:
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cooling_efficiency = float(equipment['cooling_efficiency'])
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electricity_efficiency = None
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if 'electrical_efficiency' in equipment:
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electricity_efficiency = float(equipment['electrical_efficiency'])
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storage = literal_eval(equipment['storage'].capitalize())
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generation_system = GenerationSystem(equipment_id,
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name,
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equipment_type,
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fuel_type,
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None,
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heating_efficiency,
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cooling_efficiency,
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electricity_efficiency,
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None,
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None,
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storage,
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None)
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_equipments.append(generation_system)
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return _equipments
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def _load_distribution_equipments(self):
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_equipments = []
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equipments = self._archetypes['catalog']['distribution_equipments']['equipment']
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for equipment in equipments:
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equipment_id = float(equipment['@id'])
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equipment_type = equipment['@type']
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name = equipment['name']
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distribution_heat_losses = None
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if 'distribution_heat_losses' in equipment:
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distribution_heat_losses = float(equipment['distribution_heat_losses']['#text']) / 100
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distribution_consumption_fix_flow = None
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if 'distribution_consumption_fix_flow' in equipment:
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distribution_consumption_fix_flow = float(equipment['distribution_consumption_fix_flow']['#text']) / 100
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distribution_consumption_variable_flow = None
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if 'distribution_consumption_variable_flow' in equipment:
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distribution_consumption_variable_flow = float(equipment['distribution_consumption_variable_flow']['#text']) / 100
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distribution_system = DistributionSystem(equipment_id,
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name,
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equipment_type,
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None,
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distribution_consumption_fix_flow,
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distribution_consumption_variable_flow,
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distribution_heat_losses)
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_equipments.append(distribution_system)
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return _equipments
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def _load_emission_equipments(self):
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_equipments = []
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equipments = self._archetypes['catalog']['dissipation_equipments']['equipment']
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for equipment in equipments:
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equipment_id = float(equipment['@id'])
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equipment_type = equipment['@type']
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name = equipment['name']
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parasitic_consumption = None
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if 'parasitic_consumption' in equipment:
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parasitic_consumption = float(equipment['parasitic_consumption']['#text']) / 100
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emission_system = EnergyEmissionSystem(equipment_id,
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name,
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equipment_type,
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parasitic_consumption)
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_equipments.append(emission_system)
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return _equipments
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def _load_systems(self):
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_catalog_systems = []
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systems = self._archetypes['catalog']['systems']['system']
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for system in systems:
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system_id = float(system['@id'])
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name = system['name']
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demands = system['demands']['demand']
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generation_equipment = system['equipments']['generation_id']
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_generation_equipment = None
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for equipment_archetype in self._catalog_generation_equipments:
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if int(equipment_archetype.id) == int(generation_equipment):
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_generation_equipment = equipment_archetype
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distribution_equipment = system['equipments']['distribution_id']
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_distribution_equipment = None
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for equipment_archetype in self._catalog_distribution_equipments:
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if int(equipment_archetype.id) == int(distribution_equipment):
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_distribution_equipment = equipment_archetype
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emission_equipment = system['equipments']['dissipation_id']
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_emission_equipment = None
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for equipment_archetype in self._catalog_emission_equipments:
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if int(equipment_archetype.id) == int(emission_equipment):
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_emission_equipment = equipment_archetype
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_catalog_systems.append(System(self._lod,
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system_id,
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name,
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demands,
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_generation_equipment,
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_distribution_equipment,
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_emission_equipment))
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return _catalog_systems
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def _load_archetypes(self):
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_catalog_archetypes = []
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system_clusters = self._archetypes['catalog']['system_clusters']['system_cluster']
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for system_cluster in system_clusters:
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name = system_cluster['@name']
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systems = system_cluster['systems']['system_id']
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_systems = []
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for system in systems:
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for system_archetype in self._catalog_systems:
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if int(system_archetype.id) == int(system):
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_systems.append(system_archetype)
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_catalog_archetypes.append(Archetype(self._lod, name, _systems))
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return _catalog_archetypes
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def names(self, category=None):
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"""
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Get the catalog elements names
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:parm: optional category filter
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"""
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if category is None:
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_names = {'archetypes': [], 'systems': [], 'generation_equipments': [], 'distribution_equipments': [],
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'emission_equipments':[]}
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for archetype in self._content.archetypes:
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_names['archetypes'].append(archetype.manufacturer)
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for system in self._content.systems:
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_names['systems'].append(system.manufacturer)
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for equipment in self._content.generation_equipments:
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_names['generation_equipments'].append(equipment.manufacturer)
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for equipment in self._content.distribution_equipments:
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_names['distribution_equipments'].append(equipment.manufacturer)
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for equipment in self._content.emission_equipments:
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_names['emission_equipments'].append(equipment.manufacturer)
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else:
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_names = {category: []}
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if category.lower() == 'archetypes':
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for archetype in self._content.archetypes:
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_names[category].append(archetype.manufacturer)
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elif category.lower() == 'systems':
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for system in self._content.systems:
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_names[category].append(system.manufacturer)
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elif category.lower() == 'generation_equipments':
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for system in self._content.generation_equipments:
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_names[category].append(system.manufacturer)
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elif category.lower() == 'distribution_equipments':
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for system in self._content.distribution_equipments:
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_names[category].append(system.manufacturer)
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elif category.lower() == 'emission_equipments':
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for system in self._content.emission_equipments:
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_names[category].append(system.manufacturer)
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else:
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raise ValueError(f'Unknown category [{category}]')
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return _names
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def entries(self, category=None):
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"""
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Get the catalog elements
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:parm: optional category filter
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"""
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if category is None:
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return self._content
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if category.lower() == 'archetypes':
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return self._content.archetypes
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if category.lower() == 'systems':
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return self._content.systems
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if category.lower() == 'generation_equipments':
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return self._content.generation_equipments
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if category.lower() == 'distribution_equipments':
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return self._content.distribution_equipments
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if category.lower() == 'emission_equipments':
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return self._content.emission_equipments
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raise ValueError(f'Unknown category [{category}]')
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def get_entry(self, name):
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"""
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Get one catalog element by names
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:parm: entry name
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"""
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for entry in self._content.archetypes:
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if entry.manufacturer.lower() == name.lower():
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return entry
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for entry in self._content.systems:
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if entry.manufacturer.lower() == name.lower():
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return entry
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for entry in self._content.generation_equipments:
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if entry.manufacturer.lower() == name.lower():
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return entry
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for entry in self._content.distribution_equipments:
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if entry.manufacturer.lower() == name.lower():
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return entry
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for entry in self._content.emission_equipments:
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if entry.manufacturer.lower() == name.lower():
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return entry
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raise IndexError(f"{name} doesn't exists in the catalog")
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43
hub/data/energy_systems/Tools4CitiesESMF.encomp
Normal file
43
hub/data/energy_systems/Tools4CitiesESMF.encomp
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@ -0,0 +1,43 @@
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<?xml version="1.0" encoding="UTF-8"?>
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<encomp:EnergySystemCatalog xmi:version="2.0" xmlns:xmi="http://www.omg.org/XMI" xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" xmlns:encomp="https://www.hft-stuttgart.de/energycomponents">
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<energycomponent>
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<media name="Water" density="981.0" heatCapacity="4180.0" evaporationTemperature="100.0"/>
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<boilers modelName="ALP080B" manufacturer="//@energycomponent.0/@manufacturers.0" installedThermalPower="21.0" modulationRange="0.88" nominalEfficiency="0.95" combi="true"/>
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<boilers modelName="ALP105B" manufacturer="//@energycomponent.0/@manufacturers.0" installedThermalPower="28.0" modulationRange="0.88" nominalEfficiency="0.95" combi="true"/>
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<boilers modelName="ALP150B" manufacturer="//@energycomponent.0/@manufacturers.0" installedThermalPower="40.0" modulationRange="0.88" nominalEfficiency="0.95" combi="true"/>
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<boilers modelName="ALP210B" manufacturer="//@energycomponent.0/@manufacturers.0" installedThermalPower="57.0" modulationRange="0.87" nominalEfficiency="0.95" combi="true"/>
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<boilers modelName="ALTAC-136" manufacturer="//@energycomponent.0/@manufacturers.1" installedThermalPower="33.0" modulationRange="0.95" nominalEfficiency="0.95" combi="true"/>
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<boilers modelName="ALTAC-200" installedThermalPower="41.0" modulationRange="0.92" nominalEfficiency="0.95" combi="true"/>
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<boilers modelName="ALTA-120" manufacturer="//@energycomponent.0/@manufacturers.1" installedThermalPower="33.0" modulationRange="0.95" nominalEfficiency="0.95" combi="true"/>
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<boilers modelName="ASPN-085" manufacturer="//@energycomponent.0/@manufacturers.2" installedThermalPower="23.15" modulationRange="0.97" nominalEfficiency="0.96"/>
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<boilers modelName="ASPN-110" manufacturer="//@energycomponent.0/@manufacturers.2" installedThermalPower="30.19" modulationRange="0.96" nominalEfficiency="0.96"/>
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<boilers modelName="ASPNC-155" manufacturer="//@energycomponent.0/@manufacturers.2" installedThermalPower="42.5" modulationRange="0.96" nominalEfficiency="0.95" combi="true"/>
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<boilers modelName="K2WTC-135B" manufacturer="//@energycomponent.0/@manufacturers.3" installedThermalPower="32.8" modulationRange="0.96" nominalEfficiency="0.95" combi="true"/>
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<boilers modelName="K2WTC-180B" manufacturer="//@energycomponent.0/@manufacturers.3" installedThermalPower="49.5" modulationRange="0.96" nominalEfficiency="0.95" combi="true"/>
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<heatPumps 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="//@energycomponent.0/@manufacturers.4" installedThermalPower="51.7" modulationRange="0.0" fuel="Electricity" nominalCOP="3.32" maxHeatingSupTemperature="55.0" minHeatingSupTemperature="6.0" maxCoolingSupTemperature="11.0" minCoolingSupTemperature="30.0">
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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 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="//@energycomponent.0/@manufacturers.4" installedThermalPower="279.3" modulationRange="0.0" fuel="Electricity" nominalCOP="3.07" maxHeatingSupTemperature="55.0" minHeatingSupTemperature="6.0" maxCoolingSupTemperature="11.0" minCoolingSupTemperature="30.0">
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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 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="//@energycomponent.0/@manufacturers.4" installedThermalPower="279.3" modulationRange="0.0" fuel="Electricity" nominalCOP="3.46" maxHeatingSupTemperature="55.0" minHeatingSupTemperature="6.0" maxCoolingSupTemperature="11.0" minCoolingSupTemperature="30.0">
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<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"/>
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</heatPumps>
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<thermalStorages modelName="HF 200" manufacturer="//@energycomponent.0/@manufacturers.5" volume="0.5" maxTemp="95.0" insulationThickness="90.0" usesMedium="//@energycomponent.0/@media.0" insulationMaterial="//@energycomponent.0/@materials.0" height="1.5" tankMaterial="//@energycomponent.0/@materials.1"/>
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<thermalStorages modelName="HF 300" manufacturer="//@energycomponent.0/@manufacturers.5" volume="0.6" maxTemp="95.0" insulationThickness="90.0" usesMedium="//@energycomponent.0/@media.0" insulationMaterial="//@energycomponent.0/@materials.0" height="1.3" tankMaterial="//@energycomponent.0/@materials.1"/>
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<thermalStorages modelName="HF 500" manufacturer="//@energycomponent.0/@manufacturers.5" volume="0.5" maxTemp="95.0" insulationThickness="90.0" usesMedium="//@energycomponent.0/@media.0" insulationMaterial="//@energycomponent.0/@materials.0" height="1.5" tankMaterial="//@energycomponent.0/@materials.1"/>
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<thermalStorages modelName="HF 200" manufacturer="//@energycomponent.0/@manufacturers.5" volume="0.5" maxTemp="95.0" insulationThickness="90.0" usesMedium="//@energycomponent.0/@media.0" insulationMaterial="//@energycomponent.0/@materials.0" height="1.5" tankMaterial="//@energycomponent.0/@materials.1"/>
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<thermalStorages modelName="HF 200" manufacturer="//@energycomponent.0/@manufacturers.5" volume="0.5" maxTemp="95.0" insulationThickness="90.0" usesMedium="//@energycomponent.0/@media.0" insulationMaterial="//@energycomponent.0/@materials.0" height="1.5" tankMaterial="//@energycomponent.0/@materials.1"/>
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<manufacturers name="Alpine" country="USA"/>
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<manufacturers name="Alta" country="USA"/>
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<manufacturers name="Aspen" country="USA"/>
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<manufacturers name="K2" country="USA"/>
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<manufacturers name="TRANE"/>
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<manufacturers name="reflex"/>
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<materials name="Polyurethane" thermalConductivity="0.028"/>
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<materials name="Steel" thermalConductivity="18.0"/>
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</energycomponent>
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<energysystemconfiguration configurationName="PvHpBoiler"/>
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<energysystemconfiguration configurationName="hpTesBoiler"/>
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<energysystemconfiguration/>
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</encomp:EnergySystemCatalog>
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