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@ -22,6 +22,7 @@ class EilatCatalog(Catalog):
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"""
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Eilat catalog class
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"""
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def __init__(self, path):
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_path_archetypes = Path(path / 'eilat_archetypes.json').resolve()
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_path_constructions = (path / 'eilat_constructions.json').resolve()
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@ -121,8 +122,10 @@ class EilatCatalog(Catalog):
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construction_period = archetype['period_of_construction']
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average_storey_height = archetype['average_storey_height']
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extra_loses_due_to_thermal_bridges = archetype['extra_loses_due_thermal_bridges']
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infiltration_rate_for_ventilation_system_off = archetype['infiltration_rate_for_ventilation_system_off'] / cte.HOUR_TO_SECONDS
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infiltration_rate_for_ventilation_system_on = archetype['infiltration_rate_for_ventilation_system_on'] / cte.HOUR_TO_SECONDS
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infiltration_rate_for_ventilation_system_off = archetype[
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'infiltration_rate_for_ventilation_system_off'] / cte.HOUR_TO_SECONDS
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infiltration_rate_for_ventilation_system_on = archetype[
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'infiltration_rate_for_ventilation_system_on'] / cte.HOUR_TO_SECONDS
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archetype_constructions = []
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for archetype_construction in archetype['constructions']:
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@ -160,7 +163,9 @@ class EilatCatalog(Catalog):
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extra_loses_due_to_thermal_bridges,
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None,
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infiltration_rate_for_ventilation_system_off,
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infiltration_rate_for_ventilation_system_on))
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infiltration_rate_for_ventilation_system_on,
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0,
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0))
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return _catalog_archetypes
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def names(self, category=None):
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@ -128,6 +128,12 @@ class NrcanCatalog(Catalog):
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infiltration_rate_for_ventilation_system_on = (
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archetype['infiltration_rate_for_ventilation_system_on'] / cte.HOUR_TO_SECONDS
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)
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infiltration_rate_area_for_ventilation_system_off = (
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archetype['infiltration_rate_area_for_ventilation_system_off'] * 1
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)
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infiltration_rate_area_for_ventilation_system_on = (
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archetype['infiltration_rate_area_for_ventilation_system_on'] * 1
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)
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archetype_constructions = []
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for archetype_construction in archetype['constructions']:
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@ -153,7 +159,6 @@ class NrcanCatalog(Catalog):
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_window)
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archetype_constructions.append(_construction)
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break
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_catalog_archetypes.append(Archetype(archetype_id,
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name,
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function,
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@ -165,7 +170,10 @@ class NrcanCatalog(Catalog):
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extra_loses_due_to_thermal_bridges,
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None,
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infiltration_rate_for_ventilation_system_off,
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infiltration_rate_for_ventilation_system_on))
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infiltration_rate_for_ventilation_system_on,
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infiltration_rate_area_for_ventilation_system_off,
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infiltration_rate_area_for_ventilation_system_on
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))
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return _catalog_archetypes
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def names(self, category=None):
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|
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@ -162,7 +162,9 @@ class NrelCatalog(Catalog):
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extra_loses_due_to_thermal_bridges,
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indirect_heated_ratio,
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infiltration_rate_for_ventilation_system_off,
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infiltration_rate_for_ventilation_system_on))
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infiltration_rate_for_ventilation_system_on,
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0,
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0))
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return _catalog_archetypes
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def names(self, category=None):
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|
242
hub/catalog_factories/construction/palma_catalog.py
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242
hub/catalog_factories/construction/palma_catalog.py
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@ -0,0 +1,242 @@
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"""
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Palma construction catalog
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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 Cecilia Pérez Pérez cperez@irec.cat
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"""
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import json
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from pathlib import Path
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from hub.catalog_factories.catalog import Catalog
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from hub.catalog_factories.data_models.construction.content import Content
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from hub.catalog_factories.construction.construction_helper import ConstructionHelper
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from hub.catalog_factories.data_models.construction.construction import Construction
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from hub.catalog_factories.data_models.construction.archetype import Archetype
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from hub.catalog_factories.data_models.construction.window import Window
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from hub.catalog_factories.data_models.construction.material import Material
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from hub.catalog_factories.data_models.construction.layer import Layer
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import hub.helpers.constants as cte
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class PalmaCatalog(Catalog):
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"""
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Palma catalog class
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"""
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def __init__(self, path):
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_path_archetypes = Path(path / 'palma_archetypes.json').resolve()
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_path_constructions = (path / 'palma_constructions.json').resolve()
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with open(_path_archetypes, 'r', encoding='utf-8') as file:
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self._archetypes = json.load(file)
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with open(_path_constructions, 'r', encoding='utf-8') as file:
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self._constructions = json.load(file)
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self._catalog_windows = self._load_windows()
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self._catalog_materials = self._load_materials()
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self._catalog_constructions = self._load_constructions()
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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_constructions,
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self._catalog_materials,
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self._catalog_windows)
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def _load_windows(self):
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_catalog_windows = []
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windows = self._constructions['transparent_surfaces']
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for window in windows:
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name = list(window.keys())[0]
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window_id = name
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g_value = window[name]['shgc']
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window_type = window[name]['type']
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frame_ratio = window[name]['frame_ratio']
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overall_u_value = window[name]['u_value']
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_catalog_windows.append(Window(window_id, frame_ratio, g_value, overall_u_value, name, window_type))
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return _catalog_windows
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def _load_materials(self):
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_catalog_materials = []
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materials = self._constructions['materials']
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for material in materials:
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name = list(material.keys())[0]
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material_id = name
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no_mass = material[name]['no_mass']
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thermal_resistance = None
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conductivity = None
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density = None
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specific_heat = None
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solar_absorptance = None
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thermal_absorptance = None
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visible_absorptance = None
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if no_mass:
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thermal_resistance = material[name]['thermal_resistance']
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else:
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solar_absorptance = material[name]['solar_absorptance']
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thermal_absorptance = str(1 - float(material[name]['thermal_emittance']))
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visible_absorptance = material[name]['visible_absorptance']
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conductivity = material[name]['conductivity']
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density = material[name]['density']
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specific_heat = material[name]['specific_heat']
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_material = Material(material_id,
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name,
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solar_absorptance,
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thermal_absorptance,
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visible_absorptance,
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no_mass,
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thermal_resistance,
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conductivity,
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density,
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specific_heat)
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_catalog_materials.append(_material)
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return _catalog_materials
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def _load_constructions(self):
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_catalog_constructions = []
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constructions = self._constructions['opaque_surfaces']
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for construction in constructions:
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name = list(construction.keys())[0]
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construction_id = name
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construction_type = ConstructionHelper().nrcan_surfaces_types_to_hub_types[construction[name]['type']]
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layers = []
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for layer in construction[name]['layers']:
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layer_id = layer
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layer_name = layer
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material_id = layer
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thickness = construction[name]['layers'][layer]
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for material in self._catalog_materials:
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if str(material_id) == str(material.id):
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layers.append(Layer(layer_id, layer_name, material, thickness))
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break
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_catalog_constructions.append(Construction(construction_id, construction_type, name, layers))
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return _catalog_constructions
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def _load_archetypes(self):
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_catalog_archetypes = []
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archetypes = self._archetypes['archetypes']
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for archetype in archetypes:
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archetype_id = f'{archetype["function"]}_{archetype["period_of_construction"]}_{archetype["climate_zone"]}'
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function = archetype['function']
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name = archetype_id
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climate_zone = archetype['climate_zone']
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construction_period = archetype['period_of_construction']
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average_storey_height = archetype['average_storey_height']
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thermal_capacity = float(archetype['thermal_capacity']) * 1000
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extra_loses_due_to_thermal_bridges = archetype['extra_loses_due_thermal_bridges']
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infiltration_rate_for_ventilation_system_off = archetype['infiltration_rate_for_ventilation_system_off'] / cte.HOUR_TO_SECONDS
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infiltration_rate_for_ventilation_system_on = archetype['infiltration_rate_for_ventilation_system_on'] / cte.HOUR_TO_SECONDS
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infiltration_rate_area_for_ventilation_system_off = (
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archetype['infiltration_rate_area_for_ventilation_system_off'] * 1
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)
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infiltration_rate_area_for_ventilation_system_on = (
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archetype['infiltration_rate_area_for_ventilation_system_on'] * 1
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)
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archetype_constructions = []
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for archetype_construction in archetype['constructions']:
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archetype_construction_type = ConstructionHelper().nrcan_surfaces_types_to_hub_types[archetype_construction]
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archetype_construction_name = archetype['constructions'][archetype_construction]['opaque_surface_name']
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for construction in self._catalog_constructions:
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if archetype_construction_type == construction.type and construction.name == archetype_construction_name:
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_construction = None
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_window = None
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_window_ratio = None
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if 'transparent_surface_name' in archetype['constructions'][archetype_construction].keys():
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_window_ratio = archetype['constructions'][archetype_construction]['transparent_ratio']
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_window_id = archetype['constructions'][archetype_construction]['transparent_surface_name']
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for window in self._catalog_windows:
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if _window_id == window.id:
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_window = window
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break
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_construction = Construction(construction.id,
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construction.type,
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construction.name,
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construction.layers,
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_window_ratio,
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_window)
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archetype_constructions.append(_construction)
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break
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_catalog_archetypes.append(Archetype(archetype_id,
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name,
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function,
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climate_zone,
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construction_period,
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archetype_constructions,
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average_storey_height,
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thermal_capacity,
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extra_loses_due_to_thermal_bridges,
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None,
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infiltration_rate_for_ventilation_system_off,
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infiltration_rate_for_ventilation_system_on,
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infiltration_rate_area_for_ventilation_system_off,
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infiltration_rate_area_for_ventilation_system_on))
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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': [], 'constructions': [], 'materials': [], 'windows': []}
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for archetype in self._content.archetypes:
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_names['archetypes'].append(archetype.name)
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for construction in self._content.constructions:
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_names['constructions'].append(construction.name)
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for material in self._content.materials:
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_names['materials'].append(material.name)
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for window in self._content.windows:
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_names['windows'].append(window.name)
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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.name)
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elif category.lower() == 'constructions':
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for construction in self._content.constructions:
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_names[category].append(construction.name)
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elif category.lower() == 'materials':
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for material in self._content.materials:
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_names[category].append(material.name)
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elif category.lower() == 'windows':
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for window in self._content.windows:
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_names[category].append(window.name)
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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() == 'constructions':
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return self._content.constructions
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if category.lower() == 'materials':
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return self._content.materials
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if category.lower() == 'windows':
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return self._content.windows
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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.name.lower() == name.lower():
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return entry
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for entry in self._content.constructions:
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if entry.name.lower() == name.lower():
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return entry
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for entry in self._content.materials:
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if entry.name.lower() == name.lower():
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return entry
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for entry in self._content.windows:
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if entry.name.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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@ -11,6 +11,7 @@ from typing import TypeVar
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from hub.catalog_factories.construction.nrcan_catalog import NrcanCatalog
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from hub.catalog_factories.construction.nrel_catalog import NrelCatalog
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from hub.catalog_factories.construction.eilat_catalog import EilatCatalog
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from hub.catalog_factories.construction.palma_catalog import PalmaCatalog
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from hub.helpers.utils import validate_import_export_type
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Catalog = TypeVar('Catalog')
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|
@ -48,6 +49,13 @@ class ConstructionCatalogFactory:
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"""
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return EilatCatalog(self._path)
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@property
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def _palma(self):
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"""
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Retrieve Palma catalog
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"""
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return PalmaCatalog(self._path)
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@property
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def catalog(self) -> Catalog:
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"""
|
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|
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@ -23,7 +23,10 @@ class Archetype:
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extra_loses_due_to_thermal_bridges,
|
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indirect_heated_ratio,
|
||||
infiltration_rate_for_ventilation_system_off,
|
||||
infiltration_rate_for_ventilation_system_on):
|
||||
infiltration_rate_for_ventilation_system_on,
|
||||
infiltration_rate_area_for_ventilation_system_off,
|
||||
infiltration_rate_area_for_ventilation_system_on
|
||||
):
|
||||
self._id = archetype_id
|
||||
self._name = name
|
||||
self._function = function
|
||||
|
@ -36,6 +39,8 @@ class Archetype:
|
|||
self._indirect_heated_ratio = indirect_heated_ratio
|
||||
self._infiltration_rate_for_ventilation_system_off = infiltration_rate_for_ventilation_system_off
|
||||
self._infiltration_rate_for_ventilation_system_on = infiltration_rate_for_ventilation_system_on
|
||||
self._infiltration_rate_area_for_ventilation_system_off = infiltration_rate_area_for_ventilation_system_off
|
||||
self._infiltration_rate_area_for_ventilation_system_on = infiltration_rate_area_for_ventilation_system_on
|
||||
|
||||
@property
|
||||
def id(self):
|
||||
|
@ -133,6 +138,22 @@ class Archetype:
|
|||
"""
|
||||
return self._infiltration_rate_for_ventilation_system_on
|
||||
|
||||
@property
|
||||
def infiltration_rate_area_for_ventilation_system_off(self):
|
||||
"""
|
||||
Get archetype infiltration rate for ventilation system off in m3/sm2
|
||||
:return: float
|
||||
"""
|
||||
return self._infiltration_rate_area_for_ventilation_system_off
|
||||
|
||||
@property
|
||||
def infiltration_rate_area_for_ventilation_system_on(self):
|
||||
"""
|
||||
Get archetype infiltration rate for ventilation system on in m3/sm2
|
||||
:return: float
|
||||
"""
|
||||
return self._infiltration_rate_for_ventilation_system_on
|
||||
|
||||
def to_dictionary(self):
|
||||
"""Class content to dictionary"""
|
||||
_constructions = []
|
||||
|
@ -149,6 +170,8 @@ class Archetype:
|
|||
'indirect heated ratio': self.indirect_heated_ratio,
|
||||
'infiltration rate for ventilation off [1/s]': self.infiltration_rate_for_ventilation_system_off,
|
||||
'infiltration rate for ventilation on [1/s]': self.infiltration_rate_for_ventilation_system_on,
|
||||
'infiltration rate area for ventilation off [m3/sm2]': self.infiltration_rate_area_for_ventilation_system_off,
|
||||
'infiltration rate area for ventilation on [m3/sm2]': self.infiltration_rate_area_for_ventilation_system_on,
|
||||
'constructions': _constructions
|
||||
}
|
||||
}
|
||||
|
|
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|
@ -10,7 +10,7 @@ class EmissionSystem:
|
|||
"""
|
||||
Emission system class
|
||||
"""
|
||||
def __init__(self, system_id, model_name=None, system_type=None, parasitic_energy_consumption=None):
|
||||
def __init__(self, system_id, model_name=None, system_type=None, parasitic_energy_consumption=0):
|
||||
|
||||
self._system_id = system_id
|
||||
self._model_name = model_name
|
||||
|
|
|
@ -25,9 +25,11 @@ class NonPvGenerationSystem(GenerationSystem):
|
|||
maximum_cooling_supply_temperature=None, minimum_cooling_supply_temperature=None, heat_output_curve=None,
|
||||
heat_fuel_consumption_curve=None, heat_efficiency_curve=None, cooling_output_curve=None,
|
||||
cooling_fuel_consumption_curve=None, cooling_efficiency_curve=None,
|
||||
distribution_systems=None, energy_storage_systems=None, dual_supply_capability=False):
|
||||
super().__init__(system_id=system_id, name=name, model_name=model_name, manufacturer=manufacturer, fuel_type=fuel_type,
|
||||
distribution_systems=distribution_systems, energy_storage_systems=energy_storage_systems)
|
||||
distribution_systems=None, energy_storage_systems=None, domestic_hot_water=False,
|
||||
reversible=None, simultaneous_heat_cold=None):
|
||||
super().__init__(system_id=system_id, name=name, model_name=model_name, manufacturer=manufacturer,
|
||||
fuel_type=fuel_type, distribution_systems=distribution_systems,
|
||||
energy_storage_systems=energy_storage_systems)
|
||||
self._system_type = system_type
|
||||
self._nominal_heat_output = nominal_heat_output
|
||||
self._maximum_heat_output = maximum_heat_output
|
||||
|
@ -53,7 +55,9 @@ class NonPvGenerationSystem(GenerationSystem):
|
|||
self._cooling_output_curve = cooling_output_curve
|
||||
self._cooling_fuel_consumption_curve = cooling_fuel_consumption_curve
|
||||
self._cooling_efficiency_curve = cooling_efficiency_curve
|
||||
self._dual_supply_capability = dual_supply_capability
|
||||
self._domestic_hot_water = domestic_hot_water
|
||||
self._reversible = reversible
|
||||
self._simultaneous_heat_cold = simultaneous_heat_cold
|
||||
|
||||
@property
|
||||
def system_type(self):
|
||||
|
@ -256,12 +260,28 @@ class NonPvGenerationSystem(GenerationSystem):
|
|||
return self._cooling_efficiency_curve
|
||||
|
||||
@property
|
||||
def dual_supply_capability(self):
|
||||
def domestic_hot_water(self):
|
||||
"""
|
||||
Get dual supply capability
|
||||
Get the ability to produce domestic hot water
|
||||
:return: bool
|
||||
"""
|
||||
return self._dual_supply_capability
|
||||
return self._domestic_hot_water
|
||||
|
||||
@property
|
||||
def reversibility(self):
|
||||
"""
|
||||
Get the ability to produce heating and cooling
|
||||
:return: bool
|
||||
"""
|
||||
return self._reversible
|
||||
|
||||
@property
|
||||
def simultaneous_heat_cold(self):
|
||||
"""
|
||||
Get the ability to produce heating and cooling at the same time
|
||||
:return: bool
|
||||
"""
|
||||
return self._simultaneous_heat_cold
|
||||
|
||||
def to_dictionary(self):
|
||||
"""Class content to dictionary"""
|
||||
|
@ -269,6 +289,18 @@ class NonPvGenerationSystem(GenerationSystem):
|
|||
self.distribution_systems] if self.distribution_systems is not None else None
|
||||
_energy_storage_systems = [_energy_storage_system.to_dictionary() for _energy_storage_system in
|
||||
self.energy_storage_systems] if self.energy_storage_systems is not None else None
|
||||
_heat_output_curve = self.heat_output_curve.to_dictionary() if (
|
||||
self.heat_output_curve is not None) else None
|
||||
_heat_fuel_consumption_curve = self.heat_fuel_consumption_curve.to_dictionary() if (
|
||||
self.heat_fuel_consumption_curve is not None) else None
|
||||
_heat_efficiency_curve = self.heat_efficiency_curve.to_dictionary() if (
|
||||
self.heat_efficiency_curve is not None) else None
|
||||
_cooling_output_curve = self.cooling_output_curve.to_dictionary() if (
|
||||
self.cooling_output_curve is not None) else None
|
||||
_cooling_fuel_consumption_curve = self.cooling_fuel_consumption_curve.to_dictionary() if (
|
||||
self.cooling_fuel_consumption_curve is not None) else None
|
||||
_cooling_efficiency_curve = self.cooling_efficiency_curve.to_dictionary() if (
|
||||
self.cooling_efficiency_curve is not None) else None
|
||||
|
||||
content = {
|
||||
'Energy Generation component':
|
||||
|
@ -298,13 +330,15 @@ class NonPvGenerationSystem(GenerationSystem):
|
|||
'minimum cooling supply temperature [Celsius]': self.minimum_cooling_supply_temperature,
|
||||
'heat output curve': self.heat_output_curve,
|
||||
'heat fuel consumption curve': self.heat_fuel_consumption_curve,
|
||||
'heat efficiency curve': self.heat_efficiency_curve,
|
||||
'heat efficiency curve': _heat_efficiency_curve,
|
||||
'cooling output curve': self.cooling_output_curve,
|
||||
'cooling fuel consumption curve': self.cooling_fuel_consumption_curve,
|
||||
'cooling efficiency curve': self.cooling_efficiency_curve,
|
||||
'distribution systems connected': _distribution_systems,
|
||||
'storage systems connected': _energy_storage_systems,
|
||||
'dual supply capability': self.dual_supply_capability
|
||||
'domestic hot water production capability': self.domestic_hot_water,
|
||||
'reversible cycle': self.reversibility,
|
||||
'simultaneous heat and cooling production': self.simultaneous_heat_cold
|
||||
}
|
||||
}
|
||||
return content
|
||||
|
|
|
@ -24,13 +24,13 @@ class PerformanceCurves:
|
|||
def curve_type(self):
|
||||
"""
|
||||
The type of the fit function from the following
|
||||
Linear =>>> y = a*x + b
|
||||
Linear =>>> y = a + b*x
|
||||
Exponential =>>> y = a*(b**x)
|
||||
Polynomial =>>> y = a*(x**2) + b*x + c
|
||||
Second degree polynomial =>>> y = a + b*x + c*(x**2)
|
||||
Power =>>> y = a*(x**b)
|
||||
Second degree multivariable =>>> y = a*(x**2) + b*x + c*x*z + d*z + e*(z**2) + f
|
||||
Bi-Quadratic =>>> y = a + b*x + c*(x**2) + d*z + e*(z**2) + f*x*z
|
||||
|
||||
Get the type of function from ['linear', 'exponential', 'polynomial', 'power', 'second degree multivariable']
|
||||
Get the type of function from ['linear', 'exponential', 'second degree polynomial', 'power', 'bi-quadratic']
|
||||
:return: string
|
||||
"""
|
||||
return self._curve_type
|
||||
|
|
|
@ -17,8 +17,9 @@ class PvGenerationSystem(GenerationSystem):
|
|||
def __init__(self, system_id, name, system_type, model_name=None, manufacturer=None, electricity_efficiency=None,
|
||||
nominal_electricity_output=None, nominal_ambient_temperature=None, nominal_cell_temperature=None,
|
||||
nominal_radiation=None, standard_test_condition_cell_temperature=None,
|
||||
standard_test_condition_maximum_power=None, cell_temperature_coefficient=None, width=None, height=None,
|
||||
distribution_systems=None, energy_storage_systems=None):
|
||||
standard_test_condition_maximum_power=None, standard_test_condition_radiation=None,
|
||||
cell_temperature_coefficient=None, width=None, height=None, distribution_systems=None,
|
||||
energy_storage_systems=None):
|
||||
super().__init__(system_id=system_id, name=name, model_name=model_name,
|
||||
manufacturer=manufacturer, fuel_type='renewable', distribution_systems=distribution_systems,
|
||||
energy_storage_systems=energy_storage_systems)
|
||||
|
@ -30,6 +31,7 @@ class PvGenerationSystem(GenerationSystem):
|
|||
self._nominal_radiation = nominal_radiation
|
||||
self._standard_test_condition_cell_temperature = standard_test_condition_cell_temperature
|
||||
self._standard_test_condition_maximum_power = standard_test_condition_maximum_power
|
||||
self._standard_test_condition_radiation = standard_test_condition_radiation
|
||||
self._cell_temperature_coefficient = cell_temperature_coefficient
|
||||
self._width = width
|
||||
self._height = height
|
||||
|
@ -98,6 +100,15 @@ class PvGenerationSystem(GenerationSystem):
|
|||
"""
|
||||
return self._standard_test_condition_maximum_power
|
||||
|
||||
@property
|
||||
def standard_test_condition_radiation(self):
|
||||
"""
|
||||
Get standard test condition cell temperature of PV panels in W/m2
|
||||
:return: float
|
||||
"""
|
||||
return self._standard_test_condition_radiation
|
||||
|
||||
|
||||
@property
|
||||
def cell_temperature_coefficient(self):
|
||||
"""
|
||||
|
@ -143,6 +154,7 @@ class PvGenerationSystem(GenerationSystem):
|
|||
'nominal radiation [W/m2]': self.nominal_radiation,
|
||||
'standard test condition cell temperature [Celsius]': self.standard_test_condition_cell_temperature,
|
||||
'standard test condition maximum power [W]': self.standard_test_condition_maximum_power,
|
||||
'standard test condition radiation [W/m2]': self.standard_test_condition_radiation,
|
||||
'cell temperature coefficient': self.cell_temperature_coefficient,
|
||||
'width': self.width,
|
||||
'height': self.height,
|
||||
|
|
|
@ -17,7 +17,7 @@ class ThermalStorageSystem(EnergyStorageSystem):
|
|||
|
||||
def __init__(self, storage_id, type_energy_stored=None, model_name=None, manufacturer=None, storage_type=None,
|
||||
nominal_capacity=None, losses_ratio=None, volume=None, height=None, layers=None,
|
||||
maximum_operating_temperature=None, storage_medium=None):
|
||||
maximum_operating_temperature=None, storage_medium=None, heating_coil_capacity=None):
|
||||
|
||||
super().__init__(storage_id, model_name, manufacturer, nominal_capacity, losses_ratio)
|
||||
self._type_energy_stored = type_energy_stored
|
||||
|
@ -27,6 +27,7 @@ class ThermalStorageSystem(EnergyStorageSystem):
|
|||
self._layers = layers
|
||||
self._maximum_operating_temperature = maximum_operating_temperature
|
||||
self._storage_medium = storage_medium
|
||||
self._heating_coil_capacity = heating_coil_capacity
|
||||
|
||||
@property
|
||||
def type_energy_stored(self):
|
||||
|
@ -84,6 +85,14 @@ class ThermalStorageSystem(EnergyStorageSystem):
|
|||
"""
|
||||
return self._storage_medium
|
||||
|
||||
@property
|
||||
def heating_coil_capacity(self):
|
||||
"""
|
||||
Get heating coil capacity in Watts
|
||||
:return: [material
|
||||
"""
|
||||
return self._heating_coil_capacity
|
||||
|
||||
def to_dictionary(self):
|
||||
"""Class content to dictionary"""
|
||||
_layers = None
|
||||
|
@ -110,7 +119,8 @@ class ThermalStorageSystem(EnergyStorageSystem):
|
|||
'height [m]': self.height,
|
||||
'layers': _layers,
|
||||
'maximum operating temperature [Celsius]': self.maximum_operating_temperature,
|
||||
'storage_medium': self.storage_medium.to_dictionary()
|
||||
'storage_medium': self.storage_medium.to_dictionary(),
|
||||
'heating coil capacity [W]': self.heating_coil_capacity
|
||||
}
|
||||
}
|
||||
return content
|
||||
|
|
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|
@ -87,7 +87,7 @@ class MontrealCustomCatalog(Catalog):
|
|||
cooling_efficiency=cooling_efficiency,
|
||||
electricity_efficiency=electricity_efficiency,
|
||||
energy_storage_systems=storage_systems,
|
||||
dual_supply_capability=False
|
||||
domestic_hot_water=False
|
||||
)
|
||||
_equipments.append(generation_system)
|
||||
|
||||
|
@ -135,7 +135,7 @@ class MontrealCustomCatalog(Catalog):
|
|||
equipment_id = float(equipment['@id'])
|
||||
equipment_type = equipment['@type']
|
||||
model_name = equipment['name']
|
||||
parasitic_consumption = None
|
||||
parasitic_consumption = 0
|
||||
if 'parasitic_consumption' in equipment:
|
||||
parasitic_consumption = float(equipment['parasitic_consumption']['#text']) / 100
|
||||
|
||||
|
|
|
@ -121,13 +121,26 @@ class MontrealFutureSystemCatalogue(Catalog):
|
|||
parameters = non_pv['cooling_efficiency_curve']['parameters']
|
||||
coefficients = list(non_pv['cooling_efficiency_curve']['coefficients'].values())
|
||||
cooling_efficiency_curve = PerformanceCurves(curve_type, dependant_variable, parameters, coefficients)
|
||||
dual_supply_capability = None
|
||||
if non_pv['dual_supply_capability'] is not None:
|
||||
if non_pv['dual_supply_capability'] == 'True':
|
||||
dual_supply_capability = True
|
||||
dhw = None
|
||||
if non_pv['domestic_hot_water'] is not None:
|
||||
if non_pv['domestic_hot_water'] == 'True':
|
||||
dhw = True
|
||||
else:
|
||||
dual_supply_capability = False
|
||||
dhw = False
|
||||
|
||||
reversible = None
|
||||
if non_pv['reversible'] is not None:
|
||||
if non_pv['reversible'] == 'True':
|
||||
reversible = True
|
||||
else:
|
||||
reversible = False
|
||||
|
||||
dual_supply = None
|
||||
if non_pv['simultaneous_heat_cold'] is not None:
|
||||
if non_pv['simultaneous_heat_cold'] == 'True':
|
||||
dual_supply = True
|
||||
else:
|
||||
dual_supply = False
|
||||
non_pv_component = NonPvGenerationSystem(system_id=system_id,
|
||||
name=name,
|
||||
system_type=system_type,
|
||||
|
@ -160,7 +173,9 @@ class MontrealFutureSystemCatalogue(Catalog):
|
|||
cooling_efficiency_curve=cooling_efficiency_curve,
|
||||
distribution_systems=distribution_systems,
|
||||
energy_storage_systems=energy_storage_systems,
|
||||
dual_supply_capability=dual_supply_capability)
|
||||
domestic_hot_water=dhw,
|
||||
reversible=reversible,
|
||||
simultaneous_heat_cold=dual_supply)
|
||||
generation_components.append(non_pv_component)
|
||||
pv_generation_components = self._archetypes['EnergySystemCatalog']['energy_generation_components'][
|
||||
'pv_generation_component']
|
||||
|
@ -178,6 +193,7 @@ class MontrealFutureSystemCatalogue(Catalog):
|
|||
nominal_radiation = pv['nominal_radiation']
|
||||
standard_test_condition_cell_temperature = pv['standard_test_condition_cell_temperature']
|
||||
standard_test_condition_maximum_power = pv['standard_test_condition_maximum_power']
|
||||
standard_test_condition_radiation = pv['standard_test_condition_radiation']
|
||||
cell_temperature_coefficient = pv['cell_temperature_coefficient']
|
||||
width = pv['width']
|
||||
height = pv['height']
|
||||
|
@ -187,7 +203,6 @@ class MontrealFutureSystemCatalogue(Catalog):
|
|||
storage_component = pv['energy_storage_systems']['storage_id']
|
||||
storage_systems = self._search_storage_equipment(self._load_storage_components(), storage_component)
|
||||
energy_storage_systems = storage_systems
|
||||
|
||||
pv_component = PvGenerationSystem(system_id=system_id,
|
||||
name=name,
|
||||
system_type=system_type,
|
||||
|
@ -201,6 +216,7 @@ class MontrealFutureSystemCatalogue(Catalog):
|
|||
standard_test_condition_cell_temperature=
|
||||
standard_test_condition_cell_temperature,
|
||||
standard_test_condition_maximum_power=standard_test_condition_maximum_power,
|
||||
standard_test_condition_radiation=standard_test_condition_radiation,
|
||||
cell_temperature_coefficient=cell_temperature_coefficient,
|
||||
width=width,
|
||||
height=height,
|
||||
|
@ -248,7 +264,7 @@ class MontrealFutureSystemCatalogue(Catalog):
|
|||
system_id = None
|
||||
model_name = None
|
||||
system_type = None
|
||||
parasitic_energy_consumption = None
|
||||
parasitic_energy_consumption = 0
|
||||
emission_system = EmissionSystem(system_id=system_id,
|
||||
model_name=model_name,
|
||||
system_type=system_type,
|
||||
|
@ -284,6 +300,7 @@ class MontrealFutureSystemCatalogue(Catalog):
|
|||
layers = [insulation_layer, tank_layer]
|
||||
nominal_capacity = tes['nominal_capacity']
|
||||
losses_ratio = tes['losses_ratio']
|
||||
heating_coil_capacity = tes['heating_coil_capacity']
|
||||
storage_component = ThermalStorageSystem(storage_id=storage_id,
|
||||
model_name=model_name,
|
||||
type_energy_stored=type_energy_stored,
|
||||
|
@ -295,7 +312,8 @@ class MontrealFutureSystemCatalogue(Catalog):
|
|||
height=height,
|
||||
layers=layers,
|
||||
maximum_operating_temperature=maximum_operating_temperature,
|
||||
storage_medium=medium)
|
||||
storage_medium=medium,
|
||||
heating_coil_capacity=heating_coil_capacity)
|
||||
storage_components.append(storage_component)
|
||||
|
||||
for template in template_storages:
|
||||
|
@ -303,7 +321,7 @@ class MontrealFutureSystemCatalogue(Catalog):
|
|||
storage_type = template['storage_type']
|
||||
type_energy_stored = template['type_energy_stored']
|
||||
maximum_operating_temperature = template['maximum_operating_temperature']
|
||||
height = template['physical_characteristics']['height']
|
||||
height = float(template['physical_characteristics']['height'])
|
||||
materials = self._load_materials()
|
||||
insulation_material_id = template['insulation']['material_id']
|
||||
insulation_material = self._search_material(materials, insulation_material_id)
|
||||
|
@ -322,6 +340,7 @@ class MontrealFutureSystemCatalogue(Catalog):
|
|||
nominal_capacity = template['nominal_capacity']
|
||||
losses_ratio = template['losses_ratio']
|
||||
volume = template['physical_characteristics']['volume']
|
||||
heating_coil_capacity = template['heating_coil_capacity']
|
||||
storage_component = ThermalStorageSystem(storage_id=storage_id,
|
||||
model_name=model_name,
|
||||
type_energy_stored=type_energy_stored,
|
||||
|
@ -333,7 +352,8 @@ class MontrealFutureSystemCatalogue(Catalog):
|
|||
height=height,
|
||||
layers=layers,
|
||||
maximum_operating_temperature=maximum_operating_temperature,
|
||||
storage_medium=medium)
|
||||
storage_medium=medium,
|
||||
heating_coil_capacity=heating_coil_capacity)
|
||||
storage_components.append(storage_component)
|
||||
return storage_components
|
||||
|
||||
|
|
520
hub/catalog_factories/energy_systems/palma_system_catalgue.py
Normal file
520
hub/catalog_factories/energy_systems/palma_system_catalgue.py
Normal file
|
@ -0,0 +1,520 @@
|
|||
"""
|
||||
Palma energy system catalog
|
||||
SPDX - License - Identifier: LGPL - 3.0 - or -later
|
||||
Copyright © 2022 Concordia CERC group
|
||||
Project Coder Saeed Ranjbar saeed.ranjbar@concordia.ca
|
||||
"""
|
||||
|
||||
import xmltodict
|
||||
from pathlib import Path
|
||||
from hub.catalog_factories.catalog import Catalog
|
||||
from hub.catalog_factories.data_models.energy_systems.distribution_system import DistributionSystem
|
||||
from hub.catalog_factories.data_models.energy_systems.emission_system import EmissionSystem
|
||||
from hub.catalog_factories.data_models.energy_systems.system import System
|
||||
from hub.catalog_factories.data_models.energy_systems.content import Content
|
||||
from hub.catalog_factories.data_models.energy_systems.non_pv_generation_system import NonPvGenerationSystem
|
||||
from hub.catalog_factories.data_models.energy_systems.pv_generation_system import PvGenerationSystem
|
||||
from hub.catalog_factories.data_models.energy_systems.thermal_storage_system import ThermalStorageSystem
|
||||
from hub.catalog_factories.data_models.energy_systems.performance_curves import PerformanceCurves
|
||||
from hub.catalog_factories.data_models.energy_systems.archetype import Archetype
|
||||
from hub.catalog_factories.data_models.construction.material import Material
|
||||
from hub.catalog_factories.data_models.construction.layer import Layer
|
||||
|
||||
|
||||
class PalmaSystemCatalogue(Catalog):
|
||||
"""
|
||||
North america energy system catalog class
|
||||
"""
|
||||
|
||||
def __init__(self, path):
|
||||
path = str(path / 'palma_systems.xml')
|
||||
with open(path, 'r', encoding='utf-8') as xml:
|
||||
self._archetypes = xmltodict.parse(xml.read(),
|
||||
force_list=['pv_generation_component', 'demand'])
|
||||
|
||||
self._storage_components = self._load_storage_components()
|
||||
self._generation_components = self._load_generation_components()
|
||||
self._energy_emission_components = self._load_emission_equipments()
|
||||
self._distribution_components = self._load_distribution_equipments()
|
||||
self._systems = self._load_systems()
|
||||
self._system_archetypes = self._load_archetypes()
|
||||
self._content = Content(self._system_archetypes,
|
||||
self._systems,
|
||||
generations=self._generation_components,
|
||||
distributions=self._distribution_components)
|
||||
|
||||
def _load_generation_components(self):
|
||||
generation_components = []
|
||||
non_pv_generation_components = self._archetypes['EnergySystemCatalog']['energy_generation_components'][
|
||||
'non_pv_generation_component']
|
||||
if non_pv_generation_components is not None:
|
||||
for non_pv in non_pv_generation_components:
|
||||
system_id = non_pv['system_id']
|
||||
name = non_pv['name']
|
||||
system_type = non_pv['system_type']
|
||||
model_name = non_pv['model_name']
|
||||
manufacturer = non_pv['manufacturer']
|
||||
fuel_type = non_pv['fuel_type']
|
||||
distribution_systems = non_pv['distribution_systems']
|
||||
energy_storage_systems = None
|
||||
if non_pv['energy_storage_systems'] is not None:
|
||||
storage_component = non_pv['energy_storage_systems']['storage_id']
|
||||
storage_systems = self._search_storage_equipment(self._load_storage_components(), storage_component)
|
||||
energy_storage_systems = storage_systems
|
||||
nominal_heat_output = non_pv['nominal_heat_output']
|
||||
maximum_heat_output = non_pv['maximum_heat_output']
|
||||
minimum_heat_output = non_pv['minimum_heat_output']
|
||||
source_medium = non_pv['source_medium']
|
||||
supply_medium = non_pv['supply_medium']
|
||||
heat_efficiency = non_pv['heat_efficiency']
|
||||
nominal_cooling_output = non_pv['nominal_cooling_output']
|
||||
maximum_cooling_output = non_pv['maximum_cooling_output']
|
||||
minimum_cooling_output = non_pv['minimum_cooling_output']
|
||||
cooling_efficiency = non_pv['cooling_efficiency']
|
||||
electricity_efficiency = non_pv['electricity_efficiency']
|
||||
source_temperature = non_pv['source_temperature']
|
||||
source_mass_flow = non_pv['source_mass_flow']
|
||||
nominal_electricity_output = non_pv['nominal_electricity_output']
|
||||
maximum_heat_supply_temperature = non_pv['maximum_heat_supply_temperature']
|
||||
minimum_heat_supply_temperature = non_pv['minimum_heat_supply_temperature']
|
||||
maximum_cooling_supply_temperature = non_pv['maximum_cooling_supply_temperature']
|
||||
minimum_cooling_supply_temperature = non_pv['minimum_cooling_supply_temperature']
|
||||
heat_output_curve = None
|
||||
heat_fuel_consumption_curve = None
|
||||
heat_efficiency_curve = None
|
||||
cooling_output_curve = None
|
||||
cooling_fuel_consumption_curve = None
|
||||
cooling_efficiency_curve = None
|
||||
if non_pv['heat_output_curve'] is not None:
|
||||
curve_type = non_pv['heat_output_curve']['curve_type']
|
||||
dependant_variable = non_pv['heat_output_curve']['dependant_variable']
|
||||
parameters = non_pv['heat_output_curve']['parameters']
|
||||
coefficients = list(non_pv['heat_output_curve']['coefficients'].values())
|
||||
heat_output_curve = PerformanceCurves(curve_type, dependant_variable, parameters, coefficients)
|
||||
if non_pv['heat_fuel_consumption_curve'] is not None:
|
||||
curve_type = non_pv['heat_fuel_consumption_curve']['curve_type']
|
||||
dependant_variable = non_pv['heat_fuel_consumption_curve']['dependant_variable']
|
||||
parameters = non_pv['heat_fuel_consumption_curve']['parameters']
|
||||
coefficients = list(non_pv['heat_fuel_consumption_curve']['coefficients'].values())
|
||||
heat_fuel_consumption_curve = PerformanceCurves(curve_type, dependant_variable, parameters, coefficients)
|
||||
if non_pv['heat_efficiency_curve'] is not None:
|
||||
curve_type = non_pv['heat_efficiency_curve']['curve_type']
|
||||
dependant_variable = non_pv['heat_efficiency_curve']['dependant_variable']
|
||||
parameters = non_pv['heat_efficiency_curve']['parameters']
|
||||
coefficients = list(non_pv['heat_efficiency_curve']['coefficients'].values())
|
||||
heat_efficiency_curve = PerformanceCurves(curve_type, dependant_variable, parameters, coefficients)
|
||||
if non_pv['cooling_output_curve'] is not None:
|
||||
curve_type = non_pv['cooling_output_curve']['curve_type']
|
||||
dependant_variable = non_pv['cooling_output_curve']['dependant_variable']
|
||||
parameters = non_pv['cooling_output_curve']['parameters']
|
||||
coefficients = list(non_pv['cooling_output_curve']['coefficients'].values())
|
||||
cooling_output_curve = PerformanceCurves(curve_type, dependant_variable, parameters, coefficients)
|
||||
if non_pv['cooling_fuel_consumption_curve'] is not None:
|
||||
curve_type = non_pv['cooling_fuel_consumption_curve']['curve_type']
|
||||
dependant_variable = non_pv['cooling_fuel_consumption_curve']['dependant_variable']
|
||||
parameters = non_pv['cooling_fuel_consumption_curve']['parameters']
|
||||
coefficients = list(non_pv['cooling_fuel_consumption_curve']['coefficients'].values())
|
||||
cooling_fuel_consumption_curve = PerformanceCurves(curve_type, dependant_variable, parameters, coefficients)
|
||||
if non_pv['cooling_efficiency_curve'] is not None:
|
||||
curve_type = non_pv['cooling_efficiency_curve']['curve_type']
|
||||
dependant_variable = non_pv['cooling_efficiency_curve']['dependant_variable']
|
||||
parameters = non_pv['cooling_efficiency_curve']['parameters']
|
||||
coefficients = list(non_pv['cooling_efficiency_curve']['coefficients'].values())
|
||||
cooling_efficiency_curve = PerformanceCurves(curve_type, dependant_variable, parameters, coefficients)
|
||||
dhw = None
|
||||
if non_pv['domestic_hot_water'] is not None:
|
||||
if non_pv['domestic_hot_water'] == 'True':
|
||||
dhw = True
|
||||
else:
|
||||
dhw = False
|
||||
|
||||
reversible = None
|
||||
if non_pv['reversible'] is not None:
|
||||
if non_pv['reversible'] == 'True':
|
||||
reversible = True
|
||||
else:
|
||||
reversible = False
|
||||
|
||||
dual_supply = None
|
||||
if non_pv['simultaneous_heat_cold'] is not None:
|
||||
if non_pv['simultaneous_heat_cold'] == 'True':
|
||||
dual_supply = True
|
||||
else:
|
||||
dual_supply = False
|
||||
non_pv_component = NonPvGenerationSystem(system_id=system_id,
|
||||
name=name,
|
||||
system_type=system_type,
|
||||
model_name=model_name,
|
||||
manufacturer=manufacturer,
|
||||
fuel_type=fuel_type,
|
||||
nominal_heat_output=nominal_heat_output,
|
||||
maximum_heat_output=maximum_heat_output,
|
||||
minimum_heat_output=minimum_heat_output,
|
||||
source_medium=source_medium,
|
||||
supply_medium=supply_medium,
|
||||
heat_efficiency=heat_efficiency,
|
||||
nominal_cooling_output=nominal_cooling_output,
|
||||
maximum_cooling_output=maximum_cooling_output,
|
||||
minimum_cooling_output=minimum_cooling_output,
|
||||
cooling_efficiency=cooling_efficiency,
|
||||
electricity_efficiency=electricity_efficiency,
|
||||
source_temperature=source_temperature,
|
||||
source_mass_flow=source_mass_flow,
|
||||
nominal_electricity_output=nominal_electricity_output,
|
||||
maximum_heat_supply_temperature=maximum_heat_supply_temperature,
|
||||
minimum_heat_supply_temperature=minimum_heat_supply_temperature,
|
||||
maximum_cooling_supply_temperature=maximum_cooling_supply_temperature,
|
||||
minimum_cooling_supply_temperature=minimum_cooling_supply_temperature,
|
||||
heat_output_curve=heat_output_curve,
|
||||
heat_fuel_consumption_curve=heat_fuel_consumption_curve,
|
||||
heat_efficiency_curve=heat_efficiency_curve,
|
||||
cooling_output_curve=cooling_output_curve,
|
||||
cooling_fuel_consumption_curve=cooling_fuel_consumption_curve,
|
||||
cooling_efficiency_curve=cooling_efficiency_curve,
|
||||
distribution_systems=distribution_systems,
|
||||
energy_storage_systems=energy_storage_systems,
|
||||
domestic_hot_water=dhw,
|
||||
reversible=reversible,
|
||||
simultaneous_heat_cold=dual_supply)
|
||||
generation_components.append(non_pv_component)
|
||||
pv_generation_components = self._archetypes['EnergySystemCatalog']['energy_generation_components'][
|
||||
'pv_generation_component']
|
||||
if pv_generation_components is not None:
|
||||
for pv in pv_generation_components:
|
||||
system_id = pv['system_id']
|
||||
name = pv['name']
|
||||
system_type = pv['system_type']
|
||||
model_name = pv['model_name']
|
||||
manufacturer = pv['manufacturer']
|
||||
electricity_efficiency = pv['electricity_efficiency']
|
||||
nominal_electricity_output = pv['nominal_electricity_output']
|
||||
nominal_ambient_temperature = pv['nominal_ambient_temperature']
|
||||
nominal_cell_temperature = pv['nominal_cell_temperature']
|
||||
nominal_radiation = pv['nominal_radiation']
|
||||
standard_test_condition_cell_temperature = pv['standard_test_condition_cell_temperature']
|
||||
standard_test_condition_maximum_power = pv['standard_test_condition_maximum_power']
|
||||
standard_test_condition_radiation = pv['standard_test_condition_radiation']
|
||||
cell_temperature_coefficient = pv['cell_temperature_coefficient']
|
||||
width = pv['width']
|
||||
height = pv['height']
|
||||
distribution_systems = pv['distribution_systems']
|
||||
energy_storage_systems = None
|
||||
if pv['energy_storage_systems'] is not None:
|
||||
storage_component = pv['energy_storage_systems']['storage_id']
|
||||
storage_systems = self._search_storage_equipment(self._load_storage_components(), storage_component)
|
||||
energy_storage_systems = storage_systems
|
||||
pv_component = PvGenerationSystem(system_id=system_id,
|
||||
name=name,
|
||||
system_type=system_type,
|
||||
model_name=model_name,
|
||||
manufacturer=manufacturer,
|
||||
electricity_efficiency=electricity_efficiency,
|
||||
nominal_electricity_output=nominal_electricity_output,
|
||||
nominal_ambient_temperature=nominal_ambient_temperature,
|
||||
nominal_cell_temperature=nominal_cell_temperature,
|
||||
nominal_radiation=nominal_radiation,
|
||||
standard_test_condition_cell_temperature=
|
||||
standard_test_condition_cell_temperature,
|
||||
standard_test_condition_maximum_power=standard_test_condition_maximum_power,
|
||||
standard_test_condition_radiation=standard_test_condition_radiation,
|
||||
cell_temperature_coefficient=cell_temperature_coefficient,
|
||||
width=width,
|
||||
height=height,
|
||||
distribution_systems=distribution_systems,
|
||||
energy_storage_systems=energy_storage_systems)
|
||||
generation_components.append(pv_component)
|
||||
|
||||
return generation_components
|
||||
|
||||
def _load_distribution_equipments(self):
|
||||
_equipments = []
|
||||
distribution_systems = self._archetypes['EnergySystemCatalog']['distribution_systems']['distribution_system']
|
||||
if distribution_systems is not None:
|
||||
for distribution_system in distribution_systems:
|
||||
system_id = None
|
||||
model_name = None
|
||||
system_type = None
|
||||
supply_temperature = None
|
||||
distribution_consumption_fix_flow = None
|
||||
distribution_consumption_variable_flow = None
|
||||
heat_losses = None
|
||||
generation_systems = None
|
||||
energy_storage_systems = None
|
||||
emission_systems = None
|
||||
distribution_equipment = DistributionSystem(system_id=system_id,
|
||||
model_name=model_name,
|
||||
system_type=system_type,
|
||||
supply_temperature=supply_temperature,
|
||||
distribution_consumption_fix_flow=distribution_consumption_fix_flow,
|
||||
distribution_consumption_variable_flow=
|
||||
distribution_consumption_variable_flow,
|
||||
heat_losses=heat_losses,
|
||||
generation_systems=generation_systems,
|
||||
energy_storage_systems=energy_storage_systems,
|
||||
emission_systems=emission_systems
|
||||
)
|
||||
_equipments.append(distribution_equipment)
|
||||
return _equipments
|
||||
|
||||
def _load_emission_equipments(self):
|
||||
_equipments = []
|
||||
dissipation_systems = self._archetypes['EnergySystemCatalog']['dissipation_systems']['dissipation_system']
|
||||
if dissipation_systems is not None:
|
||||
for dissipation_system in dissipation_systems:
|
||||
system_id = None
|
||||
model_name = None
|
||||
system_type = None
|
||||
parasitic_energy_consumption = 0
|
||||
emission_system = EmissionSystem(system_id=system_id,
|
||||
model_name=model_name,
|
||||
system_type=system_type,
|
||||
parasitic_energy_consumption=parasitic_energy_consumption)
|
||||
_equipments.append(emission_system)
|
||||
return _equipments
|
||||
|
||||
def _load_storage_components(self):
|
||||
storage_components = []
|
||||
thermal_storages = self._archetypes['EnergySystemCatalog']['energy_storage_components']['thermalStorages']
|
||||
for tes in thermal_storages:
|
||||
storage_id = tes['storage_id']
|
||||
type_energy_stored = tes['type_energy_stored']
|
||||
model_name = tes['model_name']
|
||||
manufacturer = tes['manufacturer']
|
||||
storage_type = tes['storage_type']
|
||||
volume = tes['physical_characteristics']['volume']
|
||||
height = tes['physical_characteristics']['height']
|
||||
maximum_operating_temperature = tes['maximum_operating_temperature']
|
||||
materials = self._load_materials()
|
||||
insulation_material_id = tes['insulation']['material_id']
|
||||
insulation_material = self._search_material(materials, insulation_material_id)
|
||||
material_id = tes['physical_characteristics']['material_id']
|
||||
tank_material = self._search_material(materials, material_id)
|
||||
thickness = float(tes['insulation']['insulationThickness']) / 100 # from cm to m
|
||||
insulation_layer = Layer(None, 'insulation', insulation_material, thickness)
|
||||
thickness = float(tes['physical_characteristics']['tankThickness']) / 100 # from cm to m
|
||||
tank_layer = Layer(None, 'tank', tank_material, thickness)
|
||||
media = self._load_media()
|
||||
media_id = tes['storage_medium']['medium_id']
|
||||
medium = self._search_media(media, media_id)
|
||||
layers = [insulation_layer, tank_layer]
|
||||
nominal_capacity = tes['nominal_capacity']
|
||||
losses_ratio = tes['losses_ratio']
|
||||
heating_coil_capacity = tes['heating_coil_capacity']
|
||||
storage_component = ThermalStorageSystem(storage_id=storage_id,
|
||||
model_name=model_name,
|
||||
type_energy_stored=type_energy_stored,
|
||||
manufacturer=manufacturer,
|
||||
storage_type=storage_type,
|
||||
nominal_capacity=nominal_capacity,
|
||||
losses_ratio=losses_ratio,
|
||||
volume=volume,
|
||||
height=height,
|
||||
layers=layers,
|
||||
maximum_operating_temperature=maximum_operating_temperature,
|
||||
storage_medium=medium,
|
||||
heating_coil_capacity=heating_coil_capacity)
|
||||
storage_components.append(storage_component)
|
||||
return storage_components
|
||||
|
||||
def _load_systems(self):
|
||||
base_path = Path(Path(__file__).parent.parent.parent / 'data/energy_systems')
|
||||
_catalog_systems = []
|
||||
systems = self._archetypes['EnergySystemCatalog']['systems']['system']
|
||||
for system in systems:
|
||||
system_id = system['id']
|
||||
name = system['name']
|
||||
demands = system['demands']['demand']
|
||||
generation_components = system['components']['generation_id']
|
||||
generation_systems = self._search_generation_equipment(self._load_generation_components(), generation_components)
|
||||
configuration_schema = None
|
||||
if system['schema'] is not None:
|
||||
configuration_schema = Path(base_path / system['schema'])
|
||||
energy_system = System(system_id=system_id,
|
||||
name=name,
|
||||
demand_types=demands,
|
||||
generation_systems=generation_systems,
|
||||
distribution_systems=None,
|
||||
configuration_schema=configuration_schema)
|
||||
_catalog_systems.append(energy_system)
|
||||
return _catalog_systems
|
||||
|
||||
def _load_archetypes(self):
|
||||
_system_archetypes = []
|
||||
system_clusters = self._archetypes['EnergySystemCatalog']['system_archetypes']['system_archetype']
|
||||
for system_cluster in system_clusters:
|
||||
name = system_cluster['name']
|
||||
systems = system_cluster['systems']['system_id']
|
||||
integer_system_ids = [int(item) for item in systems]
|
||||
_systems = []
|
||||
for system_archetype in self._systems:
|
||||
if int(system_archetype.id) in integer_system_ids:
|
||||
_systems.append(system_archetype)
|
||||
_system_archetypes.append(Archetype(name=name, systems=_systems))
|
||||
return _system_archetypes
|
||||
|
||||
def _load_materials(self):
|
||||
materials = []
|
||||
_materials = self._archetypes['EnergySystemCatalog']['materials']['material']
|
||||
for _material in _materials:
|
||||
material_id = _material['material_id']
|
||||
name = _material['name']
|
||||
conductivity = _material['conductivity']
|
||||
solar_absorptance = _material['solar_absorptance']
|
||||
thermal_absorptance = _material['thermal_absorptance']
|
||||
density = _material['density']
|
||||
specific_heat = _material['specific_heat']
|
||||
no_mass = _material['no_mass']
|
||||
visible_absorptance = _material['visible_absorptance']
|
||||
thermal_resistance = _material['thermal_resistance']
|
||||
|
||||
material = Material(material_id,
|
||||
name,
|
||||
solar_absorptance=solar_absorptance,
|
||||
thermal_absorptance=thermal_absorptance,
|
||||
density=density,
|
||||
conductivity=conductivity,
|
||||
thermal_resistance=thermal_resistance,
|
||||
visible_absorptance=visible_absorptance,
|
||||
no_mass=no_mass,
|
||||
specific_heat=specific_heat)
|
||||
materials.append(material)
|
||||
return materials
|
||||
|
||||
@staticmethod
|
||||
def _search_material(materials, material_id):
|
||||
_material = None
|
||||
for material in materials:
|
||||
if int(material.id) == int(material_id):
|
||||
_material = material
|
||||
break
|
||||
if _material is None:
|
||||
raise ValueError(f'Material with the id = [{material_id}] not found in catalog ')
|
||||
return _material
|
||||
|
||||
def _load_media(self):
|
||||
media = []
|
||||
_media = [self._archetypes['EnergySystemCatalog']['media']['medium']]
|
||||
for _medium in _media:
|
||||
medium_id = _medium['medium_id']
|
||||
density = _medium['density']
|
||||
name = _medium['name']
|
||||
conductivity = _medium['conductivity']
|
||||
solar_absorptance = _medium['solar_absorptance']
|
||||
thermal_absorptance = _medium['thermal_absorptance']
|
||||
specific_heat = _medium['specific_heat']
|
||||
no_mass = _medium['no_mass']
|
||||
visible_absorptance = _medium['visible_absorptance']
|
||||
thermal_resistance = _medium['thermal_resistance']
|
||||
medium = Material(material_id=medium_id,
|
||||
name=name,
|
||||
solar_absorptance=solar_absorptance,
|
||||
thermal_absorptance=thermal_absorptance,
|
||||
visible_absorptance=visible_absorptance,
|
||||
no_mass=no_mass,
|
||||
thermal_resistance=thermal_resistance,
|
||||
conductivity=conductivity,
|
||||
density=density,
|
||||
specific_heat=specific_heat)
|
||||
media.append(medium)
|
||||
return media
|
||||
|
||||
@staticmethod
|
||||
def _search_media(media, medium_id):
|
||||
_medium = None
|
||||
for medium in media:
|
||||
if int(medium.id) == int(medium_id):
|
||||
_medium = medium
|
||||
break
|
||||
if _medium is None:
|
||||
raise ValueError(f'media with the id = [{medium_id}] not found in catalog ')
|
||||
return _medium
|
||||
|
||||
@staticmethod
|
||||
def _search_generation_equipment(generation_systems, generation_id):
|
||||
_generation_systems = []
|
||||
|
||||
if isinstance(generation_id, list):
|
||||
integer_ids = [int(item) for item in generation_id]
|
||||
for generation in generation_systems:
|
||||
if int(generation.id) in integer_ids:
|
||||
_generation_systems.append(generation)
|
||||
else:
|
||||
integer_id = int(generation_id)
|
||||
for generation in generation_systems:
|
||||
if int(generation.id) == integer_id:
|
||||
_generation_systems.append(generation)
|
||||
|
||||
if len(_generation_systems) == 0:
|
||||
_generation_systems = None
|
||||
raise ValueError(f'The system with the following id is not found in catalog [{generation_id}]')
|
||||
return _generation_systems
|
||||
|
||||
@staticmethod
|
||||
def _search_storage_equipment(storage_systems, storage_id):
|
||||
_storage_systems = []
|
||||
for storage in storage_systems:
|
||||
if storage.id in storage_id:
|
||||
_storage_systems.append(storage)
|
||||
if len(_storage_systems) == 0:
|
||||
_storage_systems = None
|
||||
raise ValueError(f'The system with the following id is not found in catalog [{storage_id}]')
|
||||
return _storage_systems
|
||||
|
||||
def names(self, category=None):
|
||||
"""
|
||||
Get the catalog elements names
|
||||
:parm: optional category filter
|
||||
"""
|
||||
if category is None:
|
||||
_names = {'archetypes': [], 'systems': [], 'generation_equipments': [], 'storage_equipments': []}
|
||||
for archetype in self._content.archetypes:
|
||||
_names['archetypes'].append(archetype.name)
|
||||
for system in self._content.systems:
|
||||
_names['systems'].append(system.name)
|
||||
for equipment in self._content.generation_equipments:
|
||||
_names['generation_equipments'].append(equipment.name)
|
||||
else:
|
||||
_names = {category: []}
|
||||
if category.lower() == 'archetypes':
|
||||
for archetype in self._content.archetypes:
|
||||
_names[category].append(archetype.name)
|
||||
elif category.lower() == 'systems':
|
||||
for system in self._content.systems:
|
||||
_names[category].append(system.name)
|
||||
elif category.lower() == 'generation_equipments':
|
||||
for system in self._content.generation_equipments:
|
||||
_names[category].append(system.name)
|
||||
else:
|
||||
raise ValueError(f'Unknown category [{category}]')
|
||||
return _names
|
||||
|
||||
def entries(self, category=None):
|
||||
"""
|
||||
Get the catalog elements
|
||||
:parm: optional category filter
|
||||
"""
|
||||
if category is None:
|
||||
return self._content
|
||||
if category.lower() == 'archetypes':
|
||||
return self._content.archetypes
|
||||
if category.lower() == 'systems':
|
||||
return self._content.systems
|
||||
if category.lower() == 'generation_equipments':
|
||||
return self._content.generation_equipments
|
||||
raise ValueError(f'Unknown category [{category}]')
|
||||
|
||||
def get_entry(self, name):
|
||||
"""
|
||||
Get one catalog element by names
|
||||
:parm: entry name
|
||||
"""
|
||||
for entry in self._content.archetypes:
|
||||
if entry.name.lower() == name.lower():
|
||||
return entry
|
||||
for entry in self._content.systems:
|
||||
if entry.name.lower() == name.lower():
|
||||
return entry
|
||||
for entry in self._content.generation_equipments:
|
||||
if entry.name.lower() == name.lower():
|
||||
return entry
|
||||
raise IndexError(f"{name} doesn't exists in the catalog")
|
|
@ -10,6 +10,7 @@ from typing import TypeVar
|
|||
|
||||
from hub.catalog_factories.energy_systems.montreal_custom_catalog import MontrealCustomCatalog
|
||||
from hub.catalog_factories.energy_systems.montreal_future_system_catalogue import MontrealFutureSystemCatalogue
|
||||
from hub.catalog_factories.energy_systems.palma_system_catalgue import PalmaSystemCatalogue
|
||||
from hub.helpers.utils import validate_import_export_type
|
||||
|
||||
Catalog = TypeVar('Catalog')
|
||||
|
@ -40,6 +41,13 @@ class EnergySystemsCatalogFactory:
|
|||
"""
|
||||
return MontrealFutureSystemCatalogue(self._path)
|
||||
|
||||
@property
|
||||
def _palma(self):
|
||||
"""
|
||||
Retrieve Palma catalog
|
||||
"""
|
||||
return PalmaSystemCatalogue(self._path)
|
||||
|
||||
@property
|
||||
def catalog(self) -> Catalog:
|
||||
"""
|
||||
|
|
Binary file not shown.
Binary file not shown.
Binary file not shown.
Binary file not shown.
Binary file not shown.
|
@ -190,14 +190,14 @@ class ComnetCatalog(Catalog):
|
|||
schedules_key = {}
|
||||
for j in range(0, number_usage_types-1):
|
||||
usage_parameters = _extracted_data.iloc[j]
|
||||
usage_type = usage_parameters[0]
|
||||
lighting_data[usage_type] = usage_parameters[1:6].values.tolist()
|
||||
plug_loads_data[usage_type] = usage_parameters[8:13].values.tolist()
|
||||
occupancy_data[usage_type] = usage_parameters[17:20].values.tolist()
|
||||
ventilation_rate[usage_type] = usage_parameters[20:21].item()
|
||||
water_heating[usage_type] = usage_parameters[23:24].item()
|
||||
process_data[usage_type] = usage_parameters[24:26].values.tolist()
|
||||
schedules_key[usage_type] = usage_parameters[27:28].item()
|
||||
usage_type = usage_parameters.iloc[0]
|
||||
lighting_data[usage_type] = usage_parameters.iloc[1:6].values.tolist()
|
||||
plug_loads_data[usage_type] = usage_parameters.iloc[8:13].values.tolist()
|
||||
occupancy_data[usage_type] = usage_parameters.iloc[17:20].values.tolist()
|
||||
ventilation_rate[usage_type] = usage_parameters.iloc[20:21].item()
|
||||
water_heating[usage_type] = usage_parameters.iloc[23:24].item()
|
||||
process_data[usage_type] = usage_parameters.iloc[24:26].values.tolist()
|
||||
schedules_key[usage_type] = usage_parameters.iloc[27:28].item()
|
||||
|
||||
return {'lighting': lighting_data,
|
||||
'plug loads': plug_loads_data,
|
||||
|
|
227
hub/catalog_factories/usage/palma_catalog.py
Normal file
227
hub/catalog_factories/usage/palma_catalog.py
Normal file
|
@ -0,0 +1,227 @@
|
|||
"""
|
||||
Palma usage catalog
|
||||
SPDX - License - Identifier: LGPL - 3.0 - or -later
|
||||
Copyright © 2022 Concordia CERC group
|
||||
Project Coder Cecilia Pérez cperez@irec.cat
|
||||
"""
|
||||
|
||||
import json
|
||||
import urllib.request
|
||||
from pathlib import Path
|
||||
|
||||
import xmltodict
|
||||
|
||||
import hub.helpers.constants as cte
|
||||
from hub.catalog_factories.catalog import Catalog
|
||||
from hub.catalog_factories.data_models.usages.appliances import Appliances
|
||||
from hub.catalog_factories.data_models.usages.content import Content
|
||||
from hub.catalog_factories.data_models.usages.lighting import Lighting
|
||||
from hub.catalog_factories.data_models.usages.occupancy import Occupancy
|
||||
from hub.catalog_factories.data_models.usages.domestic_hot_water import DomesticHotWater
|
||||
from hub.catalog_factories.data_models.usages.schedule import Schedule
|
||||
from hub.catalog_factories.data_models.usages.thermal_control import ThermalControl
|
||||
from hub.catalog_factories.data_models.usages.usage import Usage
|
||||
from hub.catalog_factories.usage.usage_helper import UsageHelper
|
||||
|
||||
|
||||
class PalmaCatalog(Catalog):
|
||||
"""
|
||||
Palma catalog class
|
||||
"""
|
||||
def __init__(self, path):
|
||||
self._schedules_path = Path(path / 'palma_schedules.json').resolve()
|
||||
self._space_types_path = Path(path / 'palma_space_types.json').resolve()
|
||||
self._space_compliance_path = Path(path / 'palma_space_compliance.json').resolve()
|
||||
self._content = None
|
||||
self._schedules = {}
|
||||
self._load_schedules()
|
||||
self._content = Content(self._load_archetypes())
|
||||
|
||||
@staticmethod
|
||||
def _extract_schedule(raw):
|
||||
nrcan_schedule_type = raw['category']
|
||||
if 'Heating' in raw['name'] and 'Water' not in raw['name']:
|
||||
nrcan_schedule_type = f'{nrcan_schedule_type} Heating'
|
||||
elif 'Cooling' in raw['name']:
|
||||
nrcan_schedule_type = f'{nrcan_schedule_type} Cooling'
|
||||
if nrcan_schedule_type not in UsageHelper().nrcan_schedule_type_to_hub_schedule_type:
|
||||
return None
|
||||
hub_type = UsageHelper().nrcan_schedule_type_to_hub_schedule_type[nrcan_schedule_type]
|
||||
data_type = UsageHelper().nrcan_data_type_to_hub_data_type[raw['units']]
|
||||
time_step = UsageHelper().nrcan_time_to_hub_time[raw['type']]
|
||||
# nrcan only uses daily range for the schedules
|
||||
time_range = cte.DAY
|
||||
day_types = UsageHelper().nrcan_day_type_to_hub_days[raw['day_types']]
|
||||
return Schedule(hub_type, raw['values'], data_type, time_step, time_range, day_types)
|
||||
|
||||
def _load_schedules(self):
|
||||
_schedule_types = []
|
||||
with open(self._schedules_path, 'r') as f:
|
||||
schedules_type = json.load(f)
|
||||
for schedule_type in schedules_type['tables']['schedules']['table']:
|
||||
schedule = PalmaCatalog._extract_schedule(schedule_type)
|
||||
if schedule_type['name'] not in _schedule_types:
|
||||
_schedule_types.append(schedule_type['name'])
|
||||
if schedule is not None:
|
||||
self._schedules[schedule_type['name']] = [schedule]
|
||||
else:
|
||||
if schedule is not None:
|
||||
_schedules = self._schedules[schedule_type['name']]
|
||||
_schedules.append(schedule)
|
||||
self._schedules[schedule_type['name']] = _schedules
|
||||
|
||||
def _get_schedules(self, name):
|
||||
schedule = None
|
||||
if name in self._schedules:
|
||||
schedule = self._schedules[name]
|
||||
return schedule
|
||||
|
||||
def _load_archetypes(self):
|
||||
usages = []
|
||||
with open(self._space_types_path, 'r') as f:
|
||||
space_types = json.load(f)['tables']['space_types']['table']
|
||||
space_types = [st for st in space_types if st['space_type'] == 'WholeBuilding']
|
||||
with open(self._space_compliance_path, 'r') as f:
|
||||
space_types_compliance = json.load(f)['tables']['space_compliance']['table']
|
||||
space_types_compliance = [st for st in space_types_compliance if st['space_type'] == 'WholeBuilding']
|
||||
space_types_dictionary = {}
|
||||
for space_type in space_types_compliance:
|
||||
usage_type = space_type['building_type']
|
||||
# people/m2
|
||||
occupancy_density = space_type['occupancy_per_area_people_per_m2']
|
||||
# W/m2
|
||||
lighting_density = space_type['lighting_per_area_w_per_m2']
|
||||
# W/m2
|
||||
appliances_density = space_type['electric_equipment_per_area_w_per_m2']
|
||||
# peak flow in gallons/h/m2
|
||||
domestic_hot_water_peak_flow = (
|
||||
space_type['service_water_heating_peak_flow_per_area'] *
|
||||
cte.GALLONS_TO_QUBIC_METERS / cte.HOUR_TO_SECONDS
|
||||
)
|
||||
space_types_dictionary[usage_type] = {'occupancy_per_area': occupancy_density,
|
||||
'lighting_per_area': lighting_density,
|
||||
'electric_equipment_per_area': appliances_density,
|
||||
'service_water_heating_peak_flow_per_area': domestic_hot_water_peak_flow
|
||||
}
|
||||
|
||||
for space_type in space_types:
|
||||
usage_type = space_type['building_type']
|
||||
space_type_compliance = space_types_dictionary[usage_type]
|
||||
occupancy_density = space_type_compliance['occupancy_per_area']
|
||||
sensible_convective_internal_gain = space_type['sensible_convective_internal_gain']
|
||||
sensible_radiative_internal_gain = space_type['sensible_radiative_internal_gain']
|
||||
latent_internal_gain = space_type['latent_internal_gain']
|
||||
lighting_density = space_type_compliance['lighting_per_area']
|
||||
appliances_density = space_type_compliance['electric_equipment_per_area']
|
||||
domestic_hot_water_peak_flow = space_type_compliance['service_water_heating_peak_flow_per_area']
|
||||
|
||||
occupancy_schedule_name = space_type['occupancy_schedule']
|
||||
lighting_schedule_name = space_type['lighting_schedule']
|
||||
appliance_schedule_name = space_type['electric_equipment_schedule']
|
||||
hvac_schedule_name = space_type['exhaust_schedule']
|
||||
if hvac_schedule_name and 'FAN' in hvac_schedule_name:
|
||||
hvac_schedule_name = hvac_schedule_name.replace('FAN', 'Fan')
|
||||
if not hvac_schedule_name:
|
||||
hvac_schedule_name = 'default_HVAC_schedule'
|
||||
heating_setpoint_schedule_name = space_type['heating_setpoint_schedule']
|
||||
cooling_setpoint_schedule_name = space_type['cooling_setpoint_schedule']
|
||||
domestic_hot_water_schedule_name = space_type['service_water_heating_schedule']
|
||||
occupancy_schedule = self._get_schedules(occupancy_schedule_name)
|
||||
lighting_schedule = self._get_schedules(lighting_schedule_name)
|
||||
appliance_schedule = self._get_schedules(appliance_schedule_name)
|
||||
heating_schedule = self._get_schedules(heating_setpoint_schedule_name)
|
||||
cooling_schedule = self._get_schedules(cooling_setpoint_schedule_name)
|
||||
hvac_availability = self._get_schedules(hvac_schedule_name)
|
||||
domestic_hot_water_load_schedule = self._get_schedules(domestic_hot_water_schedule_name)
|
||||
|
||||
# ACH -> 1/s
|
||||
mechanical_air_change = space_type['ventilation_air_changes'] / cte.HOUR_TO_SECONDS
|
||||
# cfm/ft2 to m3/m2.s
|
||||
ventilation_rate = space_type['ventilation_per_area'] / (cte.METERS_TO_FEET * cte.MINUTES_TO_SECONDS)
|
||||
# cfm/person to m3/m2.s
|
||||
ventilation_rate += space_type['ventilation_per_person'] / (
|
||||
pow(cte.METERS_TO_FEET, 3) * cte.MINUTES_TO_SECONDS
|
||||
) * occupancy_density
|
||||
|
||||
lighting_radiative_fraction = space_type['lighting_fraction_radiant']
|
||||
lighting_convective_fraction = 0
|
||||
if lighting_radiative_fraction is not None:
|
||||
lighting_convective_fraction = 1 - lighting_radiative_fraction
|
||||
lighting_latent_fraction = 0
|
||||
appliances_radiative_fraction = space_type['electric_equipment_fraction_radiant']
|
||||
appliances_latent_fraction = space_type['electric_equipment_fraction_latent']
|
||||
appliances_convective_fraction = 0
|
||||
if appliances_radiative_fraction is not None and appliances_latent_fraction is not None:
|
||||
appliances_convective_fraction = 1 - appliances_radiative_fraction - appliances_latent_fraction
|
||||
|
||||
domestic_hot_water_service_temperature = space_type['service_water_heating_target_temperature']
|
||||
|
||||
occupancy = Occupancy(occupancy_density,
|
||||
sensible_convective_internal_gain,
|
||||
sensible_radiative_internal_gain,
|
||||
latent_internal_gain,
|
||||
occupancy_schedule)
|
||||
lighting = Lighting(lighting_density,
|
||||
lighting_convective_fraction,
|
||||
lighting_radiative_fraction,
|
||||
lighting_latent_fraction,
|
||||
lighting_schedule)
|
||||
appliances = Appliances(appliances_density,
|
||||
appliances_convective_fraction,
|
||||
appliances_radiative_fraction,
|
||||
appliances_latent_fraction,
|
||||
appliance_schedule)
|
||||
thermal_control = ThermalControl(None,
|
||||
None,
|
||||
None,
|
||||
hvac_availability,
|
||||
heating_schedule,
|
||||
cooling_schedule)
|
||||
domestic_hot_water = DomesticHotWater(None,
|
||||
domestic_hot_water_peak_flow,
|
||||
domestic_hot_water_service_temperature,
|
||||
domestic_hot_water_load_schedule)
|
||||
|
||||
hours_day = None
|
||||
days_year = None
|
||||
|
||||
usages.append(Usage(usage_type,
|
||||
hours_day,
|
||||
days_year,
|
||||
mechanical_air_change,
|
||||
ventilation_rate,
|
||||
occupancy,
|
||||
lighting,
|
||||
appliances,
|
||||
thermal_control,
|
||||
domestic_hot_water))
|
||||
|
||||
|
||||
return usages
|
||||
|
||||
def names(self, category=None):
|
||||
"""
|
||||
Get the catalog elements names
|
||||
:parm: for usage catalog category filter does nothing as there is only one category (usages)
|
||||
"""
|
||||
_names = {'usages': []}
|
||||
for usage in self._content.usages:
|
||||
_names['usages'].append(usage.name)
|
||||
return _names
|
||||
|
||||
def entries(self, category=None):
|
||||
"""
|
||||
Get the catalog elements
|
||||
:parm: for usage catalog category filter does nothing as there is only one category (usages)
|
||||
"""
|
||||
return self._content
|
||||
|
||||
def get_entry(self, name):
|
||||
"""
|
||||
Get one catalog element by names
|
||||
:parm: entry name
|
||||
"""
|
||||
for usage in self._content.usages:
|
||||
if usage.name.lower() == name.lower():
|
||||
return usage
|
||||
raise IndexError(f"{name} doesn't exists in the catalog")
|
|
@ -11,6 +11,7 @@ from typing import TypeVar
|
|||
from hub.catalog_factories.usage.comnet_catalog import ComnetCatalog
|
||||
from hub.catalog_factories.usage.nrcan_catalog import NrcanCatalog
|
||||
from hub.catalog_factories.usage.eilat_catalog import EilatCatalog
|
||||
from hub.catalog_factories.usage.palma_catalog import PalmaCatalog
|
||||
from hub.helpers.utils import validate_import_export_type
|
||||
|
||||
Catalog = TypeVar('Catalog')
|
||||
|
@ -42,6 +43,13 @@ class UsageCatalogFactory:
|
|||
# nrcan retrieves the data directly from github
|
||||
return NrcanCatalog(self._path)
|
||||
|
||||
@property
|
||||
def _palma(self):
|
||||
"""
|
||||
Retrieve Palma catalog
|
||||
"""
|
||||
return PalmaCatalog(self._path)
|
||||
|
||||
@property
|
||||
def _eilat(self):
|
||||
"""
|
||||
|
|
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@ -90,7 +90,9 @@ class Building(CityObject):
|
|||
self._interior_slabs.append(surface)
|
||||
else:
|
||||
logging.error('Building %s [%s] has an unexpected surface type %s.', self.name, self.aliases, surface.type)
|
||||
self._heating_consumption_disaggregated = {}
|
||||
self._domestic_hot_water_peak_load = None
|
||||
self._fuel_consumption_breakdown = {}
|
||||
self._pv_generation = {}
|
||||
|
||||
@property
|
||||
def shell(self) -> Polyhedron:
|
||||
|
@ -290,7 +292,10 @@ class Building(CityObject):
|
|||
"""
|
||||
if self._storeys_above_ground is None:
|
||||
if self.eave_height is not None and self.average_storey_height is not None:
|
||||
self._storeys_above_ground = int(self.eave_height / self.average_storey_height)
|
||||
storeys_above_ground = int(self.eave_height / self.average_storey_height)
|
||||
if storeys_above_ground == 0:
|
||||
storeys_above_ground += 1
|
||||
self._storeys_above_ground = storeys_above_ground
|
||||
return self._storeys_above_ground
|
||||
|
||||
@storeys_above_ground.setter
|
||||
|
@ -449,8 +454,8 @@ class Building(CityObject):
|
|||
monthly_values = PeakLoads(self).heating_peak_loads_from_methodology
|
||||
if monthly_values is None:
|
||||
return None
|
||||
results[cte.MONTH] = [x * cte.WATTS_HOUR_TO_JULES for x in monthly_values]
|
||||
results[cte.YEAR] = [max(monthly_values)]
|
||||
results[cte.MONTH] = [x / cte.WATTS_HOUR_TO_JULES for x in monthly_values]
|
||||
results[cte.YEAR] = [max(monthly_values) / cte.WATTS_HOUR_TO_JULES]
|
||||
return results
|
||||
|
||||
@property
|
||||
|
@ -466,8 +471,24 @@ class Building(CityObject):
|
|||
monthly_values = PeakLoads(self).cooling_peak_loads_from_methodology
|
||||
if monthly_values is None:
|
||||
return None
|
||||
results[cte.MONTH] = [x * cte.WATTS_HOUR_TO_JULES for x in monthly_values]
|
||||
results[cte.YEAR] = [max(monthly_values)]
|
||||
results[cte.MONTH] = [x / cte.WATTS_HOUR_TO_JULES for x in monthly_values]
|
||||
results[cte.YEAR] = [max(monthly_values) / cte.WATTS_HOUR_TO_JULES]
|
||||
return results
|
||||
|
||||
@property
|
||||
def domestic_hot_water_peak_load(self) -> Union[None, dict]:
|
||||
"""
|
||||
Get cooling peak load in W
|
||||
:return: dict{[float]}
|
||||
"""
|
||||
results = {}
|
||||
monthly_values = None
|
||||
if cte.HOUR in self.domestic_hot_water_heat_demand:
|
||||
monthly_values = PeakLoads().peak_loads_from_hourly(self.domestic_hot_water_heat_demand[cte.HOUR])
|
||||
if monthly_values is None:
|
||||
return None
|
||||
results[cte.MONTH] = [x / cte.WATTS_HOUR_TO_JULES for x in monthly_values]
|
||||
results[cte.YEAR] = [max(monthly_values) / cte.WATTS_HOUR_TO_JULES]
|
||||
return results
|
||||
|
||||
@property
|
||||
|
@ -718,6 +739,7 @@ class Building(CityObject):
|
|||
return self._distribution_systems_electrical_consumption
|
||||
for energy_system in self.energy_systems:
|
||||
distribution_systems = energy_system.distribution_systems
|
||||
if distribution_systems is not None:
|
||||
for distribution_system in distribution_systems:
|
||||
emission_systems = distribution_system.emission_systems
|
||||
parasitic_energy_consumption = 0
|
||||
|
@ -825,23 +847,6 @@ class Building(CityObject):
|
|||
self._onsite_electrical_production[_key] = _results
|
||||
return self._onsite_electrical_production
|
||||
|
||||
@property
|
||||
def heating_consumption_disaggregated(self) -> dict:
|
||||
"""
|
||||
Get energy consumed for heating from different fuels in J
|
||||
return: dict
|
||||
"""
|
||||
return self._heating_consumption_disaggregated
|
||||
|
||||
@heating_consumption_disaggregated.setter
|
||||
def heating_consumption_disaggregated(self, value):
|
||||
"""
|
||||
Get energy consumed for heating from different fuels in J
|
||||
return: dict
|
||||
"""
|
||||
self._heating_consumption_disaggregated = value
|
||||
|
||||
|
||||
@property
|
||||
def lower_corner(self):
|
||||
"""
|
||||
|
@ -855,3 +860,60 @@ class Building(CityObject):
|
|||
Get building upper corner.
|
||||
"""
|
||||
return [self._max_x, self._max_y, self._max_z]
|
||||
|
||||
@property
|
||||
def energy_consumption_breakdown(self) -> dict:
|
||||
"""
|
||||
Get energy consumption of different sectors
|
||||
return: dict
|
||||
"""
|
||||
fuel_breakdown = {cte.ELECTRICITY: {cte.LIGHTING: self.lighting_electrical_demand[cte.YEAR][0],
|
||||
cte.APPLIANCES: self.appliances_electrical_demand[cte.YEAR][0]}}
|
||||
energy_systems = self.energy_systems
|
||||
for energy_system in energy_systems:
|
||||
demand_types = energy_system.demand_types
|
||||
generation_systems = energy_system.generation_systems
|
||||
for demand_type in demand_types:
|
||||
for generation_system in generation_systems:
|
||||
if generation_system.system_type != cte.PHOTOVOLTAIC:
|
||||
if generation_system.fuel_type not in fuel_breakdown:
|
||||
fuel_breakdown[generation_system.fuel_type] = {}
|
||||
if demand_type in generation_system.energy_consumption:
|
||||
fuel_breakdown[f'{generation_system.fuel_type}'][f'{demand_type}'] = (
|
||||
generation_system.energy_consumption)[f'{demand_type}'][cte.YEAR][0]
|
||||
storage_systems = generation_system.energy_storage_systems
|
||||
if storage_systems:
|
||||
for storage_system in storage_systems:
|
||||
if storage_system.type_energy_stored == 'thermal' and storage_system.heating_coil_energy_consumption:
|
||||
fuel_breakdown[cte.ELECTRICITY][f'{demand_type}'] += storage_system.heating_coil_energy_consumption[cte.YEAR][0]
|
||||
#TODO: When simulation models of all energy system archetypes are created, this part can be removed
|
||||
heating_fuels = []
|
||||
dhw_fuels = []
|
||||
for energy_system in self.energy_systems:
|
||||
if cte.HEATING in energy_system.demand_types:
|
||||
for generation_system in energy_system.generation_systems:
|
||||
heating_fuels.append(generation_system.fuel_type)
|
||||
if cte.DOMESTIC_HOT_WATER in energy_system.demand_types:
|
||||
for generation_system in energy_system.generation_systems:
|
||||
dhw_fuels.append(generation_system.fuel_type)
|
||||
for key in fuel_breakdown:
|
||||
if key == cte.ELECTRICITY and cte.COOLING not in fuel_breakdown[key]:
|
||||
for energy_system in energy_systems:
|
||||
if cte.COOLING in energy_system.demand_types and cte.COOLING not in fuel_breakdown[key]:
|
||||
for generation_system in energy_system.generation_systems:
|
||||
fuel_breakdown[generation_system.fuel_type][cte.COOLING] = self.cooling_consumption[cte.YEAR][0]
|
||||
for fuel in heating_fuels:
|
||||
if cte.HEATING not in fuel_breakdown[fuel]:
|
||||
for energy_system in energy_systems:
|
||||
if cte.HEATING in energy_system.demand_types:
|
||||
for generation_system in energy_system.generation_systems:
|
||||
fuel_breakdown[generation_system.fuel_type][cte.HEATING] = self.heating_consumption[cte.YEAR][0]
|
||||
for fuel in dhw_fuels:
|
||||
if cte.DOMESTIC_HOT_WATER not in fuel_breakdown[fuel]:
|
||||
for energy_system in energy_systems:
|
||||
if cte.DOMESTIC_HOT_WATER in energy_system.demand_types:
|
||||
for generation_system in energy_system.generation_systems:
|
||||
fuel_breakdown[generation_system.fuel_type][cte.DOMESTIC_HOT_WATER] = self.domestic_hot_water_consumption[cte.YEAR][0]
|
||||
self._fuel_consumption_breakdown = fuel_breakdown
|
||||
return self._fuel_consumption_breakdown
|
||||
|
||||
|
|
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|
@ -132,7 +132,11 @@ class InternalZone:
|
|||
_thermal_boundary = ThermalBoundary(surface, surface.solid_polygon.area, windows_areas)
|
||||
surface.associated_thermal_boundaries = [_thermal_boundary]
|
||||
_thermal_boundaries.append(_thermal_boundary)
|
||||
if self.thermal_archetype is None:
|
||||
return None # there are no archetype
|
||||
_number_of_storeys = int(self.volume / self.area / self.thermal_archetype.average_storey_height)
|
||||
if _number_of_storeys == 0:
|
||||
_number_of_storeys = 1
|
||||
_thermal_zone = ThermalZone(_thermal_boundaries, self, self.volume, self.area, _number_of_storeys)
|
||||
for thermal_boundary in _thermal_zone.thermal_boundaries:
|
||||
thermal_boundary.thermal_zones = [_thermal_zone]
|
||||
|
|
|
@ -42,10 +42,12 @@ class Surface:
|
|||
self._short_wave_reflectance = None
|
||||
self._long_wave_emittance = None
|
||||
self._inverse = None
|
||||
self._associated_thermal_boundaries = []
|
||||
self._associated_thermal_boundaries = None
|
||||
self._vegetation = None
|
||||
self._percentage_shared = None
|
||||
self._solar_collectors_area_reduction_factor = None
|
||||
self._global_irradiance_tilted = {}
|
||||
self._installed_solar_collector_area = None
|
||||
|
||||
@property
|
||||
def name(self):
|
||||
|
@ -178,7 +180,7 @@ class Surface:
|
|||
@property
|
||||
def global_irradiance(self) -> dict:
|
||||
"""
|
||||
Get global irradiance on surface in J/m2
|
||||
Get global irradiance on surface in W/m2
|
||||
:return: dict
|
||||
"""
|
||||
return self._global_irradiance
|
||||
|
@ -186,7 +188,7 @@ class Surface:
|
|||
@global_irradiance.setter
|
||||
def global_irradiance(self, value):
|
||||
"""
|
||||
Set global irradiance on surface in J/m2
|
||||
Set global irradiance on surface in W/m2
|
||||
:param value: dict
|
||||
"""
|
||||
self._global_irradiance = value
|
||||
|
@ -384,3 +386,35 @@ class Surface:
|
|||
:param value: float
|
||||
"""
|
||||
self._solar_collectors_area_reduction_factor = value
|
||||
|
||||
@property
|
||||
def global_irradiance_tilted(self) -> dict:
|
||||
"""
|
||||
Get global irradiance on a tilted surface in W/m2
|
||||
:return: dict
|
||||
"""
|
||||
return self._global_irradiance_tilted
|
||||
|
||||
@global_irradiance_tilted.setter
|
||||
def global_irradiance_tilted(self, value):
|
||||
"""
|
||||
Set global irradiance on a tilted surface in W/m2
|
||||
:param value: dict
|
||||
"""
|
||||
self._global_irradiance_tilted = value
|
||||
|
||||
@property
|
||||
def installed_solar_collector_area(self):
|
||||
"""
|
||||
Get installed solar collector area in m2
|
||||
:return: dict
|
||||
"""
|
||||
return self._installed_solar_collector_area
|
||||
|
||||
@installed_solar_collector_area.setter
|
||||
def installed_solar_collector_area(self, value):
|
||||
"""
|
||||
Set installed solar collector area in m2
|
||||
:return: dict
|
||||
"""
|
||||
self._installed_solar_collector_area = value
|
|
@ -20,6 +20,8 @@ class ThermalArchetype:
|
|||
self._indirect_heated_ratio = None
|
||||
self._infiltration_rate_for_ventilation_system_off = None
|
||||
self._infiltration_rate_for_ventilation_system_on = None
|
||||
self._infiltration_rate_area_for_ventilation_system_off=None
|
||||
self._infiltration_rate_area_for_ventilation_system_on=None
|
||||
|
||||
@property
|
||||
def constructions(self) -> [Construction]:
|
||||
|
@ -132,3 +134,35 @@ class ThermalArchetype:
|
|||
:param value: float
|
||||
"""
|
||||
self._infiltration_rate_for_ventilation_system_on = value
|
||||
|
||||
@property
|
||||
def infiltration_rate_area_for_ventilation_system_off(self):
|
||||
"""
|
||||
Get infiltration rate for ventilation system off in l/s/m2
|
||||
:return: float
|
||||
"""
|
||||
return self._infiltration_rate_for_ventilation_system_off
|
||||
|
||||
@infiltration_rate_area_for_ventilation_system_off.setter
|
||||
def infiltration_rate_area_for_ventilation_system_off(self, value):
|
||||
"""
|
||||
Set infiltration rate for ventilation system off in l/s/m2
|
||||
:param value: float
|
||||
"""
|
||||
self._infiltration_rate_for_ventilation_system_off = value
|
||||
|
||||
@property
|
||||
def infiltration_rate_area_for_ventilation_system_on(self):
|
||||
"""
|
||||
Get infiltration rate for ventilation system on in l/s/m2
|
||||
:return: float
|
||||
"""
|
||||
return self._infiltration_rate_for_ventilation_system_on
|
||||
|
||||
@infiltration_rate_area_for_ventilation_system_on.setter
|
||||
def infiltration_rate_area_for_ventilation_system_on(self, value):
|
||||
"""
|
||||
Set infiltration rate for ventilation system on in l/s/m2
|
||||
:param value: float
|
||||
"""
|
||||
self._infiltration_rate_for_ventilation_system_on = value
|
||||
|
|
|
@ -44,6 +44,8 @@ class ThermalZone:
|
|||
self._indirectly_heated_area_ratio = None
|
||||
self._infiltration_rate_system_on = None
|
||||
self._infiltration_rate_system_off = None
|
||||
self._infiltration_rate_area_system_on = None
|
||||
self._infiltration_rate_area_system_off = None
|
||||
self._volume = volume
|
||||
self._ordinate_number = None
|
||||
self._view_factors_matrix = None
|
||||
|
@ -166,6 +168,24 @@ class ThermalZone:
|
|||
self._infiltration_rate_system_off = self._parent_internal_zone.thermal_archetype.infiltration_rate_for_ventilation_system_off
|
||||
return self._infiltration_rate_system_off
|
||||
|
||||
@property
|
||||
def infiltration_rate_area_system_on(self):
|
||||
"""
|
||||
Get thermal zone infiltration rate system on in air changes per second (1/s)
|
||||
:return: None or float
|
||||
"""
|
||||
self._infiltration_rate_area_system_on = self._parent_internal_zone.thermal_archetype.infiltration_rate_area_for_ventilation_system_on
|
||||
return self._infiltration_rate_area_system_on
|
||||
|
||||
@property
|
||||
def infiltration_rate_area_system_off(self):
|
||||
"""
|
||||
Get thermal zone infiltration rate system off in air changes per second (1/s)
|
||||
:return: None or float
|
||||
"""
|
||||
self._infiltration_rate_area_system_off = self._parent_internal_zone.thermal_archetype.infiltration_rate_area_for_ventilation_system_off
|
||||
return self._infiltration_rate_area_system_off
|
||||
|
||||
@property
|
||||
def volume(self):
|
||||
"""
|
||||
|
|
|
@ -41,9 +41,10 @@ class CityObject:
|
|||
self._ground_temperature = {}
|
||||
self._global_horizontal = {}
|
||||
self._diffuse = {}
|
||||
self._beam = {}
|
||||
self._direct_normal = {}
|
||||
self._sensors = []
|
||||
self._neighbours = None
|
||||
self._beam = {}
|
||||
|
||||
@property
|
||||
def level_of_detail(self) -> LevelOfDetail:
|
||||
|
@ -238,20 +239,20 @@ class CityObject:
|
|||
self._diffuse = value
|
||||
|
||||
@property
|
||||
def beam(self) -> dict:
|
||||
def direct_normal(self) -> dict:
|
||||
"""
|
||||
Get beam radiation surrounding the city object in J/m2
|
||||
:return: dict{dict{[float]}}
|
||||
"""
|
||||
return self._beam
|
||||
return self._direct_normal
|
||||
|
||||
@beam.setter
|
||||
def beam(self, value):
|
||||
@direct_normal.setter
|
||||
def direct_normal(self, value):
|
||||
"""
|
||||
Set beam radiation surrounding the city object in J/m2
|
||||
:param value: dict{dict{[float]}}
|
||||
"""
|
||||
self._beam = value
|
||||
self._direct_normal = value
|
||||
|
||||
@property
|
||||
def lower_corner(self):
|
||||
|
@ -302,3 +303,19 @@ class CityObject:
|
|||
Set the list of neighbour_objects and their properties associated to the current city_object
|
||||
"""
|
||||
self._neighbours = value
|
||||
|
||||
@property
|
||||
def beam(self) -> dict:
|
||||
"""
|
||||
Get beam radiation surrounding the city object in J/m2
|
||||
:return: dict{dict{[float]}}
|
||||
"""
|
||||
return self._beam
|
||||
|
||||
@beam.setter
|
||||
def beam(self, value):
|
||||
"""
|
||||
Set beam radiation surrounding the city object in J/m2
|
||||
:param value: dict{dict{[float]}}
|
||||
"""
|
||||
self._beam = value
|
||||
|
|
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Some files were not shown because too many files have changed in this diff Show More
Loading…
Reference in New Issue
Block a user