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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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|
@ -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
Normal file
242
hub/catalog_factories/construction/palma_catalog.py
Normal file
@ -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")
|
@ -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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|
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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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|
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@property
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def catalog(self) -> Catalog:
|
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"""
|
||||
|
@ -23,7 +23,10 @@ class Archetype:
|
||||
extra_loses_due_to_thermal_bridges,
|
||||
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
|
||||
}
|
||||
}
|
||||
|
@ -15,11 +15,20 @@ class Archetype:
|
||||
"""
|
||||
Archetype class
|
||||
"""
|
||||
def __init__(self, name, systems):
|
||||
|
||||
def __init__(self, name, systems, archetype_cluster_id=None):
|
||||
self._cluster_id = archetype_cluster_id
|
||||
self._name = name
|
||||
self._systems = systems
|
||||
|
||||
@property
|
||||
def cluster_id(self):
|
||||
"""
|
||||
Get id
|
||||
:return: string
|
||||
"""
|
||||
return self._cluster_id
|
||||
|
||||
@property
|
||||
def name(self):
|
||||
"""
|
||||
@ -43,6 +52,7 @@ class Archetype:
|
||||
_systems.append(_system.to_dictionary())
|
||||
content = {
|
||||
'Archetype': {
|
||||
'cluster_id': self.cluster_id,
|
||||
'name': self.name,
|
||||
'systems': _systems
|
||||
}
|
||||
|
@ -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,
|
||||
|
@ -119,7 +119,7 @@ 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': _medias,
|
||||
'heating coil capacity [W]': self.heating_coil_capacity
|
||||
}
|
||||
}
|
||||
|
@ -69,7 +69,7 @@ class MontrealCustomCatalog(Catalog):
|
||||
storage_system = ThermalStorageSystem(equipment_id)
|
||||
storage_systems = [storage_system]
|
||||
if model_name == 'PV system':
|
||||
system_type = 'Photovoltaic'
|
||||
system_type = 'photovoltaic'
|
||||
generation_system = PvGenerationSystem(equipment_id,
|
||||
name=None,
|
||||
system_type=system_type,
|
||||
|
@ -30,7 +30,8 @@ class MontrealFutureSystemCatalogue(Catalog):
|
||||
path = str(path / 'montreal_future_systems.xml')
|
||||
with open(path, 'r', encoding='utf-8') as xml:
|
||||
self._archetypes = xmltodict.parse(xml.read(),
|
||||
force_list=['pv_generation_component', 'templateStorages', 'demand'])
|
||||
force_list=['pv_generation_component', 'templateStorages', 'demand',
|
||||
'system', 'system_id'])
|
||||
|
||||
self._storage_components = self._load_storage_components()
|
||||
self._generation_components = self._load_generation_components()
|
||||
@ -49,7 +50,7 @@ class MontrealFutureSystemCatalogue(Catalog):
|
||||
'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']
|
||||
system_id = non_pv['generation_system_id']
|
||||
name = non_pv['name']
|
||||
system_type = non_pv['system_type']
|
||||
model_name = non_pv['model_name']
|
||||
@ -181,7 +182,7 @@ class MontrealFutureSystemCatalogue(Catalog):
|
||||
'pv_generation_component']
|
||||
if pv_generation_components is not None:
|
||||
for pv in pv_generation_components:
|
||||
system_id = pv['system_id']
|
||||
system_id = pv['generation_system_id']
|
||||
name = pv['name']
|
||||
system_type = pv['system_type']
|
||||
model_name = pv['model_name']
|
||||
@ -193,6 +194,7 @@ 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']
|
||||
@ -215,6 +217,7 @@ 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,
|
||||
@ -379,6 +382,7 @@ class MontrealFutureSystemCatalogue(Catalog):
|
||||
_system_archetypes = []
|
||||
system_clusters = self._archetypes['EnergySystemCatalog']['system_archetypes']['system_archetype']
|
||||
for system_cluster in system_clusters:
|
||||
archetype_id = system_cluster['@cluster_id']
|
||||
name = system_cluster['name']
|
||||
systems = system_cluster['systems']['system_id']
|
||||
integer_system_ids = [int(item) for item in systems]
|
||||
@ -386,7 +390,7 @@ class MontrealFutureSystemCatalogue(Catalog):
|
||||
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))
|
||||
_system_archetypes.append(Archetype(archetype_cluster_id=archetype_id, name=name, systems=_systems))
|
||||
return _system_archetypes
|
||||
|
||||
def _load_materials(self):
|
||||
|
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:
|
||||
"""
|
||||
|
@ -98,7 +98,7 @@ class NrcanCatalog(Catalog):
|
||||
domestic_hot_water_peak_flow = (
|
||||
space_type['service_water_heating_peak_flow_per_area'] *
|
||||
cte.GALLONS_TO_QUBIC_METERS / cte.HOUR_TO_SECONDS
|
||||
) #m3/(s m2)
|
||||
)
|
||||
space_types_dictionary[usage_type] = {'occupancy_per_area': occupancy_density,
|
||||
'lighting_per_area': lighting_density,
|
||||
'electric_equipment_per_area': appliances_density,
|
||||
|
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):
|
||||
"""
|
||||
|
@ -27,7 +27,7 @@ class Building(CityObject):
|
||||
"""
|
||||
Building(CityObject) class
|
||||
"""
|
||||
def __init__(self, name, surfaces, year_of_construction, function, terrains=None, city=None):
|
||||
def __init__(self, name, surfaces, year_of_construction, function, usages=None, terrains=None, city=None):
|
||||
super().__init__(name, surfaces)
|
||||
self._city = city
|
||||
self._households = None
|
||||
@ -36,6 +36,7 @@ class Building(CityObject):
|
||||
self._terrains = terrains
|
||||
self._year_of_construction = year_of_construction
|
||||
self._function = function
|
||||
self._usages = usages
|
||||
self._average_storey_height = None
|
||||
self._storeys_above_ground = None
|
||||
self._floor_area = None
|
||||
@ -92,6 +93,7 @@ class Building(CityObject):
|
||||
logging.error('Building %s [%s] has an unexpected surface type %s.', self.name, self.aliases, surface.type)
|
||||
self._domestic_hot_water_peak_load = None
|
||||
self._fuel_consumption_breakdown = {}
|
||||
self._systems_archetype_cluster_id = None
|
||||
self._pv_generation = {}
|
||||
|
||||
@property
|
||||
@ -256,7 +258,17 @@ class Building(CityObject):
|
||||
:param value: str
|
||||
"""
|
||||
if value is not None:
|
||||
self._function = str(value)
|
||||
self._function = value
|
||||
|
||||
@property
|
||||
def usages(self) -> Union[None, list]:
|
||||
"""
|
||||
Get building usages, if none, assume usage is function
|
||||
:return: None or list of functions
|
||||
"""
|
||||
if self._usages is None and self._function is not None:
|
||||
self._usages = [{'usage': self._function, 'ratio': 1 }]
|
||||
return self._usages
|
||||
|
||||
@property
|
||||
def average_storey_height(self) -> Union[None, float]:
|
||||
@ -292,7 +304,10 @@ 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
|
||||
@ -590,19 +605,6 @@ class Building(CityObject):
|
||||
"""
|
||||
self._city = value
|
||||
|
||||
@property
|
||||
def usages_percentage(self):
|
||||
"""
|
||||
Get the usages and percentages for the building
|
||||
"""
|
||||
_usage = ''
|
||||
for internal_zone in self.internal_zones:
|
||||
if internal_zone.usages is None:
|
||||
continue
|
||||
for usage in internal_zone.usages:
|
||||
_usage = f'{_usage}{usage.name}_{usage.percentage} '
|
||||
return _usage.rstrip()
|
||||
|
||||
@property
|
||||
def energy_systems(self) -> Union[None, List[EnergySystem]]:
|
||||
"""
|
||||
@ -736,6 +738,7 @@ 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
|
||||
@ -863,9 +866,10 @@ class Building(CityObject):
|
||||
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]}}
|
||||
fuel_breakdown = {cte.ELECTRICITY: {cte.LIGHTING: self.lighting_electrical_demand[cte.YEAR][0] if self.lighting_electrical_demand else 0,
|
||||
cte.APPLIANCES: self.appliances_electrical_demand[cte.YEAR][0] if self.appliances_electrical_demand else 0}}
|
||||
energy_systems = self.energy_systems
|
||||
if energy_systems is not None:
|
||||
for energy_system in energy_systems:
|
||||
demand_types = energy_system.demand_types
|
||||
generation_systems = energy_system.generation_systems
|
||||
@ -881,7 +885,8 @@ class Building(CityObject):
|
||||
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]
|
||||
fuel_breakdown[cte.ELECTRICITY][f'{demand_type}'] += (
|
||||
storage_system.heating_coil_energy_consumption)[f'{demand_type}'][cte.YEAR][0]
|
||||
#TODO: When simulation models of all energy system archetypes are created, this part can be removed
|
||||
heating_fuels = []
|
||||
dhw_fuels = []
|
||||
@ -896,20 +901,52 @@ class Building(CityObject):
|
||||
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]
|
||||
if self.cooling_consumption:
|
||||
fuel_breakdown[energy_system.generation_systems[0].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]
|
||||
if self.heating_consumption:
|
||||
fuel_breakdown[energy_system.generation_systems[0].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]
|
||||
if self.domestic_hot_water_consumption:
|
||||
fuel_breakdown[energy_system.generation_systems[0].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
|
||||
|
||||
@property
|
||||
def energy_systems_archetype_cluster_id(self):
|
||||
"""
|
||||
Get energy systems archetype id
|
||||
:return: str
|
||||
"""
|
||||
return self._systems_archetype_cluster_id
|
||||
|
||||
@energy_systems_archetype_cluster_id.setter
|
||||
def energy_systems_archetype_cluster_id(self, value):
|
||||
"""
|
||||
Set energy systems archetype id
|
||||
:param value: str
|
||||
"""
|
||||
self._systems_archetype_cluster_id = value
|
||||
|
||||
@property
|
||||
def pv_generation(self):
|
||||
"""
|
||||
temporary attribute to get the onsite pv generation in W
|
||||
:return: dict
|
||||
"""
|
||||
return self._pv_generation
|
||||
|
||||
@pv_generation.setter
|
||||
def pv_generation(self, value):
|
||||
"""
|
||||
temporary attribute to set the onsite pv generation in W
|
||||
:param value: float
|
||||
"""
|
||||
self._pv_generation = value
|
||||
|
||||
|
@ -135,6 +135,8 @@ class InternalZone:
|
||||
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]
|
||||
|
@ -157,6 +157,7 @@ class Surface:
|
||||
if self._inclination is None:
|
||||
self._inclination = np.arccos(self.perimeter_polygon.normal[2])
|
||||
return self._inclination
|
||||
|
||||
@property
|
||||
def type(self):
|
||||
"""
|
||||
@ -180,7 +181,7 @@ 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
|
||||
@ -188,7 +189,7 @@ 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
|
||||
@ -390,7 +391,7 @@ class Surface:
|
||||
@property
|
||||
def global_irradiance_tilted(self) -> dict:
|
||||
"""
|
||||
Get global irradiance on a tilted surface in J/m2
|
||||
Get global irradiance on a tilted surface in W/m2
|
||||
:return: dict
|
||||
"""
|
||||
return self._global_irradiance_tilted
|
||||
@ -398,7 +399,7 @@ class Surface:
|
||||
@global_irradiance_tilted.setter
|
||||
def global_irradiance_tilted(self, value):
|
||||
"""
|
||||
Set global irradiance on a tilted surface in J/m2
|
||||
Set global irradiance on a tilted surface in W/m2
|
||||
:param value: dict
|
||||
"""
|
||||
self._global_irradiance_tilted = 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
|
||||
|
@ -34,7 +34,7 @@ class ThermalZone:
|
||||
volume,
|
||||
footprint_area,
|
||||
number_of_storeys,
|
||||
usage_name=None):
|
||||
usages=None):
|
||||
self._id = None
|
||||
self._parent_internal_zone = parent_internal_zone
|
||||
self._footprint_area = footprint_area
|
||||
@ -44,15 +44,13 @@ 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
|
||||
self._total_floor_area = None
|
||||
self._number_of_storeys = number_of_storeys
|
||||
self._usage_name = usage_name
|
||||
self._usage_from_parent = False
|
||||
if usage_name is None:
|
||||
self._usage_from_parent = True
|
||||
self._hours_day = None
|
||||
self._days_year = None
|
||||
self._mechanical_air_change = None
|
||||
@ -62,7 +60,12 @@ class ThermalZone:
|
||||
self._internal_gains = None
|
||||
self._thermal_control = None
|
||||
self._domestic_hot_water = None
|
||||
self._usages = None
|
||||
self._usage_name = None
|
||||
self._usages = usages
|
||||
self._usage_from_parent = False
|
||||
if usages is None:
|
||||
self._usage_from_parent = True
|
||||
|
||||
|
||||
@property
|
||||
def parent_internal_zone(self) -> InternalZone:
|
||||
@ -75,24 +78,11 @@ class ThermalZone:
|
||||
@property
|
||||
def usages(self):
|
||||
"""
|
||||
Get the thermal zone usages including percentage with the format [percentage]-usage_[percentage]-usage...
|
||||
Eg: 70-office_30-residential
|
||||
Get the thermal zone usages
|
||||
:return: str
|
||||
"""
|
||||
if self._usage_from_parent:
|
||||
self._usages = copy.deepcopy(self._parent_internal_zone.usages)
|
||||
else:
|
||||
values = self._usage_name.split('_')
|
||||
usages = []
|
||||
for value in values:
|
||||
usages.append(value.split('-'))
|
||||
self._usages = []
|
||||
for parent_usage in self._parent_internal_zone.usages:
|
||||
for value in usages:
|
||||
if parent_usage.name == value[1]:
|
||||
new_usage = copy.deepcopy(parent_usage)
|
||||
new_usage.percentage = float(value[0]) / 100
|
||||
self._usages.append(new_usage)
|
||||
return self._usages
|
||||
|
||||
@property
|
||||
@ -166,6 +156,24 @@ 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):
|
||||
"""
|
||||
|
@ -22,14 +22,13 @@ class PvGenerationSystem(GenerationSystem):
|
||||
self._nominal_radiation = None
|
||||
self._standard_test_condition_cell_temperature = None
|
||||
self._standard_test_condition_maximum_power = None
|
||||
self._standard_test_condition_radiation = None
|
||||
self._cell_temperature_coefficient = None
|
||||
self._width = None
|
||||
self._height = None
|
||||
self._electricity_power = None
|
||||
self._electricity_power_output = {}
|
||||
self._tilt_angle = None
|
||||
self._surface_azimuth = None
|
||||
self._solar_altitude_angle = None
|
||||
self._solar_azimuth_angle = None
|
||||
self._installed_capacity = None
|
||||
|
||||
@property
|
||||
def nominal_electricity_output(self):
|
||||
@ -143,6 +142,22 @@ class PvGenerationSystem(GenerationSystem):
|
||||
"""
|
||||
self._standard_test_condition_maximum_power = value
|
||||
|
||||
@property
|
||||
def standard_test_condition_radiation(self):
|
||||
"""
|
||||
Get standard test condition radiation in W/m2
|
||||
:return: float
|
||||
"""
|
||||
return self._standard_test_condition_radiation
|
||||
|
||||
@standard_test_condition_radiation.setter
|
||||
def standard_test_condition_radiation(self, value):
|
||||
"""
|
||||
Set standard test condition radiation in W/m2
|
||||
:param value: float
|
||||
"""
|
||||
self._standard_test_condition_radiation = value
|
||||
|
||||
@property
|
||||
def cell_temperature_coefficient(self):
|
||||
"""
|
||||
@ -192,49 +207,33 @@ class PvGenerationSystem(GenerationSystem):
|
||||
self._height = value
|
||||
|
||||
@property
|
||||
def electricity_power(self):
|
||||
def electricity_power_output(self):
|
||||
"""
|
||||
Get electricity_power in W
|
||||
:return: float
|
||||
"""
|
||||
return self._electricity_power
|
||||
return self._electricity_power_output
|
||||
|
||||
@electricity_power.setter
|
||||
def electricity_power(self, value):
|
||||
@electricity_power_output.setter
|
||||
def electricity_power_output(self, value):
|
||||
"""
|
||||
Set electricity_power in W
|
||||
:param value: float
|
||||
"""
|
||||
self._electricity_power = value
|
||||
self._electricity_power_output = value
|
||||
|
||||
@property
|
||||
def tilt_angle(self):
|
||||
def installed_capacity(self):
|
||||
"""
|
||||
Get tilt angle of PV system in degrees
|
||||
Get the total installed nominal capacity in W
|
||||
:return: float
|
||||
"""
|
||||
return self._tilt_angle
|
||||
return self._installed_capacity
|
||||
|
||||
@tilt_angle.setter
|
||||
def tilt_angle(self, value):
|
||||
@installed_capacity.setter
|
||||
def installed_capacity(self, value):
|
||||
"""
|
||||
Set PV system tilt angle in degrees
|
||||
Set the total installed nominal capacity in W
|
||||
:param value: float
|
||||
"""
|
||||
self._tilt_angle = value
|
||||
|
||||
@property
|
||||
def surface_azimuth(self):
|
||||
"""
|
||||
Get surface azimuth angle of PV system in degrees. 0 is North
|
||||
:return: float
|
||||
"""
|
||||
return self._surface_azimuth
|
||||
|
||||
@surface_azimuth.setter
|
||||
def surface_azimuth(self, value):
|
||||
"""
|
||||
Set PV system tilt angle in degrees
|
||||
:param value: float
|
||||
"""
|
||||
self._surface_azimuth = value
|
||||
self._installed_capacity = value
|
||||
|
@ -1,18 +0,0 @@
|
||||
import json
|
||||
from pathlib import Path
|
||||
from hub.catalog_factories.catalog import Catalog
|
||||
from hub.catalog_factories.data_models.construction.content import Content
|
||||
from hub.catalog_factories.construction.construction_helper import ConstructionHelper
|
||||
from hub.catalog_factories.data_models.construction.construction import Construction
|
||||
from hub.catalog_factories.data_models.construction.archetype import Archetype
|
||||
from hub.catalog_factories.data_models.construction.window import Window
|
||||
from hub.catalog_factories.data_models.construction.material import Material
|
||||
from hub.catalog_factories.data_models.construction.layer import Layer
|
||||
import hub.helpers.constants as cte
|
||||
|
||||
_path_constructions = (Path(__file__).parent / 'nrcan_constructions.json').resolve()
|
||||
with open(_path_constructions, 'r', encoding='utf-8') as file:
|
||||
_constructions = json.load(file)
|
||||
|
||||
for surface in _constructions['opaque_surfaces']:
|
||||
print(surface.name)
|
File diff suppressed because it is too large
Load Diff
774
hub/data/construction/palma_archetypes.json
Normal file
774
hub/data/construction/palma_archetypes.json
Normal file
@ -0,0 +1,774 @@
|
||||
{
|
||||
"archetypes": [
|
||||
{
|
||||
"function": "Large multifamily building",
|
||||
"period_of_construction": "2021_2050",
|
||||
"climate_zone": "B3",
|
||||
"average_storey_height": 3.57,
|
||||
"thermal_capacity": 83.018,
|
||||
"extra_loses_due_thermal_bridges": 0.1,
|
||||
"infiltration_rate_for_ventilation_system_on": 0,
|
||||
"infiltration_rate_for_ventilation_system_off": 0.9,
|
||||
"infiltration_rate_area_for_ventilation_system_on": 0,
|
||||
"infiltration_rate_area_for_ventilation_system_off": 0.0005,
|
||||
"constructions": {
|
||||
"OutdoorsWall": {
|
||||
"opaque_surface_name": "PA1_PA2_2021_2050_FACEXT",
|
||||
"transparent_surface_name": "PA1_PA2_2021_2050_WIN1",
|
||||
"transparent_ratio": {
|
||||
"north": "60",
|
||||
"east": "5",
|
||||
"south": "60",
|
||||
"west": "5"
|
||||
}
|
||||
},
|
||||
"OutdoorsRoofCeiling": {
|
||||
"opaque_surface_name": "PA1_PA2_2021_2050_ROOF",
|
||||
"transparent_surface_name": null,
|
||||
"transparent_ratio": {
|
||||
"north": null,
|
||||
"east": null,
|
||||
"south": null,
|
||||
"west": null
|
||||
}
|
||||
},
|
||||
"GroundFloor": {
|
||||
"opaque_surface_name": "PA1_PA2_2021_2050_FLOOR"
|
||||
},
|
||||
"GroundWall": {
|
||||
"opaque_surface_name": "PA1_PA2_2021_2050_FACEXT"
|
||||
},
|
||||
"GroundRoofCeiling": {
|
||||
"opaque_surface_name": "PA1_PA2_2021_2050_FLOORINT"
|
||||
}
|
||||
}
|
||||
},
|
||||
{
|
||||
"function": "Medium multifamily building",
|
||||
"period_of_construction": "2021_2050",
|
||||
"climate_zone": "B3",
|
||||
"average_storey_height": 3.57,
|
||||
"thermal_capacity": 83.018,
|
||||
"extra_loses_due_thermal_bridges": 0.1,
|
||||
"infiltration_rate_for_ventilation_system_on": 0,
|
||||
"infiltration_rate_for_ventilation_system_off": 0.9,
|
||||
"infiltration_rate_area_for_ventilation_system_on": 0,
|
||||
"infiltration_rate_area_for_ventilation_system_off": 0.0005,
|
||||
"constructions": {
|
||||
"OutdoorsWall": {
|
||||
"opaque_surface_name": "PA1_PA2_2021_2050_FACEXT",
|
||||
"transparent_surface_name": "PA1_PA2_2021_2050_WIN1",
|
||||
"transparent_ratio": {
|
||||
"north": "60",
|
||||
"east": "5",
|
||||
"south": "60",
|
||||
"west": "5"
|
||||
}
|
||||
},
|
||||
"OutdoorsRoofCeiling": {
|
||||
"opaque_surface_name": "PA1_PA2_2021_2050_ROOF",
|
||||
"transparent_surface_name": null,
|
||||
"transparent_ratio": {
|
||||
"north": null,
|
||||
"east": null,
|
||||
"south": null,
|
||||
"west": null
|
||||
}
|
||||
},
|
||||
"GroundFloor": {
|
||||
"opaque_surface_name": "PA1_PA2_2021_2050_FLOOR"
|
||||
},
|
||||
"GroundWall": {
|
||||
"opaque_surface_name": "PA1_PA2_2021_2050_FACEXT"
|
||||
},
|
||||
"GroundRoofCeiling": {
|
||||
"opaque_surface_name": "PA1_PA2_2021_2050_FLOORINT"
|
||||
}
|
||||
}
|
||||
},
|
||||
{
|
||||
"function": "Small multifamily building",
|
||||
"period_of_construction": "2021_2050",
|
||||
"climate_zone": "B3",
|
||||
"average_storey_height": 3.57,
|
||||
"thermal_capacity": 83.018,
|
||||
"extra_loses_due_thermal_bridges": 0.1,
|
||||
"infiltration_rate_for_ventilation_system_on": 0,
|
||||
"infiltration_rate_for_ventilation_system_off": 0.9,
|
||||
"infiltration_rate_area_for_ventilation_system_on": 0,
|
||||
"infiltration_rate_area_for_ventilation_system_off": 0.0005,
|
||||
"constructions": {
|
||||
"OutdoorsWall": {
|
||||
"opaque_surface_name": "PA1_PA2_2021_2050_FACEXT",
|
||||
"transparent_surface_name": "PA1_PA2_2021_2050_WIN1",
|
||||
"transparent_ratio": {
|
||||
"north": "60",
|
||||
"east": "5",
|
||||
"south": "60",
|
||||
"west": "5"
|
||||
}
|
||||
},
|
||||
"OutdoorsRoofCeiling": {
|
||||
"opaque_surface_name": "PA1_PA2_2021_2050_ROOF",
|
||||
"transparent_surface_name": null,
|
||||
"transparent_ratio": {
|
||||
"north": null,
|
||||
"east": null,
|
||||
"south": null,
|
||||
"west": null
|
||||
}
|
||||
},
|
||||
"GroundFloor": {
|
||||
"opaque_surface_name": "PA1_PA2_2021_2050_FLOOR"
|
||||
},
|
||||
"GroundWall": {
|
||||
"opaque_surface_name": "PA1_PA2_2021_2050_FACEXT"
|
||||
},
|
||||
"GroundRoofCeiling": {
|
||||
"opaque_surface_name": "PA1_PA2_2021_2050_FLOORINT"
|
||||
}
|
||||
}
|
||||
},
|
||||
{
|
||||
"function": "Single-family building",
|
||||
"period_of_construction": "2021_2050",
|
||||
"climate_zone": "B3",
|
||||
"average_storey_height": 3.57,
|
||||
"thermal_capacity": 83.018,
|
||||
"extra_loses_due_thermal_bridges": 0.1,
|
||||
"infiltration_rate_for_ventilation_system_on": 0,
|
||||
"infiltration_rate_for_ventilation_system_off": 0.9,
|
||||
"infiltration_rate_area_for_ventilation_system_on": 0,
|
||||
"infiltration_rate_area_for_ventilation_system_off": 0.0005,
|
||||
"constructions": {
|
||||
"OutdoorsWall": {
|
||||
"opaque_surface_name": "PA1_PA2_2021_2050_FACEXT",
|
||||
"transparent_surface_name": "PA1_PA2_2021_2050_WIN1",
|
||||
"transparent_ratio": {
|
||||
"north": "60",
|
||||
"east": "5",
|
||||
"south": "60",
|
||||
"west": "5"
|
||||
}
|
||||
},
|
||||
"OutdoorsRoofCeiling": {
|
||||
"opaque_surface_name": "PA1_PA2_2021_2050_ROOF",
|
||||
"transparent_surface_name": null,
|
||||
"transparent_ratio": {
|
||||
"north": null,
|
||||
"east": null,
|
||||
"south": null,
|
||||
"west": null
|
||||
}
|
||||
},
|
||||
"GroundFloor": {
|
||||
"opaque_surface_name": "PA1_PA2_2021_2050_FLOOR"
|
||||
},
|
||||
"GroundWall": {
|
||||
"opaque_surface_name": "PA1_PA2_2021_2050_FACEXT"
|
||||
},
|
||||
"GroundRoofCeiling": {
|
||||
"opaque_surface_name": "PA1_PA2_2021_2050_FLOORINT"
|
||||
}
|
||||
}
|
||||
},
|
||||
{
|
||||
"function": "Large multifamily building",
|
||||
"period_of_construction": "1961_1980",
|
||||
"climate_zone": "B3",
|
||||
"average_storey_height": 3.57,
|
||||
"thermal_capacity": 3000,
|
||||
"extra_loses_due_thermal_bridges": 0.1,
|
||||
"infiltration_rate_for_ventilation_system_on": 0,
|
||||
"infiltration_rate_for_ventilation_system_off": 0.9,
|
||||
"infiltration_rate_area_for_ventilation_system_on": 0,
|
||||
"infiltration_rate_area_for_ventilation_system_off": 0.0045,
|
||||
"constructions": {
|
||||
"OutdoorsWall": {
|
||||
"opaque_surface_name": "PA1_PA2_1961_1980_FACEXT1",
|
||||
"transparent_surface_name": "PA1_PA2_1961_1980_WIN1",
|
||||
"transparent_ratio": {
|
||||
"north": "60",
|
||||
"east": "60",
|
||||
"south": "60",
|
||||
"west": "60"
|
||||
}
|
||||
},
|
||||
"OutdoorsRoofCeiling": {
|
||||
"opaque_surface_name": "PA1_PA2_1961_1980_ROOF1",
|
||||
"transparent_surface_name": null,
|
||||
"transparent_ratio": {
|
||||
"north": null,
|
||||
"east": null,
|
||||
"south": null,
|
||||
"west": null
|
||||
}
|
||||
},
|
||||
"GroundFloor": {
|
||||
"opaque_surface_name": "PA1_PA2_1961_1980_FLOOR1"
|
||||
},
|
||||
"GroundWall": {
|
||||
"opaque_surface_name": "PA1_PA2_1961_1980_FACEXT1"
|
||||
},
|
||||
"GroundRoofCeiling": {
|
||||
"opaque_surface_name": "PA1_PA2_1961_1980_FLOOR4"
|
||||
}
|
||||
}
|
||||
},
|
||||
{
|
||||
"function": "Large multifamily building",
|
||||
"period_of_construction": "1981_2007",
|
||||
"climate_zone": "B3",
|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
"infiltration_rate_area_for_ventilation_system_on": 0,
|
||||
"infiltration_rate_area_for_ventilation_system_off": 0.003,
|
||||
"constructions": {
|
||||
"OutdoorsWall": {
|
||||
"opaque_surface_name": "E_1981_2007_FACEXT1",
|
||||
"transparent_surface_name": "E_1981_2007_WIN1",
|
||||
"transparent_ratio": {
|
||||
"north": "45",
|
||||
"east": "45",
|
||||
"south": "45",
|
||||
"west": "45"
|
||||
}
|
||||
},
|
||||
"OutdoorsRoofCeiling": {
|
||||
"opaque_surface_name": "E_1981_2007_ROOF1",
|
||||
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|
||||
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|
||||
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|
||||
"east": null,
|
||||
"south": null,
|
||||
"west": null
|
||||
}
|
||||
},
|
||||
"GroundFloor": {
|
||||
"opaque_surface_name": "E_1981_2007_FLOORGR1"
|
||||
}
|
||||
}
|
||||
},
|
||||
{
|
||||
"function": "Medium multifamily building",
|
||||
"period_of_construction": "1800_1900",
|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
"infiltration_rate_area_for_ventilation_system_off": 0.006,
|
||||
"constructions": {
|
||||
"OutdoorsWall": {
|
||||
"opaque_surface_name": "A_B1900_FACEXT1",
|
||||
"transparent_surface_name": "A_B1900_WIN2",
|
||||
"transparent_ratio": {
|
||||
"north": "20",
|
||||
"east": "20",
|
||||
"south": "20",
|
||||
"west": "20"
|
||||
}
|
||||
},
|
||||
"OutdoorsRoofCeiling": {
|
||||
"opaque_surface_name": "A_B1900_ROOF1",
|
||||
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|
||||
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|
||||
"north": null,
|
||||
"east": null,
|
||||
"south": null,
|
||||
"west": null
|
||||
}
|
||||
},
|
||||
"GroundFloor": {
|
||||
"opaque_surface_name": "A_B1900_FLOORGR1"
|
||||
}
|
||||
}
|
||||
},
|
||||
{
|
||||
"function": "Medium multifamily building",
|
||||
"period_of_construction": "1901_1940",
|
||||
"climate_zone": "B3",
|
||||
"average_storey_height": 3.65,
|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
"constructions": {
|
||||
"OutdoorsWall": {
|
||||
"opaque_surface_name": "B_1901_1940_FACEXT1",
|
||||
"transparent_surface_name": "B_1901_1940_WIN1",
|
||||
"transparent_ratio": {
|
||||
"north": "40",
|
||||
"east": "40",
|
||||
"south": "40",
|
||||
"west": "40"
|
||||
}
|
||||
},
|
||||
"OutdoorsRoofCeiling": {
|
||||
"opaque_surface_name": "B_1901_1940_ROOF1",
|
||||
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|
||||
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|
||||
"north": null,
|
||||
"east": null,
|
||||
"south": null,
|
||||
"west": null
|
||||
}
|
||||
},
|
||||
"GroundFloor": {
|
||||
"opaque_surface_name": "B_1901_1940_FLOORGR1"
|
||||
}
|
||||
}
|
||||
},
|
||||
{
|
||||
"function": "Medium multifamily building",
|
||||
"period_of_construction": "1941_1960",
|
||||
"climate_zone": "B3",
|
||||
"average_storey_height": 3.6,
|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
"infiltration_rate_area_for_ventilation_system_off": 0.0055,
|
||||
"constructions": {
|
||||
"OutdoorsWall": {
|
||||
"opaque_surface_name": "C_1941_1960_FACEXT1",
|
||||
"transparent_surface_name": "C_1941_1960_WIN1",
|
||||
"transparent_ratio": {
|
||||
"north": "30",
|
||||
"east": "30",
|
||||
"south": "30",
|
||||
"west": "30"
|
||||
}
|
||||
},
|
||||
"OutdoorsRoofCeiling": {
|
||||
"opaque_surface_name": "C_1941_1960_ROOF1",
|
||||
"transparent_surface_name": null,
|
||||
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|
||||
"north": null,
|
||||
"east": null,
|
||||
"south": null,
|
||||
"west": null
|
||||
}
|
||||
},
|
||||
"GroundFloor": {
|
||||
"opaque_surface_name": "C_1941_1960_FLOORGR1"
|
||||
}
|
||||
}
|
||||
},
|
||||
{
|
||||
"function": "Medium multifamily building",
|
||||
"period_of_construction": "1961_1980",
|
||||
"climate_zone": "B3",
|
||||
"average_storey_height": 4.5,
|
||||
"thermal_capacity": 3540,
|
||||
"extra_loses_due_thermal_bridges": 0.1,
|
||||
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|
||||
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|
||||
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|
||||
"infiltration_rate_area_for_ventilation_system_off": 0.0045,
|
||||
"constructions": {
|
||||
"OutdoorsWall": {
|
||||
"opaque_surface_name": "PA1_PA2_1961_1980_FACEXT1",
|
||||
"transparent_surface_name": "PA1_PA2_1961_1980_WIN1",
|
||||
"transparent_ratio": {
|
||||
"north": "55",
|
||||
"east": "55",
|
||||
"south": "55",
|
||||
"west": "55"
|
||||
}
|
||||
},
|
||||
"OutdoorsRoofCeiling": {
|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
"south": null,
|
||||
"west": null
|
||||
}
|
||||
},
|
||||
"GroundFloor": {
|
||||
"opaque_surface_name": "PA1_PA2_1961_1980_FLOOR1"
|
||||
}
|
||||
}
|
||||
},
|
||||
{
|
||||
"function": "Medium multifamily building",
|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
"constructions": {
|
||||
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|
||||
"opaque_surface_name": "E_1981_2007_FACEXT1",
|
||||
"transparent_surface_name": "E_1981_2007_WIN1",
|
||||
"transparent_ratio": {
|
||||
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|
||||
"east": "45",
|
||||
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|
||||
"west": "45"
|
||||
}
|
||||
},
|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
}
|
||||
},
|
||||
"GroundFloor": {
|
||||
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|
||||
}
|
||||
}
|
||||
},
|
||||
{
|
||||
"function": "Medium multifamily building",
|
||||
"period_of_construction": "2008_2014",
|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
"constructions": {
|
||||
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|
||||
"opaque_surface_name": "F_2008_2014_FACEXT1",
|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
"west": "40"
|
||||
}
|
||||
},
|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
}
|
||||
},
|
||||
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|
||||
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|
||||
}
|
||||
}
|
||||
},
|
||||
{
|
||||
"function": "Small multifamily building",
|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
"constructions": {
|
||||
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|
||||
"opaque_surface_name": "PA3_PA4_1901_1940_FACEXT1",
|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
}
|
||||
},
|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
}
|
||||
},
|
||||
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|
||||
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|
||||
}
|
||||
}
|
||||
},
|
||||
{
|
||||
"function": "Small multifamily building",
|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
"west": "45"
|
||||
}
|
||||
},
|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
}
|
||||
},
|
||||
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|
||||
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|
||||
}
|
||||
}
|
||||
},
|
||||
{
|
||||
"function": "Small multifamily building",
|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
}
|
||||
},
|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
}
|
||||
},
|
||||
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|
||||
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|
||||
}
|
||||
}
|
||||
},
|
||||
{
|
||||
"function": "Small multifamily building",
|
||||
"period_of_construction": "2015_2019",
|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
"opaque_surface_name": "G_2015_2019_FACEXT1",
|
||||
"transparent_surface_name": "G_2015_2019_WIN1",
|
||||
"transparent_ratio": {
|
||||
"north": "40",
|
||||
"east": "40",
|
||||
"south": "40",
|
||||
"west": "40"
|
||||
}
|
||||
},
|
||||
"OutdoorsRoofCeiling": {
|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
}
|
||||
},
|
||||
"GroundFloor": {
|
||||
"opaque_surface_name": "G_2015_2019_FLOORGR1"
|
||||
}
|
||||
}
|
||||
},
|
||||
{
|
||||
"function": "Single-family building",
|
||||
"period_of_construction": "1800_1980",
|
||||
"climate_zone": "B3",
|
||||
"average_storey_height": 3.68,
|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
"constructions": {
|
||||
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|
||||
"opaque_surface_name": "PA3_PA4_1901_1940_FACEXT1",
|
||||
"transparent_surface_name": "PA3_PA4_1901_1940_WIN1",
|
||||
"transparent_ratio": {
|
||||
"north": "40",
|
||||
"east": "40",
|
||||
"south": "40",
|
||||
"west": "40"
|
||||
}
|
||||
},
|
||||
"OutdoorsRoofCeiling": {
|
||||
"opaque_surface_name": "PA3_PA4_1901_1940_ROOF1",
|
||||
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|
||||
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|
||||
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|
||||
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|
||||
"south": null,
|
||||
"west": null
|
||||
}
|
||||
},
|
||||
"GroundFloor": {
|
||||
"opaque_surface_name": "PA3_PA4_1901_1940_FLOORGR1"
|
||||
}
|
||||
}
|
||||
},
|
||||
{
|
||||
"function": "Single-family building",
|
||||
"period_of_construction": "1981_2007",
|
||||
"climate_zone": "B3",
|
||||
"average_storey_height": 3.2,
|
||||
"thermal_capacity": 3179,
|
||||
"extra_loses_due_thermal_bridges": 0.1,
|
||||
"infiltration_rate_for_ventilation_system_on": 0,
|
||||
"infiltration_rate_for_ventilation_system_off": 0.9,
|
||||
"infiltration_rate_area_for_ventilation_system_on": 0,
|
||||
"infiltration_rate_area_for_ventilation_system_off": 0.003,
|
||||
"constructions": {
|
||||
"OutdoorsWall": {
|
||||
"opaque_surface_name": "E_1981_2007_FACEXT1",
|
||||
"transparent_surface_name": "E_1981_2007_WIN1",
|
||||
"transparent_ratio": {
|
||||
"north": "45",
|
||||
"east": "45",
|
||||
"south": "45",
|
||||
"west": "45"
|
||||
}
|
||||
},
|
||||
"OutdoorsRoofCeiling": {
|
||||
"opaque_surface_name": "E_1981_2007_ROOF1",
|
||||
"transparent_surface_name": null,
|
||||
"transparent_ratio": {
|
||||
"north": null,
|
||||
"east": null,
|
||||
"south": null,
|
||||
"west": null
|
||||
}
|
||||
},
|
||||
"GroundFloor": {
|
||||
"opaque_surface_name": "E_1981_2007_FLOORGR1"
|
||||
}
|
||||
}
|
||||
},
|
||||
{
|
||||
"function": "Single-family building",
|
||||
"period_of_construction": "2008_2014",
|
||||
"climate_zone": "B3",
|
||||
"average_storey_height": 3.75,
|
||||
"thermal_capacity": 3200,
|
||||
"extra_loses_due_thermal_bridges": 0.1,
|
||||
"infiltration_rate_for_ventilation_system_on": 0,
|
||||
"infiltration_rate_for_ventilation_system_off": 0.9,
|
||||
"infiltration_rate_area_for_ventilation_system_on": 0,
|
||||
"infiltration_rate_area_for_ventilation_system_off": 0.0015,
|
||||
"constructions": {
|
||||
"OutdoorsWall": {
|
||||
"opaque_surface_name": "F_2008_2014_FACEXT1",
|
||||
"transparent_surface_name": "F_2008_2014_WIN1",
|
||||
"transparent_ratio": {
|
||||
"north": "60",
|
||||
"east": "60",
|
||||
"south": "60",
|
||||
"west": "60"
|
||||
}
|
||||
},
|
||||
"OutdoorsRoofCeiling": {
|
||||
"opaque_surface_name": "F_2008_2014_ROOF1",
|
||||
"transparent_surface_name": null,
|
||||
"transparent_ratio": {
|
||||
"north": null,
|
||||
"east": null,
|
||||
"south": null,
|
||||
"west": null
|
||||
}
|
||||
},
|
||||
"GroundFloor": {
|
||||
"opaque_surface_name": "F_2008_2014_FLOORGR1"
|
||||
}
|
||||
}
|
||||
},
|
||||
{
|
||||
"function": "Single-family building",
|
||||
"period_of_construction": "2015_2019",
|
||||
"climate_zone": "B3",
|
||||
"average_storey_height": 3.75,
|
||||
"thermal_capacity": 3200,
|
||||
"extra_loses_due_thermal_bridges": 0.1,
|
||||
"infiltration_rate_for_ventilation_system_on": 0,
|
||||
"infiltration_rate_for_ventilation_system_off": 0.9,
|
||||
"infiltration_rate_area_for_ventilation_system_on": 0,
|
||||
"infiltration_rate_area_for_ventilation_system_off": 0.0005,
|
||||
"constructions": {
|
||||
"OutdoorsWall": {
|
||||
"opaque_surface_name": "G_2015_2019_FACEXT1",
|
||||
"transparent_surface_name": "G_2015_2019_WIN1",
|
||||
"transparent_ratio": {
|
||||
"north": "60",
|
||||
"east": "60",
|
||||
"south": "60",
|
||||
"west": "60"
|
||||
}
|
||||
},
|
||||
"OutdoorsRoofCeiling": {
|
||||
"opaque_surface_name": "G_2015_2019_ROOF1",
|
||||
"transparent_surface_name": null,
|
||||
"transparent_ratio": {
|
||||
"north": null,
|
||||
"east": null,
|
||||
"south": null,
|
||||
"west": null
|
||||
}
|
||||
},
|
||||
"GroundFloor": {
|
||||
"opaque_surface_name": "G_2015_2019_FLOORGR1"
|
||||
}
|
||||
}
|
||||
}
|
||||
]
|
||||
}
|
1895
hub/data/construction/palma_constructions.json
Normal file
1895
hub/data/construction/palma_constructions.json
Normal file
File diff suppressed because it is too large
Load Diff
@ -198,7 +198,7 @@
|
||||
<equipments>
|
||||
<generation_id>3</generation_id>
|
||||
<distribution_id>8</distribution_id>
|
||||
g </equipments>
|
||||
</equipments>
|
||||
</system>
|
||||
<system id="5">
|
||||
<name>Single zone packaged rooftop unit with electrical resistance furnace and baseboards and fuel boiler for acs</name>
|
||||
@ -240,7 +240,7 @@ g </equipments>
|
||||
<demand>domestic_hot_water</demand>
|
||||
</demands>
|
||||
<equipments>
|
||||
<generation_id>2</generation_id>
|
||||
<generation_id>1</generation_id>
|
||||
<distribution_id>3</distribution_id>
|
||||
</equipments>
|
||||
</system>
|
||||
@ -302,7 +302,7 @@ g </equipments>
|
||||
</demands>
|
||||
<equipments>
|
||||
<generation_id>5</generation_id>
|
||||
<distribution_id>6</distribution_id>
|
||||
<distribution_id>4</distribution_id>
|
||||
</equipments>
|
||||
</system>
|
||||
<system id="15">
|
||||
|
File diff suppressed because it is too large
Load Diff
809
hub/data/energy_systems/palma_systems.xml
Normal file
809
hub/data/energy_systems/palma_systems.xml
Normal file
@ -0,0 +1,809 @@
|
||||
<?xml version="1.0" encoding="UTF-8"?>
|
||||
<EnergySystemCatalog>
|
||||
<schemas_path>./schemas/</schemas_path>
|
||||
<media>
|
||||
<medium>
|
||||
<medium_id>1</medium_id>
|
||||
<name>Water</name>
|
||||
<solar_absorptance/>
|
||||
<thermal_absorptance/>
|
||||
<visible_absorptance/>
|
||||
<no_mass/>
|
||||
<thermal_resistance/>
|
||||
<density>981.0</density>
|
||||
<specific_heat>4180.0</specific_heat>
|
||||
<conductivity>0.6</conductivity>
|
||||
</medium>
|
||||
</media>
|
||||
<energy_generation_components>
|
||||
<non_pv_generation_component>
|
||||
<system_id>1</system_id>
|
||||
<name>Natural-Gas Boiler</name>
|
||||
<system_type>boiler</system_type>
|
||||
<model_name/>
|
||||
<manufacturer/>
|
||||
<nominal_heat_output/>
|
||||
<minimum_heat_output/>
|
||||
<maximum_heat_output/>
|
||||
<heat_efficiency>0.7</heat_efficiency>
|
||||
<reversible>False</reversible>
|
||||
<fuel_type>natural gas</fuel_type>
|
||||
<source_medium/>
|
||||
<supply_medium/>
|
||||
<nominal_cooling_output/>
|
||||
<minimum_cooling_output/>
|
||||
<maximum_cooling_output/>
|
||||
<cooling_efficiency/>
|
||||
<electricity_efficiency/>
|
||||
<source_temperature/>
|
||||
<source_mass_flow/>
|
||||
<nominal_electricity_output/>
|
||||
<maximum_heat_supply_temperature/>
|
||||
<minimum_heat_supply_temperature/>
|
||||
<maximum_cooling_supply_temperature/>
|
||||
<minimum_cooling_supply_temperature/>
|
||||
<heat_output_curve/>
|
||||
<heat_fuel_consumption_curve/>
|
||||
<heat_efficiency_curve/>
|
||||
<cooling_output_curve/>
|
||||
<cooling_fuel_consumption_curve/>
|
||||
<cooling_efficiency_curve/>
|
||||
<distribution_systems/>
|
||||
<energy_storage_systems/>
|
||||
<domestic_hot_water>True</domestic_hot_water>
|
||||
<heat_supply_temperature/>
|
||||
<cooling_supply_temperature/>
|
||||
<simultaneous_heat_cold>False</simultaneous_heat_cold>
|
||||
</non_pv_generation_component>
|
||||
<non_pv_generation_component>
|
||||
<system_id>2</system_id>
|
||||
<name>Joule</name>
|
||||
<system_type>joule</system_type>
|
||||
<model_name/>
|
||||
<manufacturer/>
|
||||
<nominal_heat_output/>
|
||||
<minimum_heat_output/>
|
||||
<maximum_heat_output/>
|
||||
<heat_efficiency>1</heat_efficiency>
|
||||
<reversible>False</reversible>
|
||||
<fuel_type>electricity</fuel_type>
|
||||
<source_medium/>
|
||||
<supply_medium/>
|
||||
<nominal_cooling_output/>
|
||||
<minimum_cooling_output/>
|
||||
<maximum_cooling_output/>
|
||||
<cooling_efficiency/>
|
||||
<electricity_efficiency/>
|
||||
<source_temperature/>
|
||||
<source_mass_flow/>
|
||||
<nominal_electricity_output/>
|
||||
<maximum_heat_supply_temperature/>
|
||||
<minimum_heat_supply_temperature/>
|
||||
<maximum_cooling_supply_temperature/>
|
||||
<minimum_cooling_supply_temperature/>
|
||||
<heat_output_curve/>
|
||||
<heat_fuel_consumption_curve/>
|
||||
<heat_efficiency_curve/>
|
||||
<cooling_output_curve/>
|
||||
<cooling_fuel_consumption_curve/>
|
||||
<cooling_efficiency_curve/>
|
||||
<distribution_systems/>
|
||||
<energy_storage_systems/>
|
||||
<domestic_hot_water>True</domestic_hot_water>
|
||||
<heat_supply_temperature/>
|
||||
<cooling_supply_temperature/>
|
||||
<simultaneous_heat_cold>False</simultaneous_heat_cold>
|
||||
</non_pv_generation_component>
|
||||
<non_pv_generation_component>
|
||||
<system_id>3</system_id>
|
||||
<name>Heat Pump</name>
|
||||
<system_type>heat pump</system_type>
|
||||
<model_name/>
|
||||
<manufacturer/>
|
||||
<nominal_heat_output/>
|
||||
<minimum_heat_output/>
|
||||
<maximum_heat_output/>
|
||||
<heat_efficiency>2</heat_efficiency>
|
||||
<reversible>True</reversible>
|
||||
<fuel_type>electricity</fuel_type>
|
||||
<source_medium>Air</source_medium>
|
||||
<supply_medium>Water</supply_medium>
|
||||
<nominal_cooling_output/>
|
||||
<minimum_cooling_output/>
|
||||
<maximum_cooling_output/>
|
||||
<cooling_efficiency>2</cooling_efficiency>
|
||||
<electricity_efficiency/>
|
||||
<source_temperature/>
|
||||
<source_mass_flow/>
|
||||
<nominal_electricity_output/>
|
||||
<maximum_heat_supply_temperature/>
|
||||
<minimum_heat_supply_temperature/>
|
||||
<maximum_cooling_supply_temperature/>
|
||||
<minimum_cooling_supply_temperature/>
|
||||
<heat_output_curve/>
|
||||
<heat_fuel_consumption_curve/>
|
||||
<heat_efficiency_curve/>
|
||||
<cooling_output_curve/>
|
||||
<cooling_fuel_consumption_curve/>
|
||||
<cooling_efficiency_curve/>
|
||||
<distribution_systems/>
|
||||
<energy_storage_systems/>
|
||||
<domestic_hot_water>False</domestic_hot_water>
|
||||
<heat_supply_temperature/>
|
||||
<cooling_supply_temperature/>
|
||||
<simultaneous_heat_cold>False</simultaneous_heat_cold>
|
||||
</non_pv_generation_component>
|
||||
<non_pv_generation_component>
|
||||
<system_id>4</system_id>
|
||||
<name>Butane Heater</name>
|
||||
<system_type>butane heater</system_type>
|
||||
<model_name/>
|
||||
<manufacturer/>
|
||||
<nominal_heat_output/>
|
||||
<minimum_heat_output/>
|
||||
<maximum_heat_output/>
|
||||
<heat_efficiency>0.7</heat_efficiency>
|
||||
<reversible>False</reversible>
|
||||
<fuel_type>butane</fuel_type>
|
||||
<source_medium/>
|
||||
<supply_medium/>
|
||||
<nominal_cooling_output/>
|
||||
<minimum_cooling_output/>
|
||||
<maximum_cooling_output/>
|
||||
<cooling_efficiency/>
|
||||
<electricity_efficiency/>
|
||||
<source_temperature/>
|
||||
<source_mass_flow/>
|
||||
<nominal_electricity_output/>
|
||||
<maximum_heat_supply_temperature/>
|
||||
<minimum_heat_supply_temperature/>
|
||||
<maximum_cooling_supply_temperature/>
|
||||
<minimum_cooling_supply_temperature/>
|
||||
<heat_output_curve/>
|
||||
<heat_fuel_consumption_curve/>
|
||||
<heat_efficiency_curve/>
|
||||
<cooling_output_curve/>
|
||||
<cooling_fuel_consumption_curve/>
|
||||
<cooling_efficiency_curve/>
|
||||
<distribution_systems/>
|
||||
<energy_storage_systems/>
|
||||
<domestic_hot_water>True</domestic_hot_water>
|
||||
<heat_supply_temperature/>
|
||||
<cooling_supply_temperature/>
|
||||
<simultaneous_heat_cold>False</simultaneous_heat_cold>
|
||||
</non_pv_generation_component>
|
||||
<non_pv_generation_component>
|
||||
<system_id>5</system_id>
|
||||
<name>Split</name>
|
||||
<system_type>split</system_type>
|
||||
<model_name/>
|
||||
<manufacturer/>
|
||||
<nominal_heat_output/>
|
||||
<minimum_heat_output/>
|
||||
<maximum_heat_output/>
|
||||
<heat_efficiency/>
|
||||
<reversible>False</reversible>
|
||||
<fuel_type>electricity</fuel_type>
|
||||
<source_medium/>
|
||||
<supply_medium/>
|
||||
<nominal_cooling_output/>
|
||||
<minimum_cooling_output/>
|
||||
<maximum_cooling_output/>
|
||||
<cooling_efficiency>2</cooling_efficiency>
|
||||
<electricity_efficiency/>
|
||||
<source_temperature/>
|
||||
<source_mass_flow/>
|
||||
<nominal_electricity_output/>
|
||||
<maximum_heat_supply_temperature/>
|
||||
<minimum_heat_supply_temperature/>
|
||||
<maximum_cooling_supply_temperature/>
|
||||
<minimum_cooling_supply_temperature/>
|
||||
<heat_output_curve/>
|
||||
<heat_fuel_consumption_curve/>
|
||||
<heat_efficiency_curve/>
|
||||
<cooling_output_curve/>
|
||||
<cooling_fuel_consumption_curve/>
|
||||
<cooling_efficiency_curve/>
|
||||
<distribution_systems/>
|
||||
<energy_storage_systems/>
|
||||
<domestic_hot_water>False</domestic_hot_water>
|
||||
<heat_supply_temperature/>
|
||||
<cooling_supply_temperature/>
|
||||
<simultaneous_heat_cold>False</simultaneous_heat_cold>
|
||||
</non_pv_generation_component>
|
||||
<non_pv_generation_component>
|
||||
<system_id>6</system_id>
|
||||
<name>Domestic Hot Water Heat Pump</name>
|
||||
<system_type>heat pump</system_type>
|
||||
<model_name/>
|
||||
<manufacturer/>
|
||||
<nominal_heat_output/>
|
||||
<minimum_heat_output/>
|
||||
<maximum_heat_output/>
|
||||
<heat_efficiency>3</heat_efficiency>
|
||||
<reversible>False</reversible>
|
||||
<fuel_type>electricity</fuel_type>
|
||||
<source_medium>Air</source_medium>
|
||||
<supply_medium>Water</supply_medium>
|
||||
<nominal_cooling_output/>
|
||||
<minimum_cooling_output/>
|
||||
<maximum_cooling_output/>
|
||||
<cooling_efficiency/>
|
||||
<electricity_efficiency/>
|
||||
<source_temperature/>
|
||||
<source_mass_flow/>
|
||||
<nominal_electricity_output/>
|
||||
<maximum_heat_supply_temperature/>
|
||||
<minimum_heat_supply_temperature/>
|
||||
<maximum_cooling_supply_temperature/>
|
||||
<minimum_cooling_supply_temperature/>
|
||||
<heat_output_curve/>
|
||||
<heat_fuel_consumption_curve/>
|
||||
<heat_efficiency_curve/>
|
||||
<cooling_output_curve/>
|
||||
<cooling_fuel_consumption_curve/>
|
||||
<cooling_efficiency_curve/>
|
||||
<distribution_systems/>
|
||||
<energy_storage_systems/>
|
||||
<domestic_hot_water>True</domestic_hot_water>
|
||||
<heat_supply_temperature/>
|
||||
<cooling_supply_temperature/>
|
||||
<simultaneous_heat_cold/>
|
||||
</non_pv_generation_component>
|
||||
<pv_generation_component>
|
||||
<system_id>7</system_id>
|
||||
<name>template Photovoltaic Module</name>
|
||||
<system_type>photovoltaic</system_type>
|
||||
<model_name/>
|
||||
<manufacturer/>
|
||||
<nominal_electricity_output/>
|
||||
<electricity_efficiency>0.2</electricity_efficiency>
|
||||
<nominal_ambient_temperature>20</nominal_ambient_temperature>
|
||||
<nominal_cell_temperature>45</nominal_cell_temperature>
|
||||
<nominal_radiation>800</nominal_radiation>
|
||||
<standard_test_condition_cell_temperature>25</standard_test_condition_cell_temperature>
|
||||
<standard_test_condition_radiation>1000</standard_test_condition_radiation>
|
||||
<standard_test_condition_maximum_power>500</standard_test_condition_maximum_power>
|
||||
<cell_temperature_coefficient>0.3</cell_temperature_coefficient>
|
||||
<width>2.0</width>
|
||||
<height>1.0</height>
|
||||
<distribution_systems/>
|
||||
<energy_storage_systems/>
|
||||
<simultaneous_heat_cold>False</simultaneous_heat_cold>
|
||||
</pv_generation_component>
|
||||
<pv_generation_component>
|
||||
<system_id>8</system_id>
|
||||
<name>Photovoltaic Module</name>
|
||||
<system_type>photovoltaic</system_type>
|
||||
<model_name>RE400CAA Pure 2</model_name>
|
||||
<manufacturer>REC</manufacturer>
|
||||
<nominal_electricity_output>305</nominal_electricity_output>
|
||||
<electricity_efficiency>0.206</electricity_efficiency>
|
||||
<nominal_ambient_temperature>20</nominal_ambient_temperature>
|
||||
<nominal_cell_temperature>44</nominal_cell_temperature>
|
||||
<nominal_radiation>800</nominal_radiation>
|
||||
<standard_test_condition_cell_temperature>25</standard_test_condition_cell_temperature>
|
||||
<standard_test_condition_radiation>1000</standard_test_condition_radiation>
|
||||
<standard_test_condition_maximum_power>400</standard_test_condition_maximum_power>
|
||||
<cell_temperature_coefficient>0.24</cell_temperature_coefficient>
|
||||
<width>1.86</width>
|
||||
<height>1.04</height>
|
||||
<distribution_systems/>
|
||||
<energy_storage_systems/>
|
||||
<simultaneous_heat_cold>False</simultaneous_heat_cold>
|
||||
</pv_generation_component>
|
||||
<pv_generation_component>
|
||||
<system_id>9</system_id>
|
||||
<name>Photovoltaic Module</name>
|
||||
<system_type>photovoltaic</system_type>
|
||||
<model_name>RE410CAA Pure 2</model_name>
|
||||
<manufacturer>REC</manufacturer>
|
||||
<nominal_electricity_output>312</nominal_electricity_output>
|
||||
<electricity_efficiency>0.211</electricity_efficiency>
|
||||
<nominal_ambient_temperature>20</nominal_ambient_temperature>
|
||||
<nominal_cell_temperature>44</nominal_cell_temperature>
|
||||
<nominal_radiation>800</nominal_radiation>
|
||||
<standard_test_condition_cell_temperature>25</standard_test_condition_cell_temperature>
|
||||
<standard_test_condition_radiation>1000</standard_test_condition_radiation>
|
||||
<standard_test_condition_maximum_power>410</standard_test_condition_maximum_power>
|
||||
<cell_temperature_coefficient>0.24</cell_temperature_coefficient>
|
||||
<width>1.86</width>
|
||||
<height>1.04</height>
|
||||
<distribution_systems/>
|
||||
<energy_storage_systems/>
|
||||
<simultaneous_heat_cold>False</simultaneous_heat_cold>
|
||||
</pv_generation_component>
|
||||
<pv_generation_component>
|
||||
<system_id>10</system_id>
|
||||
<name>Photovoltaic Module</name>
|
||||
<system_type>photovoltaic</system_type>
|
||||
<model_name>RE420CAA Pure 2</model_name>
|
||||
<manufacturer>REC</manufacturer>
|
||||
<nominal_electricity_output>320</nominal_electricity_output>
|
||||
<electricity_efficiency>0.217</electricity_efficiency>
|
||||
<nominal_ambient_temperature>20</nominal_ambient_temperature>
|
||||
<nominal_cell_temperature>44</nominal_cell_temperature>
|
||||
<nominal_radiation>800</nominal_radiation>
|
||||
<standard_test_condition_cell_temperature>25</standard_test_condition_cell_temperature>
|
||||
<standard_test_condition_radiation>1000</standard_test_condition_radiation>
|
||||
<standard_test_condition_maximum_power>420</standard_test_condition_maximum_power>
|
||||
<cell_temperature_coefficient>0.24</cell_temperature_coefficient>
|
||||
<width>1.86</width>
|
||||
<height>1.04</height>
|
||||
<distribution_systems/>
|
||||
<energy_storage_systems/>
|
||||
<simultaneous_heat_cold>False</simultaneous_heat_cold>
|
||||
</pv_generation_component>
|
||||
<pv_generation_component>
|
||||
<system_id>11</system_id>
|
||||
<name>Photovoltaic Module</name>
|
||||
<system_type>photovoltaic</system_type>
|
||||
<model_name>RE430CAA Pure 2</model_name>
|
||||
<manufacturer>REC</manufacturer>
|
||||
<nominal_electricity_output>327</nominal_electricity_output>
|
||||
<electricity_efficiency>0.222</electricity_efficiency>
|
||||
<nominal_ambient_temperature>20</nominal_ambient_temperature>
|
||||
<nominal_cell_temperature>44</nominal_cell_temperature>
|
||||
<nominal_radiation>800</nominal_radiation>
|
||||
<standard_test_condition_cell_temperature>25</standard_test_condition_cell_temperature>
|
||||
<standard_test_condition_radiation>1000</standard_test_condition_radiation>
|
||||
<standard_test_condition_maximum_power>430</standard_test_condition_maximum_power>
|
||||
<cell_temperature_coefficient>0.24</cell_temperature_coefficient>
|
||||
<width>1.86</width>
|
||||
<height>1.04</height>
|
||||
<distribution_systems/>
|
||||
<energy_storage_systems/>
|
||||
<simultaneous_heat_cold>False</simultaneous_heat_cold>
|
||||
</pv_generation_component>
|
||||
<pv_generation_component>
|
||||
<system_id>12</system_id>
|
||||
<name>Photovoltaic Module</name>
|
||||
<system_type>photovoltaic</system_type>
|
||||
<model_name>REC600AA Pro M</model_name>
|
||||
<manufacturer>REC</manufacturer>
|
||||
<nominal_electricity_output>457</nominal_electricity_output>
|
||||
<electricity_efficiency>0.211</electricity_efficiency>
|
||||
<nominal_ambient_temperature>20</nominal_ambient_temperature>
|
||||
<nominal_cell_temperature>44</nominal_cell_temperature>
|
||||
<nominal_radiation>800</nominal_radiation>
|
||||
<standard_test_condition_cell_temperature>25</standard_test_condition_cell_temperature>
|
||||
<standard_test_condition_radiation>1000</standard_test_condition_radiation>
|
||||
<standard_test_condition_maximum_power>600</standard_test_condition_maximum_power>
|
||||
<cell_temperature_coefficient>0.24</cell_temperature_coefficient>
|
||||
<width>2.17</width>
|
||||
<height>1.3</height>
|
||||
<distribution_systems/>
|
||||
<energy_storage_systems/>
|
||||
<simultaneous_heat_cold>False</simultaneous_heat_cold>
|
||||
</pv_generation_component>
|
||||
<pv_generation_component>
|
||||
<system_id>13</system_id>
|
||||
<name>Photovoltaic Module</name>
|
||||
<system_type>photovoltaic</system_type>
|
||||
<model_name>REC610AA Pro M</model_name>
|
||||
<manufacturer>REC</manufacturer>
|
||||
<nominal_electricity_output>464</nominal_electricity_output>
|
||||
<electricity_efficiency>0.215</electricity_efficiency>
|
||||
<nominal_ambient_temperature>20</nominal_ambient_temperature>
|
||||
<nominal_cell_temperature>44</nominal_cell_temperature>
|
||||
<nominal_radiation>800</nominal_radiation>
|
||||
<standard_test_condition_cell_temperature>25</standard_test_condition_cell_temperature>
|
||||
<standard_test_condition_radiation>1000</standard_test_condition_radiation>
|
||||
<standard_test_condition_maximum_power>610</standard_test_condition_maximum_power>
|
||||
<cell_temperature_coefficient>0.24</cell_temperature_coefficient>
|
||||
<width>2.17</width>
|
||||
<height>1.3</height>
|
||||
<distribution_systems/>
|
||||
<energy_storage_systems/>
|
||||
<simultaneous_heat_cold>False</simultaneous_heat_cold>
|
||||
</pv_generation_component>
|
||||
<pv_generation_component>
|
||||
<system_id>14</system_id>
|
||||
<name>Photovoltaic Module</name>
|
||||
<system_type>photovoltaic</system_type>
|
||||
<model_name>REC620AA Pro M</model_name>
|
||||
<manufacturer>REC</manufacturer>
|
||||
<nominal_electricity_output>472</nominal_electricity_output>
|
||||
<electricity_efficiency>0.218</electricity_efficiency>
|
||||
<nominal_ambient_temperature>20</nominal_ambient_temperature>
|
||||
<nominal_cell_temperature>44</nominal_cell_temperature>
|
||||
<nominal_radiation>800</nominal_radiation>
|
||||
<standard_test_condition_cell_temperature>25</standard_test_condition_cell_temperature>
|
||||
<standard_test_condition_radiation>1000</standard_test_condition_radiation>
|
||||
<standard_test_condition_maximum_power>620</standard_test_condition_maximum_power>
|
||||
<cell_temperature_coefficient>0.24</cell_temperature_coefficient>
|
||||
<width>2.17</width>
|
||||
<height>1.3</height>
|
||||
<distribution_systems/>
|
||||
<energy_storage_systems/>
|
||||
<simultaneous_heat_cold>False</simultaneous_heat_cold>
|
||||
</pv_generation_component>
|
||||
<pv_generation_component>
|
||||
<system_id>15</system_id>
|
||||
<name>Photovoltaic Module</name>
|
||||
<system_type>photovoltaic</system_type>
|
||||
<model_name>REC630AA Pro M</model_name>
|
||||
<manufacturer>REC</manufacturer>
|
||||
<nominal_electricity_output>480</nominal_electricity_output>
|
||||
<electricity_efficiency>0.222</electricity_efficiency>
|
||||
<nominal_ambient_temperature>20</nominal_ambient_temperature>
|
||||
<nominal_cell_temperature>44</nominal_cell_temperature>
|
||||
<nominal_radiation>800</nominal_radiation>
|
||||
<standard_test_condition_cell_temperature>25</standard_test_condition_cell_temperature>
|
||||
<standard_test_condition_radiation>1000</standard_test_condition_radiation>
|
||||
<standard_test_condition_maximum_power>630</standard_test_condition_maximum_power>
|
||||
<cell_temperature_coefficient>0.24</cell_temperature_coefficient>
|
||||
<width>2.17</width>
|
||||
<height>1.3</height>
|
||||
<distribution_systems/>
|
||||
<energy_storage_systems/>
|
||||
<simultaneous_heat_cold>False</simultaneous_heat_cold>
|
||||
</pv_generation_component>
|
||||
<pv_generation_component>
|
||||
<system_id>16</system_id>
|
||||
<name>Photovoltaic Module</name>
|
||||
<system_type>photovoltaic</system_type>
|
||||
<model_name>REC640AA Pro M</model_name>
|
||||
<manufacturer>REC</manufacturer>
|
||||
<nominal_electricity_output>487</nominal_electricity_output>
|
||||
<electricity_efficiency>0.215</electricity_efficiency>
|
||||
<nominal_ambient_temperature>20</nominal_ambient_temperature>
|
||||
<nominal_cell_temperature>44</nominal_cell_temperature>
|
||||
<nominal_radiation>800</nominal_radiation>
|
||||
<standard_test_condition_cell_temperature>25</standard_test_condition_cell_temperature>
|
||||
<standard_test_condition_radiation>1000</standard_test_condition_radiation>
|
||||
<standard_test_condition_maximum_power>640</standard_test_condition_maximum_power>
|
||||
<cell_temperature_coefficient>0.24</cell_temperature_coefficient>
|
||||
<width>2.17</width>
|
||||
<height>1.3</height>
|
||||
<distribution_systems/>
|
||||
<energy_storage_systems/>
|
||||
<simultaneous_heat_cold>False</simultaneous_heat_cold>
|
||||
</pv_generation_component>
|
||||
</energy_generation_components>
|
||||
<energy_storage_components>
|
||||
<thermalStorages>
|
||||
<storage_id>6</storage_id>
|
||||
<name>template Hot Water Storage Tank</name>
|
||||
<type_energy_stored>thermal</type_energy_stored>
|
||||
<model_name/>
|
||||
<manufacturer/>
|
||||
<maximum_operating_temperature>95.0</maximum_operating_temperature>
|
||||
<insulation>
|
||||
<material_id>1</material_id>
|
||||
<insulationThickness>90.0</insulationThickness>
|
||||
</insulation>
|
||||
<physical_characteristics>
|
||||
<material_id>2</material_id>
|
||||
<tankThickness>0</tankThickness>
|
||||
<height>1.5</height>
|
||||
<tankMaterial>Steel</tankMaterial>
|
||||
<volume/>
|
||||
</physical_characteristics>
|
||||
<storage_medium>
|
||||
<medium_id>1</medium_id>
|
||||
</storage_medium>
|
||||
<storage_type>sensible</storage_type>
|
||||
<nominal_capacity/>
|
||||
<losses_ratio/>
|
||||
<heating_coil_capacity/>
|
||||
</thermalStorages>
|
||||
<thermalStorages>
|
||||
<storage_id>7</storage_id>
|
||||
<name>template Hot Water Storage Tank with Heating Coil</name>
|
||||
<type_energy_stored>thermal</type_energy_stored>
|
||||
<model_name/>
|
||||
<manufacturer/>
|
||||
<maximum_operating_temperature>95.0</maximum_operating_temperature>
|
||||
<insulation>
|
||||
<material_id>1</material_id>
|
||||
<insulationThickness>90.0</insulationThickness>
|
||||
</insulation>
|
||||
<physical_characteristics>
|
||||
<material_id>2</material_id>
|
||||
<tankThickness>0</tankThickness>
|
||||
<height>1.5</height>
|
||||
<tankMaterial>Steel</tankMaterial>
|
||||
<volume/>
|
||||
</physical_characteristics>
|
||||
<storage_medium>
|
||||
<medium_id>1</medium_id>
|
||||
</storage_medium>
|
||||
<storage_type>sensible</storage_type>
|
||||
<nominal_capacity/>
|
||||
<losses_ratio/>
|
||||
<heating_coil_capacity>5000</heating_coil_capacity>
|
||||
</thermalStorages>
|
||||
</energy_storage_components>
|
||||
<materials>
|
||||
<material>
|
||||
<material_id>1</material_id>
|
||||
<name>Polyurethane</name>
|
||||
<solar_absorptance/>
|
||||
<thermal_absorptance/>
|
||||
<visible_absorptance/>
|
||||
<no_mass/>
|
||||
<thermal_resistance/>
|
||||
<density/>
|
||||
<specific_heat/>
|
||||
<conductivity>0.028</conductivity>
|
||||
</material>
|
||||
<material>
|
||||
<material_id>2</material_id>
|
||||
<name>Steel</name>
|
||||
<solar_absorptance/>
|
||||
<thermal_absorptance/>
|
||||
<visible_absorptance/>
|
||||
<no_mass/>
|
||||
<thermal_resistance/>
|
||||
<density/>
|
||||
<specific_heat/>
|
||||
<conductivity>18</conductivity>
|
||||
</material>
|
||||
</materials>
|
||||
<distribution_systems>
|
||||
<distribution_system/>
|
||||
</distribution_systems>
|
||||
<dissipation_systems>
|
||||
<dissipation_system/>
|
||||
</dissipation_systems>
|
||||
<systems>
|
||||
<system>
|
||||
<id>1</id>
|
||||
<name>Central gas system</name>
|
||||
<schema/>
|
||||
<demands>
|
||||
<demand>heating</demand>
|
||||
<demand>domestic_hot_water</demand>
|
||||
</demands>
|
||||
<components>
|
||||
<generation_id>1</generation_id>
|
||||
</components>
|
||||
</system>
|
||||
<system>
|
||||
<id>2</id>
|
||||
<name>Central Joule system</name>
|
||||
<schema/>
|
||||
<demands>
|
||||
<demand>heating</demand>
|
||||
<demand>domestic_hot_water</demand>
|
||||
</demands>
|
||||
<components>
|
||||
<generation_id>2</generation_id>
|
||||
</components>
|
||||
</system>
|
||||
<system>
|
||||
<id>3</id>
|
||||
<name>Central butane system</name>
|
||||
<schema/>
|
||||
<demands>
|
||||
<demand>heating</demand>
|
||||
<demand>domestic_hot_water</demand>
|
||||
</demands>
|
||||
<components>
|
||||
<generation_id>4</generation_id>
|
||||
</components>
|
||||
</system>
|
||||
<system>
|
||||
<id>4</id>
|
||||
<name>Single zone split system</name>
|
||||
<schema/>
|
||||
<demands>
|
||||
<demand>cooling</demand>
|
||||
</demands>
|
||||
<components>
|
||||
<generation_id>5</generation_id>
|
||||
</components>
|
||||
</system>
|
||||
<system>
|
||||
<id>5</id>
|
||||
<name>4 pipe heat pump system</name>
|
||||
<schema/>
|
||||
<demands>
|
||||
<demand>heating</demand>
|
||||
<demand>cooling</demand>
|
||||
</demands>
|
||||
<components>
|
||||
<generation_id>3</generation_id>
|
||||
</components>
|
||||
</system>
|
||||
<system>
|
||||
<id>6</id>
|
||||
<name>PV</name>
|
||||
<schema/>
|
||||
<demands>
|
||||
<demand>electricity</demand>
|
||||
</demands>
|
||||
<components>
|
||||
<generation_id>7</generation_id>
|
||||
</components>
|
||||
</system>
|
||||
<system>
|
||||
<id>7</id>
|
||||
<name>Gas heating</name>
|
||||
<schema/>
|
||||
<demands>
|
||||
<demand>heating</demand>
|
||||
</demands>
|
||||
<components>
|
||||
<generation_id>1</generation_id>
|
||||
</components>
|
||||
</system>
|
||||
<system>
|
||||
<id>8</id>
|
||||
<name>Electrical heating</name>
|
||||
<schema/>
|
||||
<demands>
|
||||
<demand>heating</demand>
|
||||
</demands>
|
||||
<components>
|
||||
<generation_id>2</generation_id>
|
||||
</components>
|
||||
</system>
|
||||
<system>
|
||||
<id>9</id>
|
||||
<name>Butane heating</name>
|
||||
<schema/>
|
||||
<demands>
|
||||
<demand>heating</demand>
|
||||
</demands>
|
||||
<components>
|
||||
<generation_id>4</generation_id>
|
||||
</components>
|
||||
</system>
|
||||
<system>
|
||||
<id>10</id>
|
||||
<name>Gas hot water system</name>
|
||||
<schema/>
|
||||
<demands>
|
||||
<demand>domestic_hot_water</demand>
|
||||
</demands>
|
||||
<components>
|
||||
<generation_id>1</generation_id>
|
||||
</components>
|
||||
</system>
|
||||
<system>
|
||||
<id>11</id>
|
||||
<name>Electrical hot water system</name>
|
||||
<schema/>
|
||||
<demands>
|
||||
<demand>domestic_hot_water</demand>
|
||||
</demands>
|
||||
<components>
|
||||
<generation_id>2</generation_id>
|
||||
</components>
|
||||
</system>
|
||||
<system>
|
||||
<id>12</id>
|
||||
<name>Butane hot water system</name>
|
||||
<schema/>
|
||||
<demands>
|
||||
<demand>domestic_hot_water</demand>
|
||||
</demands>
|
||||
<components>
|
||||
<generation_id>4</generation_id>
|
||||
</components>
|
||||
</system>
|
||||
<system>
|
||||
<id>13</id>
|
||||
<name>Heat Pump hot water system</name>
|
||||
<schema/>
|
||||
<demands>
|
||||
<demand>domestic_hot_water</demand>
|
||||
</demands>
|
||||
<components>
|
||||
<generation_id>6</generation_id>
|
||||
</components>
|
||||
</system>
|
||||
</systems>
|
||||
|
||||
<system_archetypes>
|
||||
<system_archetype id="1">
|
||||
<name>Gas boiler for heating and hot water heater with split cooling</name>
|
||||
<systems>
|
||||
<system_id>1</system_id>
|
||||
<system_id>4</system_id>
|
||||
</systems>
|
||||
</system_archetype>
|
||||
<system_archetype id="2">
|
||||
<name>Joule heater for heating and hot water heater with split cooling</name>
|
||||
<systems>
|
||||
<system_id>2</system_id>
|
||||
<system_id>4</system_id>
|
||||
</systems>
|
||||
</system_archetype>
|
||||
<system_archetype id="3">
|
||||
<name>Butane heater for heating and hot water heater with split cooling</name>
|
||||
<systems>
|
||||
<system_id>3</system_id>
|
||||
<system_id>4</system_id>
|
||||
</systems>
|
||||
</system_archetype>
|
||||
<system_archetype id="4">
|
||||
<name>Gas heating</name>
|
||||
<systems>
|
||||
<system_id>1</system_id>
|
||||
</systems>
|
||||
</system_archetype>
|
||||
<system_archetype id="5">
|
||||
<name>Electrical joule heating</name>
|
||||
<systems>
|
||||
<system_id>2</system_id>
|
||||
</systems>
|
||||
</system_archetype>
|
||||
<system_archetype id="6">
|
||||
<name>Butane heating</name>
|
||||
<systems>
|
||||
<system_id>3</system_id>
|
||||
</systems>
|
||||
</system_archetype>
|
||||
<system_archetype id="7">
|
||||
<name>Heat pump with gas water heater</name>
|
||||
<systems>
|
||||
<system_id>5</system_id>
|
||||
<system_id>7</system_id>
|
||||
</systems>
|
||||
</system_archetype>
|
||||
<system_archetype id="8">
|
||||
<name>Heat pump with joule water heater</name>
|
||||
<systems>
|
||||
<system_id>5</system_id>
|
||||
<system_id>8</system_id>
|
||||
</systems>
|
||||
</system_archetype>
|
||||
<system_archetype id="9">
|
||||
<name>Heat pump with butane water heater</name>
|
||||
<systems>
|
||||
<system_id>5</system_id>
|
||||
<system_id>9</system_id>
|
||||
</systems>
|
||||
</system_archetype>
|
||||
<system_archetype id="10">
|
||||
<name>Heat pump with gas water heater and rooftop PV</name>
|
||||
<systems>
|
||||
<system_id>5</system_id>
|
||||
<system_id>7</system_id>
|
||||
<system_id>6</system_id>
|
||||
</systems>
|
||||
</system_archetype>
|
||||
<system_archetype id="11">
|
||||
<name>Heat pump with joule water heater and rooftop PV</name>
|
||||
<systems>
|
||||
<system_id>5</system_id>
|
||||
<system_id>8</system_id>
|
||||
<system_id>6</system_id>
|
||||
</systems>
|
||||
</system_archetype>
|
||||
<system_archetype id="12">
|
||||
<name>Rooftop PV</name>
|
||||
<systems>
|
||||
<system_id>6</system_id>
|
||||
</systems>
|
||||
</system_archetype>
|
||||
<system_archetype id="13">
|
||||
<name>Joule heater with split cooling and gas hot water</name>
|
||||
<systems>
|
||||
<system_id>4</system_id>
|
||||
<system_id>8</system_id>
|
||||
<system_id>10</system_id>
|
||||
</systems>
|
||||
</system_archetype>
|
||||
<system_archetype id="14">
|
||||
<name>Joule heater with split cooling and butane hot water</name>
|
||||
<systems>
|
||||
<system_id>4</system_id>
|
||||
<system_id>8</system_id>
|
||||
<system_id>12</system_id>
|
||||
</systems>
|
||||
</system_archetype>
|
||||
<system_archetype id="15">
|
||||
<name>PV and heat pump</name>
|
||||
<systems>
|
||||
<system_id>5</system_id>
|
||||
<system_id>6</system_id>
|
||||
<system_id>13</system_id>
|
||||
</systems>
|
||||
</system_archetype>
|
||||
</system_archetypes>
|
||||
</EnergySystemCatalog>
|
||||
|
@ -8378,7 +8378,6 @@ CA.10.08 Abitibi-Témiscamingue Abitibi-Temiscamingue 5881941
|
||||
CA.04.1306 Albert County Albert County 5883098
|
||||
CA.03.5883398 Alexander Alexander 5883398
|
||||
CA.08.3557 Algoma Algoma 5883638
|
||||
CA.08.3558 Thunder Bay Thunder Bay
|
||||
CA.03.5884145 Alonsa Alonsa 5884145
|
||||
CA.07.1205 Annapolis County Annapolis County 5885415
|
||||
CA.07.1214 Antigonish County Antigonish County 5886183
|
||||
|
904
hub/data/usage/palma_schedules.json
Normal file
904
hub/data/usage/palma_schedules.json
Normal file
@ -0,0 +1,904 @@
|
||||
{
|
||||
"tables": {
|
||||
"schedules": {
|
||||
"data_type": "table",
|
||||
"refs": [
|
||||
"DBHE CTE Tabla b-Anejo D"
|
||||
],
|
||||
"table": [
|
||||
{
|
||||
|
||||
"name": "DBHE-CTE-Occupancy-sensible",
|
||||
"category": "Occupancy",
|
||||
"units": "FRACTION",
|
||||
"day_types": "Default|Wkdy",
|
||||
"start_date": "2014-01-01T00:00:00+00:00",
|
||||
"end_date": "2014-12-31T00:00:00+00:00",
|
||||
"type": "Hourly",
|
||||
"notes": null,
|
||||
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|
||||
1,
|
||||
1,
|
||||
1,
|
||||
1,
|
||||
1,
|
||||
1,
|
||||
0.25,
|
||||
0.25,
|
||||
0.25,
|
||||
0.25,
|
||||
0.25,
|
||||
0.25,
|
||||
0.25,
|
||||
0.25,
|
||||
0.5,
|
||||
0.5,
|
||||
0.5,
|
||||
0.5,
|
||||
0.5,
|
||||
0.5,
|
||||
0.5,
|
||||
0.5,
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||||
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||||
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|
||||
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|
||||
},
|
||||
{
|
||||
|
||||
"name": "DBHE-CTE-Occupancy-sensible",
|
||||
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|
||||
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|
||||
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|
||||
"start_date": "2014-01-01T00:00:00+00:00",
|
||||
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|
||||
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||||
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||||
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||||
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1,
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||||
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||||
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||||
1,
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||||
1,
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||||
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||||
1
|
||||
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|
||||
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|
||||
{
|
||||
|
||||
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|
||||
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|
||||
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|
||||
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||||
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||||
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||||
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||||
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||||
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||||
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||||
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||||
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|
||||
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|
||||
},
|
||||
{
|
||||
|
||||
"name": "DBHE-CTE-Occupancy-latent",
|
||||
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|
||||
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|
||||
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|
||||
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||||
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||||
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||||
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||||
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||||
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||||
0.25,
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||||
0.25,
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||||
0.25,
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||||
0.25,
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||||
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||||
0.5,
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||||
0.5,
|
||||
0.5,
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||||
0.5,
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||||
0.5,
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||||
0.5,
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||||
0.5,
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0.5,
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||||
1
|
||||
]
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||||
},
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{
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||||
"name": "DBHE-CTE-Occupancy-latent",
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||||
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||||
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||||
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|
||||
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||||
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1,
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||||
1,
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||||
1,
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1,
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||||
1,
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||||
1,
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||||
1,
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||||
1,
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||||
1,
|
||||
1,
|
||||
1,
|
||||
1
|
||||
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||||
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||||
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||||
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||||
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|
||||
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||||
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||||
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||||
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||||
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||||
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||||
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||||
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||||
1,
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||||
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||||
1,
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1,
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||||
1,
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||||
1,
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1,
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||||
1,
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1,
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||||
1,
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||||
1,
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||||
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||||
1,
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1,
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||||
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||||
1,
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||||
1,
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||||
1
|
||||
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||||
},
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||||
{
|
||||
|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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||||
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||||
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||||
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||||
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||||
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||||
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||||
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||||
]
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||||
},
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||||
{
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||||
"name": "DBHE-CTE-Lighting",
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||||
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||||
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||||
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||||
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||||
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||||
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||||
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||||
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||||
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||||
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|
||||
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||||
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||||
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||||
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||||
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||||
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|
||||
{
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||||
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|
||||
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|
||||
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|
||||
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|
||||
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||||
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|
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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||||
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||||
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|
||||
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|
||||
},
|
||||
{
|
||||
|
||||
"name": "DBHE-CTE-Thermostat Setpoint-Heating",
|
||||
"category": "Thermostat Setpoint",
|
||||
"units": "TEMPERATURE",
|
||||
"day_types": "Default|Wkdy",
|
||||
"start_date": "2014-01-01T00:00:00+00:00",
|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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||||
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||||
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|
||||
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||||
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||||
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||||
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|
||||
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||||
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||||
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||||
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||||
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||||
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||||
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||||
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||||
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||||
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||||
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||||
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|
||||
21.0,
|
||||
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|
||||
17.0,
|
||||
17.0
|
||||
]
|
||||
},
|
||||
{
|
||||
|
||||
"name": "DBHE-CTE-Thermostat Setpoint-Heating",
|
||||
"category": "Thermostat Setpoint",
|
||||
"units": "TEMPERATURE",
|
||||
"day_types": "Sat",
|
||||
"start_date": "2014-01-01T00:00:00+00:00",
|
||||
"end_date": "2014-12-31T00:00:00+00:00",
|
||||
"type": "Hourly",
|
||||
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|
30
hub/data/usage/palma_space_compliance.json
Normal file
30
hub/data/usage/palma_space_compliance.json
Normal file
@ -0,0 +1,30 @@
|
||||
{
|
||||
"tables": {
|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
},
|
||||
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|
||||
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|
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|
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
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|
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|
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|
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|
||||
}]
|
||||
}
|
||||
}
|
||||
}
|
97
hub/data/usage/palma_space_types.json
Normal file
97
hub/data/usage/palma_space_types.json
Normal file
@ -0,0 +1,97 @@
|
||||
{
|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
{
|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
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|
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|
||||
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|
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|
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|
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|
||||
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|
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|
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|
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|
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|
||||
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|
||||
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|
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|
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
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|
||||
"service_water_heating_schedule": "DBHE-CTE-Service Water Heating",
|
||||
"exhaust_per_area": null,
|
||||
"exhaust_fan_efficiency": null,
|
||||
"exhaust_fan_power": null,
|
||||
"exhaust_fan_pressure_rise": null,
|
||||
"exhaust_fan_maximum_flow_rate": null,
|
||||
"exhaust_schedule": null,
|
||||
"balanced_exhaust_fraction_schedule": null,
|
||||
"is_residential": null,
|
||||
"necb_hvac_system_selection_type": "residential",
|
||||
"necb_schedule_type": "G",
|
||||
"notes": null,
|
||||
"ventilation_occupancy_rate_people_per_1000ft2": 10,
|
||||
"ventilation_occupancy_standard": null,
|
||||
"ventilation_standard_space_type": null,
|
||||
"sensible_convective_internal_gain": 0.86,
|
||||
"sensible_radiative_internal_gain": 1.29,
|
||||
"latent_internal_gain": 1.36
|
||||
}
|
||||
]
|
||||
}
|
||||
}
|
||||
}
|
248
hub/exports/building_energy/cerc_idf.py
Normal file
248
hub/exports/building_energy/cerc_idf.py
Normal file
@ -0,0 +1,248 @@
|
||||
"""
|
||||
Cerc Idf exports one city or some buildings to idf format
|
||||
SPDX - License - Identifier: LGPL - 3.0 - or -later
|
||||
Copyright © 2022 Concordia CERC group
|
||||
Project Coder Guille Guillermo.GutierrezMorote@concordia.ca
|
||||
Code contributors: Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca
|
||||
Oriol Gavalda Torrellas oriol.gavalda@concordia.ca
|
||||
"""
|
||||
import copy
|
||||
import os
|
||||
import shutil
|
||||
import subprocess
|
||||
|
||||
import hub.exports.building_energy.idf_helper as idf_cte
|
||||
import hub.helpers.constants as cte
|
||||
from hub.city_model_structure.attributes.schedule import Schedule
|
||||
from hub.exports.building_energy.idf_helper.idf_appliance import IdfAppliance
|
||||
from hub.exports.building_energy.idf_helper.idf_base import IdfBase
|
||||
from hub.exports.building_energy.idf_helper.idf_construction import IdfConstruction
|
||||
from hub.exports.building_energy.idf_helper.idf_dhw import IdfDhw
|
||||
from hub.exports.building_energy.idf_helper.idf_file_schedule import IdfFileSchedule
|
||||
from hub.exports.building_energy.idf_helper.idf_heating_system import IdfHeatingSystem
|
||||
from hub.exports.building_energy.idf_helper.idf_infiltration import IdfInfiltration
|
||||
from hub.exports.building_energy.idf_helper.idf_lighting import IdfLighting
|
||||
from hub.exports.building_energy.idf_helper.idf_material import IdfMaterial
|
||||
from hub.exports.building_energy.idf_helper.idf_occupancy import IdfOccupancy
|
||||
from hub.exports.building_energy.idf_helper.idf_schedule import IdfSchedule
|
||||
from hub.exports.building_energy.idf_helper.idf_shading import IdfShading
|
||||
from hub.exports.building_energy.idf_helper.idf_surfaces import IdfSurfaces
|
||||
from hub.exports.building_energy.idf_helper.idf_thermostat import IdfThermostat
|
||||
from hub.exports.building_energy.idf_helper.idf_ventilation import IdfVentilation
|
||||
from hub.exports.building_energy.idf_helper.idf_window import IdfWindow
|
||||
from hub.exports.building_energy.idf_helper.idf_windows_constructions import IdfWindowsConstructions
|
||||
from hub.exports.building_energy.idf_helper.idf_windows_material import IdfWindowsMaterial
|
||||
from hub.exports.building_energy.idf_helper.idf_zone import IdfZone
|
||||
|
||||
|
||||
class CercIdf(IdfBase):
|
||||
"""
|
||||
Exports city to IDF
|
||||
"""
|
||||
|
||||
_schedules_added_to_idf = {}
|
||||
_materials_added_to_idf = {}
|
||||
_windows_added_to_idf = {}
|
||||
_constructions_added_to_idf = {}
|
||||
_thermostat_added_to_idf = {}
|
||||
|
||||
def __init__(self, city, output_path, idf_file_path, idd_file_path, epw_file_path, target_buildings=None):
|
||||
super().__init__(city, output_path, idf_file_path, idd_file_path, epw_file_path, target_buildings)
|
||||
self._add_surfaces = IdfSurfaces.add
|
||||
self._add_file_schedule = IdfFileSchedule.add
|
||||
self._add_idf_schedule = IdfSchedule.add
|
||||
self._add_construction = IdfConstruction.add
|
||||
self._add_material = IdfMaterial.add
|
||||
self._add_windows_material = IdfWindowsMaterial.add
|
||||
self._add_windows_constructions = IdfWindowsConstructions.add
|
||||
self._add_occupancy = IdfOccupancy.add
|
||||
self._add_lighting = IdfLighting.add
|
||||
self._add_appliance = IdfAppliance.add
|
||||
self._add_infiltration = IdfInfiltration.add
|
||||
self._add_infiltration_surface = IdfInfiltration.add_surface
|
||||
self._add_ventilation = IdfVentilation.add
|
||||
self._add_zone = IdfZone.add
|
||||
self._add_thermostat = IdfThermostat.add
|
||||
self._add_heating_system = IdfHeatingSystem.add
|
||||
self._add_dhw = IdfDhw.add
|
||||
self._add_shading = IdfShading.add
|
||||
self._add_windows = IdfWindow.add
|
||||
|
||||
with open(self._idf_file_path, 'r', encoding='UTF-8') as base_idf:
|
||||
lines = base_idf.readlines()
|
||||
# Change city name
|
||||
comment = f' !- Name'
|
||||
field = f' Buildings in {self._city.name},'.ljust(26, ' ')
|
||||
lines[15] = f'{field}{comment}\n'
|
||||
with open(self._output_file_path, 'w', encoding='UTF-8') as self._idf_file:
|
||||
self._idf_file.writelines(lines)
|
||||
self._export()
|
||||
|
||||
def _create_geometry_rules(self):
|
||||
file = self._files['constructions']
|
||||
self._write_to_idf_format(file, idf_cte.GLOBAL_GEOMETRY_RULES)
|
||||
self._write_to_idf_format(file, 'UpperLeftCorner', 'Starting Vertex Position')
|
||||
self._write_to_idf_format(file, 'CounterClockWise', 'Vertex Entry Direction')
|
||||
self._write_to_idf_format(file, 'World', 'Coordinate System', ';')
|
||||
|
||||
def _merge_files(self):
|
||||
for file in self._files.values():
|
||||
file.close()
|
||||
for path in self._file_paths.values():
|
||||
with open(path, 'r', encoding='UTF-8') as file:
|
||||
lines = file.readlines()
|
||||
self._idf_file.writelines(lines)
|
||||
for path in self._file_paths.values():
|
||||
os.unlink(path)
|
||||
|
||||
def _add_outputs(self):
|
||||
with open(self._outputs_file_path, 'r', encoding='UTF-8') as base_idf:
|
||||
lines = base_idf.readlines()
|
||||
self._idf_file.writelines(lines)
|
||||
|
||||
@staticmethod
|
||||
def _create_infiltration_schedules(thermal_zone):
|
||||
_infiltration_schedules = []
|
||||
if thermal_zone.thermal_control is None:
|
||||
return []
|
||||
for hvac_availability_schedule in thermal_zone.thermal_control.hvac_availability_schedules:
|
||||
_schedule = Schedule()
|
||||
_schedule.type = cte.INFILTRATION
|
||||
_schedule.data_type = cte.FRACTION
|
||||
_schedule.time_step = cte.HOUR
|
||||
_schedule.time_range = cte.DAY
|
||||
_schedule.day_types = copy.deepcopy(hvac_availability_schedule.day_types)
|
||||
_infiltration_values = []
|
||||
for hvac_value in hvac_availability_schedule.values:
|
||||
if hvac_value == 0:
|
||||
_infiltration_values.append(1.0)
|
||||
else:
|
||||
if thermal_zone.infiltration_rate_system_off == 0:
|
||||
_infiltration_values.append(0.0)
|
||||
else:
|
||||
_infiltration_values.append(
|
||||
thermal_zone.infiltration_rate_system_on / thermal_zone.infiltration_rate_system_off)
|
||||
_schedule.values = _infiltration_values
|
||||
_infiltration_schedules.append(_schedule)
|
||||
return _infiltration_schedules
|
||||
|
||||
@staticmethod
|
||||
def _create_ventilation_schedules(thermal_zone):
|
||||
_ventilation_schedules = []
|
||||
if thermal_zone.thermal_control is None:
|
||||
return []
|
||||
for hvac_availability_schedule in thermal_zone.thermal_control.hvac_availability_schedules:
|
||||
_schedule = Schedule()
|
||||
_schedule.type = cte.VENTILATION
|
||||
_schedule.data_type = cte.FRACTION
|
||||
_schedule.time_step = cte.HOUR
|
||||
_schedule.time_range = cte.DAY
|
||||
_schedule.day_types = copy.deepcopy(hvac_availability_schedule.day_types)
|
||||
_ventilation_schedules = thermal_zone.thermal_control.hvac_availability_schedules
|
||||
return _ventilation_schedules
|
||||
|
||||
@staticmethod
|
||||
def _create_constant_value_schedules(value, amount):
|
||||
_schedule = Schedule()
|
||||
_schedule.type = ''
|
||||
_schedule.data_type = cte.ANY_NUMBER
|
||||
_schedule.time_step = cte.HOUR
|
||||
_schedule.time_range = cte.DAY
|
||||
_schedule.day_types = ['monday',
|
||||
'tuesday',
|
||||
'wednesday',
|
||||
'thursday',
|
||||
'friday',
|
||||
'saturday',
|
||||
'sunday',
|
||||
'holiday',
|
||||
'winter_design_day',
|
||||
'summer_design_day']
|
||||
_schedule.values = [value for _ in range(0, amount)]
|
||||
return [_schedule]
|
||||
|
||||
def _export(self):
|
||||
|
||||
for building in self._city.buildings:
|
||||
is_target = building.name in self._target_buildings or building.name in self._adjacent_buildings
|
||||
for internal_zone in building.internal_zones:
|
||||
if internal_zone.thermal_zones_from_internal_zones is None:
|
||||
is_target = False
|
||||
continue
|
||||
for thermal_zone in internal_zone.thermal_zones_from_internal_zones:
|
||||
if is_target:
|
||||
service_temperature = thermal_zone.domestic_hot_water.service_temperature
|
||||
usage = thermal_zone.usage_name
|
||||
occ = thermal_zone.occupancy
|
||||
if occ.occupancy_density == 0:
|
||||
total_heat = 0
|
||||
else:
|
||||
total_heat = (
|
||||
occ.sensible_convective_internal_gain +
|
||||
occ.sensible_radiative_internal_gain +
|
||||
occ.latent_internal_gain
|
||||
) / occ.occupancy_density
|
||||
self._add_idf_schedule(self, usage, 'Infiltration', self._create_infiltration_schedules(thermal_zone))
|
||||
self._add_idf_schedule(self, usage, 'Ventilation', self._create_ventilation_schedules(thermal_zone))
|
||||
self._add_idf_schedule(self, usage, 'Occupancy', thermal_zone.occupancy.occupancy_schedules)
|
||||
self._add_idf_schedule(self, usage, 'HVAC AVAIL', thermal_zone.thermal_control.hvac_availability_schedules)
|
||||
self._add_idf_schedule(self, usage, 'Heating thermostat',
|
||||
thermal_zone.thermal_control.heating_set_point_schedules)
|
||||
self._add_idf_schedule(self, usage, 'Cooling thermostat',
|
||||
thermal_zone.thermal_control.cooling_set_point_schedules)
|
||||
self._add_idf_schedule(self, usage, 'Lighting', thermal_zone.lighting.schedules)
|
||||
self._add_idf_schedule(self, usage, 'Appliance', thermal_zone.appliances.schedules)
|
||||
self._add_idf_schedule(self, usage, 'DHW_prof', thermal_zone.domestic_hot_water.schedules)
|
||||
self._add_idf_schedule(self, usage, 'DHW_temp',
|
||||
self._create_constant_value_schedules(service_temperature, 24))
|
||||
self._add_idf_schedule(self, usage, 'Activity Level', self._create_constant_value_schedules(total_heat, 24))
|
||||
self._add_file_schedule(self, usage, 'cold_temp',
|
||||
self._create_constant_value_schedules(building.cold_water_temperature[cte.HOUR],
|
||||
24))
|
||||
for thermal_boundary in thermal_zone.thermal_boundaries:
|
||||
self._add_material(self, thermal_boundary)
|
||||
self._add_construction(self, thermal_boundary)
|
||||
for thermal_opening in thermal_boundary.thermal_openings:
|
||||
self._add_windows_material(self, thermal_boundary, thermal_opening)
|
||||
self._add_windows_constructions(self, thermal_boundary)
|
||||
self._add_zone(self, thermal_zone, building.name)
|
||||
self._add_occupancy(self, thermal_zone, building.name)
|
||||
self._add_lighting(self, thermal_zone, building.name)
|
||||
self._add_appliance(self, thermal_zone, building.name)
|
||||
if self._calculate_with_new_infiltration: # ToDo: Check with oriol if we want to keep the old method too
|
||||
self._add_infiltration_surface(self, thermal_zone, building.name)
|
||||
else:
|
||||
self._add_infiltration(self, thermal_zone, building.name)
|
||||
self._add_ventilation(self, thermal_zone, building.name)
|
||||
self._add_thermostat(self, thermal_zone)
|
||||
self._add_heating_system(self, thermal_zone, building.name)
|
||||
self._add_dhw(self, thermal_zone, building.name)
|
||||
if is_target:
|
||||
self._add_surfaces(self, building, building.name)
|
||||
self._add_windows(self, building)
|
||||
else:
|
||||
self._add_shading(self, building)
|
||||
|
||||
self._create_output_control_lighting() # Add lighting control to the lighting
|
||||
|
||||
# Create base values
|
||||
self._create_geometry_rules()
|
||||
|
||||
# Merge files
|
||||
self._merge_files()
|
||||
self._add_outputs()
|
||||
|
||||
@property
|
||||
def _energy_plus(self):
|
||||
return shutil.which('energyplus')
|
||||
|
||||
def run(self):
|
||||
cmd = [self._energy_plus,
|
||||
'--weather', self._epw_file_path,
|
||||
'--output-directory', self._output_path,
|
||||
'--idd', self._idd_file_path,
|
||||
'--expandobjects',
|
||||
'--readvars',
|
||||
'--output-prefix', f'{self._city.name}_',
|
||||
self._output_file_path]
|
||||
subprocess.run(cmd, cwd=self._output_path)
|
@ -169,7 +169,7 @@ class EnergyAde:
|
||||
def _building_geometry(self, building, building_dic, city):
|
||||
|
||||
building_dic['bldg:Building']['bldg:function'] = building.function
|
||||
building_dic['bldg:Building']['bldg:usage'] = building.usages_percentage
|
||||
building_dic['bldg:Building']['bldg:usage'] = building.usages
|
||||
building_dic['bldg:Building']['bldg:yearOfConstruction'] = building.year_of_construction
|
||||
building_dic['bldg:Building']['bldg:roofType'] = building.roof_type
|
||||
building_dic['bldg:Building']['bldg:measuredHeight'] = {
|
||||
|
@ -8,10 +8,12 @@ Code contributors: Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concord
|
||||
"""
|
||||
import copy
|
||||
import datetime
|
||||
import glob
|
||||
import os
|
||||
import shutil
|
||||
import subprocess
|
||||
from pathlib import Path
|
||||
|
||||
from geomeppy import IDF
|
||||
|
||||
import hub.helpers.constants as cte
|
||||
from hub.city_model_structure.attributes.schedule import Schedule
|
||||
from hub.city_model_structure.building_demand.thermal_zone import ThermalZone
|
||||
@ -107,6 +109,7 @@ class Idf:
|
||||
else:
|
||||
for building_name in target_buildings:
|
||||
building = city.city_object(building_name)
|
||||
print('Name: ', building_name)
|
||||
if building.neighbours is not None:
|
||||
self._adjacent_buildings += building.neighbours
|
||||
self._export()
|
||||
@ -331,6 +334,7 @@ class Idf:
|
||||
for material in self._idf.idfobjects[self._MATERIAL]:
|
||||
if material.Name == "DefaultMaterial":
|
||||
return
|
||||
|
||||
self._idf.set_default_constructions()
|
||||
return
|
||||
for layer in thermal_boundary.layers:
|
||||
@ -392,9 +396,9 @@ class Idf:
|
||||
thermostat = self._add_thermostat(thermal_zone)
|
||||
self._idf.newidfobject(self._IDEAL_LOAD_AIR_SYSTEM,
|
||||
Zone_Name=zone_name,
|
||||
System_Availability_Schedule_Name=f'HVAC AVAIL SCHEDULES {thermal_zone.usage_name}',
|
||||
Heating_Availability_Schedule_Name=f'HVAC AVAIL SCHEDULES {thermal_zone.usage_name}',
|
||||
Cooling_Availability_Schedule_Name=f'HVAC AVAIL SCHEDULES {thermal_zone.usage_name}',
|
||||
System_Availability_Schedule_Name=f'Thermostat_availability schedules {thermal_zone.usage_name}',
|
||||
Heating_Availability_Schedule_Name=f'Thermostat_availability schedules {thermal_zone.usage_name}',
|
||||
Cooling_Availability_Schedule_Name=f'Thermostat_availability schedules {thermal_zone.usage_name}',
|
||||
Template_Thermostat_Name=thermostat.Name)
|
||||
|
||||
def _add_occupancy(self, thermal_zone, zone_name):
|
||||
@ -443,7 +447,7 @@ class Idf:
|
||||
subcategory = f'ELECTRIC EQUIPMENT#{zone_name}#InteriorEquipment'
|
||||
self._idf.newidfobject(self._APPLIANCES,
|
||||
Fuel_Type=fuel_type,
|
||||
Name=f'{zone_name}_appliance',
|
||||
Name=zone_name,
|
||||
Zone_or_ZoneList_or_Space_or_SpaceList_Name=zone_name,
|
||||
Schedule_Name=f'Appliance schedules {thermal_zone.usage_name}',
|
||||
Design_Level_Calculation_Method=method,
|
||||
@ -454,7 +458,7 @@ class Idf:
|
||||
)
|
||||
|
||||
def _add_infiltration(self, thermal_zone, zone_name):
|
||||
schedule = f'Infiltration schedules {thermal_zone.usage_name}'
|
||||
schedule = f'INF_CONST schedules {thermal_zone.usage_name}'
|
||||
_infiltration = thermal_zone.infiltration_rate_system_off * cte.HOUR_TO_SECONDS
|
||||
self._idf.newidfobject(self._INFILTRATION,
|
||||
Name=f'{zone_name}_infiltration',
|
||||
@ -464,6 +468,17 @@ class Idf:
|
||||
Air_Changes_per_Hour=_infiltration
|
||||
)
|
||||
|
||||
def _add_infiltration_surface(self, thermal_zone, zone_name):
|
||||
schedule = f'INF_CONST schedules {thermal_zone.usage_name}'
|
||||
_infiltration = thermal_zone.infiltration_rate_area_system_off* cte.INFILTRATION_75PA_TO_4PA
|
||||
self._idf.newidfobject(self._INFILTRATION,
|
||||
Name=f'{zone_name}_infiltration',
|
||||
Zone_or_ZoneList_or_Space_or_SpaceList_Name=zone_name,
|
||||
Schedule_Name=schedule,
|
||||
Design_Flow_Rate_Calculation_Method='Flow/ExteriorWallArea',
|
||||
Flow_Rate_per_Exterior_Surface_Area=_infiltration
|
||||
)
|
||||
|
||||
def _add_ventilation(self, thermal_zone, zone_name):
|
||||
schedule = f'Ventilation schedules {thermal_zone.usage_name}'
|
||||
_air_change = thermal_zone.mechanical_air_change * cte.HOUR_TO_SECONDS
|
||||
@ -489,7 +504,7 @@ class Idf:
|
||||
)
|
||||
|
||||
def _rename_building(self, city_name):
|
||||
name = str(str(city_name.encode("utf-8")))
|
||||
name = str(city_name.encode("utf-8"))
|
||||
for building in self._idf.idfobjects[self._BUILDING]:
|
||||
building.Name = f'Buildings in {name}'
|
||||
building['Solar_Distribution'] = 'FullExterior'
|
||||
@ -516,11 +531,12 @@ class Idf:
|
||||
self._remove_sizing_periods()
|
||||
self._rename_building(self._city.name)
|
||||
self._lod = self._city.level_of_detail.geometry
|
||||
is_target = False
|
||||
for building in self._city.buildings:
|
||||
is_target = building.name in self._target_buildings or building.name in self._adjacent_buildings
|
||||
for internal_zone in building.internal_zones:
|
||||
if internal_zone.thermal_zones_from_internal_zones is None:
|
||||
self._target_buildings.remoidf_surface_typeve(building.name)
|
||||
self._target_buildings.remove(building.name)
|
||||
is_target = False
|
||||
continue
|
||||
for thermal_zone in internal_zone.thermal_zones_from_internal_zones:
|
||||
@ -549,9 +565,12 @@ class Idf:
|
||||
self._add_schedules(usage, 'DHW_prof', thermal_zone.domestic_hot_water.schedules)
|
||||
_new_schedules = self._create_yearly_values_schedules('cold_temp', building.cold_water_temperature[cte.HOUR])
|
||||
self._add_schedules(usage, 'cold_temp', _new_schedules)
|
||||
|
||||
_new_schedules = self._create_constant_value_schedules('DHW_temp', service_temperature)
|
||||
self._add_schedules(usage, 'DHW_temp', _new_schedules)
|
||||
_new_schedules = self._create_constant_value_schedules('INF_CONST', 1)
|
||||
self._add_schedules(usage, 'INF_CONST', _new_schedules)
|
||||
_new_schedules = self._create_constant_value_schedules('Thermostat_availability', 1)
|
||||
self._add_schedules(usage, 'Thermostat_availability', _new_schedules)
|
||||
_occ = thermal_zone.occupancy
|
||||
if _occ.occupancy_density == 0:
|
||||
_total_heat = 0
|
||||
@ -562,7 +581,7 @@ class Idf:
|
||||
self._add_schedules(usage, 'Activity Level', _new_schedules)
|
||||
self._add_zone(thermal_zone, building.name)
|
||||
self._add_heating_system(thermal_zone, building.name)
|
||||
self._add_infiltration(thermal_zone, building.name)
|
||||
self._add_infiltration_surface(thermal_zone, building.name)
|
||||
self._add_ventilation(thermal_zone, building.name)
|
||||
self._add_occupancy(thermal_zone, building.name)
|
||||
self._add_lighting(thermal_zone, building.name)
|
||||
@ -571,9 +590,7 @@ class Idf:
|
||||
if self._export_type == "Surfaces":
|
||||
if is_target:
|
||||
if building.thermal_zones_from_internal_zones is not None:
|
||||
start = datetime.datetime.now()
|
||||
self._add_surfaces(building, building.name)
|
||||
print(f'add surfaces {datetime.datetime.now() - start}')
|
||||
else:
|
||||
self._add_pure_geometry(building, building.name)
|
||||
else:
|
||||
@ -611,6 +628,18 @@ class Idf:
|
||||
Reporting_Frequency="Hourly",
|
||||
)
|
||||
|
||||
self._idf.newidfobject(
|
||||
"OUTPUT:VARIABLE",
|
||||
Variable_Name="Zone Air Temperature",
|
||||
Reporting_Frequency="Hourly",
|
||||
)
|
||||
|
||||
self._idf.newidfobject(
|
||||
"OUTPUT:VARIABLE",
|
||||
Variable_Name="Zone Air Relative Humidity",
|
||||
Reporting_Frequency="Hourly",
|
||||
)
|
||||
|
||||
# post-process to erase windows associated to adiabatic walls
|
||||
windows_list = []
|
||||
for window in self._idf.idfobjects[self._WINDOW]:
|
||||
@ -624,14 +653,26 @@ class Idf:
|
||||
self._idf.removeidfobject(window)
|
||||
|
||||
self._idf.saveas(str(self._output_file))
|
||||
for building in self._city.buildings:
|
||||
if self._export_type == "Surfaces":
|
||||
if is_target and building.thermal_zones_from_internal_zones is not None:
|
||||
self._add_surfaces(building, building.name)
|
||||
return self._idf
|
||||
|
||||
@property
|
||||
def _energy_plus(self):
|
||||
return shutil.which('energyplus')
|
||||
|
||||
def run(self):
|
||||
"""
|
||||
Start the energy plus simulation
|
||||
"""
|
||||
self._idf.run(expandobjects=False, readvars=True, output_directory=self._output_path,
|
||||
output_prefix=f'{self._city.name}_')
|
||||
cmd = [self._energy_plus,
|
||||
'--weather', self._epw_file_path,
|
||||
'--output-directory', self._output_path,
|
||||
'--idd', self._idd_file_path,
|
||||
'--expandobjects',
|
||||
'--readvars',
|
||||
'--output-prefix', f'{self._city.name}_',
|
||||
self._idf_file_path]
|
||||
subprocess.run(cmd, cwd=self._output_path)
|
||||
|
||||
def _add_block(self, building):
|
||||
_points = self._matrix_to_2d_list(building.foot_print.coordinates)
|
||||
@ -700,7 +741,10 @@ class Idf:
|
||||
else:
|
||||
# idf only allows setting wwr for external walls
|
||||
wwr = 0
|
||||
self._idf.set_wwr(wwr)
|
||||
try:
|
||||
self._idf.set_wwr(wwr, construction='window_construction_1')
|
||||
except ValueError:
|
||||
self._idf.set_wwr(0, construction='window_construction_1')
|
||||
|
||||
def _add_surfaces(self, building, zone_name):
|
||||
for thermal_zone in building.thermal_zones_from_internal_zones:
|
||||
@ -731,13 +775,11 @@ class Idf:
|
||||
else:
|
||||
construction_name = f'{boundary.construction_name} {boundary.parent_surface.type}'
|
||||
_kwargs['Construction_Name'] = construction_name
|
||||
|
||||
start = datetime.datetime.now()
|
||||
surface = self._idf.newidfobject(self._SURFACE, **_kwargs)
|
||||
|
||||
coordinates = self._matrix_to_list(boundary.parent_surface.solid_polygon.coordinates,
|
||||
self._city.lower_corner)
|
||||
surface.setcoords(coordinates)
|
||||
|
||||
if self._lod >= 3:
|
||||
for internal_zone in building.internal_zones:
|
||||
for thermal_zone in internal_zone.thermal_zones_from_internal_zones:
|
||||
@ -749,7 +791,10 @@ class Idf:
|
||||
for surface in building.surfaces:
|
||||
if surface.type == cte.WALL:
|
||||
wwr = surface.associated_thermal_boundaries[0].window_ratio
|
||||
try:
|
||||
self._idf.set_wwr(wwr, construction='window_construction_1')
|
||||
except ValueError:
|
||||
self._idf.set_wwr(0, construction='window_construction_1')
|
||||
|
||||
def _add_windows_by_vertices(self, boundary):
|
||||
raise NotImplementedError
|
||||
|
62
hub/exports/building_energy/idf_files/base.idf
Normal file
62
hub/exports/building_energy/idf_files/base.idf
Normal file
@ -0,0 +1,62 @@
|
||||
!- Linux Line endings
|
||||
|
||||
Version,
|
||||
24.1; !- Version Identifier
|
||||
|
||||
SimulationControl,
|
||||
No, !- Do Zone Sizing Calculation
|
||||
No, !- Do System Sizing Calculation
|
||||
No, !- Do Plant Sizing Calculation
|
||||
No, !- Run Simulation for Sizing Periods
|
||||
Yes, !- Run Simulation for Weather File Run Periods
|
||||
No, !- Do HVAC Sizing Simulation for Sizing Periods
|
||||
1; !- Maximum Number of HVAC Sizing Simulation Passes
|
||||
|
||||
Building,
|
||||
Buildings in #CITY#, !- Name
|
||||
0, !- North Axis
|
||||
Suburbs, !- Terrain
|
||||
0.04, !- Loads Convergence Tolerance Value
|
||||
0.4, !- Temperature Convergence Tolerance Value
|
||||
FullExterior, !- Solar Distribution
|
||||
25, !- Maximum Number of Warmup Days
|
||||
6; !- Minimum Number of Warmup Days
|
||||
|
||||
Timestep,
|
||||
4; !- Number of Timesteps per Hour
|
||||
|
||||
RunPeriod,
|
||||
Run Period 1, !- Name
|
||||
1, !- Begin Month
|
||||
1, !- Begin Day of Month
|
||||
, !- Begin Year
|
||||
12, !- End Month
|
||||
31, !- End Day of Month
|
||||
, !- End Year
|
||||
Tuesday, !- Day of Week for Start Day
|
||||
Yes, !- Use Weather File Holidays and Special Days
|
||||
Yes, !- Use Weather File Daylight Saving Period
|
||||
No, !- Apply Weekend Holiday Rule
|
||||
Yes, !- Use Weather File Rain Indicators
|
||||
Yes; !- Use Weather File Snow Indicators
|
||||
|
||||
SCHEDULETYPELIMITS,
|
||||
Any Number, !- Name
|
||||
, !- Lower Limit Value
|
||||
, !- Upper Limit Value
|
||||
, !- Numeric Type
|
||||
Dimensionless; !- Unit Type
|
||||
|
||||
SCHEDULETYPELIMITS,
|
||||
Fraction, !- Name
|
||||
0, !- Lower Limit Value
|
||||
1, !- Upper Limit Value
|
||||
Continuous, !- Numeric Type
|
||||
Dimensionless; !- Unit Type
|
||||
|
||||
SCHEDULETYPELIMITS,
|
||||
On/Off, !- Name
|
||||
0, !- Lower Limit Value
|
||||
1, !- Upper Limit Value
|
||||
Discrete, !- Numeric Type
|
||||
Dimensionless; !- Unit Type
|
74
hub/exports/building_energy/idf_files/outputs.idf
Normal file
74
hub/exports/building_energy/idf_files/outputs.idf
Normal file
@ -0,0 +1,74 @@
|
||||
|
||||
Output:Table:SummaryReports,
|
||||
AnnualBuildingUtilityPerformanceSummary, !- Report 1 Name
|
||||
DemandEndUseComponentsSummary, !- Report 2 Name
|
||||
SensibleHeatGainSummary, !- Report 3 Name
|
||||
InputVerificationandResultsSummary, !- Report 4 Name
|
||||
AdaptiveComfortSummary, !- Report 5 Name
|
||||
Standard62.1Summary, !- Report 6 Name
|
||||
ClimaticDataSummary, !- Report 7 Name
|
||||
EquipmentSummary, !- Report 8 Name
|
||||
EnvelopeSummary, !- Report 9 Name
|
||||
LightingSummary, !- Report 10 Name
|
||||
HVACSizingSummary, !- Report 11 Name
|
||||
SystemSummary, !- Report 12 Name
|
||||
ComponentSizingSummary, !- Report 13 Name
|
||||
OutdoorAirSummary, !- Report 14 Name
|
||||
ObjectCountSummary, !- Report 15 Name
|
||||
EndUseEnergyConsumptionOtherFuelsMonthly, !- Report 16 Name
|
||||
PeakEnergyEndUseOtherFuelsMonthly; !- Report 17 Name
|
||||
|
||||
OutputControl:Table:Style,
|
||||
CommaAndHTML, !- Column Separator
|
||||
JtoKWH; !- Unit Conversion
|
||||
|
||||
OUTPUT:VARIABLE,
|
||||
*, !- Key Value
|
||||
Zone Ideal Loads Supply Air Total Heating Energy, !- Variable Name
|
||||
Hourly; !- Reporting Frequency
|
||||
|
||||
OUTPUT:VARIABLE,
|
||||
*, !- Key Value
|
||||
Zone Ideal Loads Supply Air Total Cooling Energy, !- Variable Name
|
||||
Hourly; !- Reporting Frequency
|
||||
|
||||
OUTPUT:VARIABLE,
|
||||
*, !- Key Value
|
||||
Water Use Equipment Heating Rate, !- Variable Name
|
||||
Hourly; !- Reporting Frequency
|
||||
|
||||
OUTPUT:VARIABLE,
|
||||
*, !- Key Value
|
||||
Zone Lights Electricity Rate, !- Variable Name
|
||||
Hourly; !- Reporting Frequency
|
||||
|
||||
OUTPUT:VARIABLE,
|
||||
*, !- Key Value
|
||||
Other Equipment Electricity Rate, !- Variable Name
|
||||
Hourly; !- Reporting Frequency
|
||||
|
||||
OUTPUT:VARIABLE,
|
||||
*, !- Key Value
|
||||
Zone Air Temperature, !- Variable Name
|
||||
Hourly; !- Reporting Frequency
|
||||
|
||||
OUTPUT:VARIABLE,
|
||||
*, !- Key Value
|
||||
Zone Air Relative Humidity, !- Variable Name
|
||||
Hourly; !- Reporting Frequency
|
||||
|
||||
Output:Meter,
|
||||
DISTRICTHEATING:Facility, !- Key Name
|
||||
hourly; !- Reporting Frequency
|
||||
|
||||
Output:Meter,
|
||||
DISTRICTCOOLING:Facility, !- Key Name
|
||||
hourly; !- Reporting Frequency
|
||||
|
||||
Output:Meter,
|
||||
InteriorEquipment:Electricity, !- Key Name
|
||||
hourly; !- Reporting Frequency
|
||||
|
||||
Output:Meter,
|
||||
InteriorLights:Electricity, !- Key Name
|
||||
hourly; !- Reporting Frequency
|
60
hub/exports/building_energy/idf_helper/__init__.py
Normal file
60
hub/exports/building_energy/idf_helper/__init__.py
Normal file
@ -0,0 +1,60 @@
|
||||
import hub.helpers.constants as cte
|
||||
|
||||
BUILDING_SURFACE = '\nBUILDINGSURFACE:DETAILED,\n'
|
||||
WINDOW_SURFACE = '\nFENESTRATIONSURFACE:DETAILED,\n'
|
||||
COMPACT_SCHEDULE = '\nSCHEDULE:COMPACT,\n'
|
||||
FILE_SCHEDULE = '\nSCHEDULE:FILE,\n'
|
||||
NOMASS_MATERIAL = '\nMATERIAL:NOMASS,\n'
|
||||
SOLID_MATERIAL = '\nMATERIAL,\n'
|
||||
WINDOW_MATERIAL = '\nWINDOWMATERIAL:SIMPLEGLAZINGSYSTEM,\n'
|
||||
CONSTRUCTION = '\nCONSTRUCTION,\n'
|
||||
ZONE = '\nZONE,\n'
|
||||
GLOBAL_GEOMETRY_RULES = '\nGlobalGeometryRules,\n'
|
||||
PEOPLE = '\nPEOPLE,\n'
|
||||
LIGHTS = '\nLIGHTS,\n'
|
||||
APPLIANCES = '\nOTHEREQUIPMENT,\n'
|
||||
OUTPUT_CONTROL = '\nOutputControl:IlluminanceMap:Style,\n'
|
||||
INFILTRATION = '\nZONEINFILTRATION:DESIGNFLOWRATE,\n'
|
||||
VENTILATION = '\nZONEVENTILATION:DESIGNFLOWRATE,\n'
|
||||
THERMOSTAT = '\nHVACTEMPLATE:THERMOSTAT,\n'
|
||||
IDEAL_LOAD_SYSTEM = '\nHVACTEMPLATE:ZONE:IDEALLOADSAIRSYSTEM,\n'
|
||||
DHW = '\nWATERUSE:EQUIPMENT,\n'
|
||||
SHADING = '\nSHADING:BUILDING:DETAILED,\n'
|
||||
|
||||
AUTOCALCULATE = 'autocalculate'
|
||||
ROUGHNESS = 'MediumRough'
|
||||
OUTDOORS = 'Outdoors'
|
||||
GROUND = 'Ground'
|
||||
SURFACE = 'Surface'
|
||||
SUN_EXPOSED = 'SunExposed'
|
||||
WIND_EXPOSED = 'WindExposed'
|
||||
NON_SUN_EXPOSED = 'NoSun'
|
||||
NON_WIND_EXPOSED = 'NoWind'
|
||||
EMPTY = ''
|
||||
|
||||
idf_surfaces_dictionary = {
|
||||
cte.WALL: 'wall',
|
||||
cte.GROUND: 'floor',
|
||||
cte.ROOF: 'roof'
|
||||
}
|
||||
|
||||
idf_type_limits = {
|
||||
cte.ON_OFF: 'on/off',
|
||||
cte.FRACTION: 'Fraction',
|
||||
cte.ANY_NUMBER: 'Any Number',
|
||||
cte.CONTINUOUS: 'Continuous',
|
||||
cte.DISCRETE: 'Discrete'
|
||||
}
|
||||
|
||||
idf_day_types = {
|
||||
cte.MONDAY: 'Monday',
|
||||
cte.TUESDAY: 'Tuesday',
|
||||
cte.WEDNESDAY: 'Wednesday',
|
||||
cte.THURSDAY: 'Thursday',
|
||||
cte.FRIDAY: 'Friday',
|
||||
cte.SATURDAY: 'Saturday',
|
||||
cte.SUNDAY: 'Sunday',
|
||||
cte.HOLIDAY: 'Holidays',
|
||||
cte.WINTER_DESIGN_DAY: 'WinterDesignDay',
|
||||
cte.SUMMER_DESIGN_DAY: 'SummerDesignDay'
|
||||
}
|
26
hub/exports/building_energy/idf_helper/idf_appliance.py
Normal file
26
hub/exports/building_energy/idf_helper/idf_appliance.py
Normal file
@ -0,0 +1,26 @@
|
||||
import hub.exports.building_energy.idf_helper as idf_cte
|
||||
from hub.exports.building_energy.idf_helper.idf_base import IdfBase
|
||||
|
||||
|
||||
class IdfAppliance(IdfBase):
|
||||
@staticmethod
|
||||
def add(self, thermal_zone, zone_name):
|
||||
schedule_name = f'Appliance schedules {thermal_zone.usage_name}'
|
||||
storeys_number = int(thermal_zone.total_floor_area / thermal_zone.footprint_area)
|
||||
watts_per_zone_floor_area = thermal_zone.appliances.density * storeys_number
|
||||
subcategory = f'ELECTRIC EQUIPMENT#{zone_name}#InteriorEquipment'
|
||||
file = self._files['appliances']
|
||||
self._write_to_idf_format(file, idf_cte.APPLIANCES)
|
||||
self._write_to_idf_format(file, zone_name, 'Name')
|
||||
self._write_to_idf_format(file, 'Electricity', 'Fuel Type')
|
||||
self._write_to_idf_format(file, zone_name, 'Zone or ZoneList or Space or SpaceList Name')
|
||||
self._write_to_idf_format(file, schedule_name, 'Schedule Name')
|
||||
self._write_to_idf_format(file, 'Watts/Area', 'Design Level Calculation Method')
|
||||
self._write_to_idf_format(file, idf_cte.EMPTY, 'Design Level')
|
||||
self._write_to_idf_format(file, watts_per_zone_floor_area, 'Power per Zone Floor Area')
|
||||
self._write_to_idf_format(file, idf_cte.EMPTY, 'Power per Person')
|
||||
self._write_to_idf_format(file, thermal_zone.appliances.latent_fraction, 'Fraction Latent')
|
||||
self._write_to_idf_format(file, thermal_zone.appliances.radiative_fraction, 'Fraction Radiant')
|
||||
self._write_to_idf_format(file, 0, 'Fraction Lost')
|
||||
self._write_to_idf_format(file, 0, 'Carbon Dioxide Generation Rate')
|
||||
self._write_to_idf_format(file, subcategory, 'EndUse Subcategory', ';')
|
78
hub/exports/building_energy/idf_helper/idf_base.py
Normal file
78
hub/exports/building_energy/idf_helper/idf_base.py
Normal file
@ -0,0 +1,78 @@
|
||||
import os
|
||||
from pathlib import Path
|
||||
|
||||
import hub.exports.building_energy.idf_helper as idf_cte
|
||||
|
||||
|
||||
class IdfBase:
|
||||
def __init__(self, city, output_path, idf_file_path, idd_file_path, epw_file_path, target_buildings=None,
|
||||
_calculate_with_new_infiltration=True):
|
||||
self._city = city
|
||||
self._output_path = str(output_path.resolve())
|
||||
self._output_file_path = str((output_path / f'{city.name}.idf').resolve())
|
||||
|
||||
self._file_paths = {
|
||||
'schedules': str((output_path / 'schedules.idf').resolve()),
|
||||
'file_schedules': str((output_path / 'file_schedules.idf').resolve()),
|
||||
'solid_materials': str((output_path / 'solid_materials.idf').resolve()),
|
||||
'nomass_materials': str((output_path / 'nomass_materials.idf').resolve()),
|
||||
'window_materials': str((output_path / 'window_materials.idf').resolve()),
|
||||
'constructions': str((output_path / 'constructions.idf').resolve()),
|
||||
'zones': str((output_path / 'zones.idf').resolve()),
|
||||
'surfaces': str((output_path / 'surfaces.idf').resolve()),
|
||||
'fenestration': str((output_path / 'fenestration.idf').resolve()),
|
||||
'occupancy': str((output_path / 'occupancy.idf').resolve()),
|
||||
'lighting': str((output_path / 'lights.idf').resolve()),
|
||||
'appliances': str((output_path / 'appliances.idf').resolve()),
|
||||
'shading': str((output_path / 'shading.idf').resolve()),
|
||||
'infiltration': str((output_path / 'infiltration.idf').resolve()),
|
||||
'ventilation': str((output_path / 'ventilation.idf').resolve()),
|
||||
'thermostat': str((output_path / 'thermostat.idf').resolve()),
|
||||
'ideal_load_system': str((output_path / 'ideal_load_system.idf').resolve()),
|
||||
'dhw': str((output_path / 'dhw.idf').resolve()),
|
||||
}
|
||||
self._files = {}
|
||||
for key, value in self._file_paths.items():
|
||||
self._files[key] = open(value, 'w', encoding='UTF-8')
|
||||
|
||||
self._idd_file_path = str(idd_file_path)
|
||||
self._idf_file_path = str(idf_file_path)
|
||||
self._outputs_file_path = str(Path(idf_file_path).parent / 'outputs.idf')
|
||||
self._epw_file_path = str(epw_file_path)
|
||||
|
||||
self._target_buildings = target_buildings
|
||||
self._adjacent_buildings = []
|
||||
|
||||
if target_buildings is None:
|
||||
self._target_buildings = [building.name for building in self._city.buildings]
|
||||
else:
|
||||
for building_name in target_buildings:
|
||||
building = city.city_object(building_name)
|
||||
if building.neighbours is not None:
|
||||
self._adjacent_buildings += building.neighbours
|
||||
self._calculate_with_new_infiltration = _calculate_with_new_infiltration
|
||||
|
||||
def _create_output_control_lighting(self):
|
||||
file = self._files['appliances']
|
||||
self._write_to_idf_format(file, idf_cte.OUTPUT_CONTROL)
|
||||
self._write_to_idf_format(file, 'Comma', 'Column Separator', ';')
|
||||
|
||||
@staticmethod
|
||||
def _write_to_idf_format(file, field, comment='', eol=','):
|
||||
if comment != '':
|
||||
comment = f' !- {comment}'
|
||||
field = f' {field}{eol}'.ljust(26, ' ')
|
||||
file.write(f'{field}{comment}\n')
|
||||
else:
|
||||
file.write(f'{field}{comment}')
|
||||
|
||||
@staticmethod
|
||||
def _matrix_to_list(points, lower_corner):
|
||||
lower_x = lower_corner[0]
|
||||
lower_y = lower_corner[1]
|
||||
lower_z = lower_corner[2]
|
||||
points_list = []
|
||||
for point in points:
|
||||
point_tuple = (point[0] - lower_x, point[1] - lower_y, point[2] - lower_z)
|
||||
points_list.append(point_tuple)
|
||||
return points_list
|
56
hub/exports/building_energy/idf_helper/idf_construction.py
Normal file
56
hub/exports/building_energy/idf_helper/idf_construction.py
Normal file
@ -0,0 +1,56 @@
|
||||
import hub.exports.building_energy.idf_helper as idf_cte
|
||||
from hub.city_model_structure.building_demand.layer import Layer
|
||||
from hub.exports.building_energy.idf_helper.idf_base import IdfBase
|
||||
|
||||
|
||||
class IdfConstruction(IdfBase):
|
||||
|
||||
@staticmethod
|
||||
def _add_solid_material(self, layer):
|
||||
file = self._files['solid_materials']
|
||||
self._write_to_idf_format(file, idf_cte.SOLID_MATERIAL)
|
||||
self._write_to_idf_format(file, layer.material_name, 'Name')
|
||||
self._write_to_idf_format(file, idf_cte.ROUGHNESS, 'Roughness')
|
||||
self._write_to_idf_format(file, layer.thickness, 'Thickness')
|
||||
self._write_to_idf_format(file, layer.conductivity, 'Conductivity')
|
||||
self._write_to_idf_format(file, layer.density, 'Density')
|
||||
self._write_to_idf_format(file, layer.specific_heat, 'Specific Heat')
|
||||
self._write_to_idf_format(file, layer.thermal_absorptance, 'Thermal Absorptance')
|
||||
self._write_to_idf_format(file, layer.solar_absorptance, 'Solar Absorptance')
|
||||
self._write_to_idf_format(file, layer.visible_absorptance, 'Visible Absorptance', ';')
|
||||
|
||||
@staticmethod
|
||||
def _add_default_material(self):
|
||||
layer = Layer()
|
||||
layer.material_name = 'DefaultMaterial'
|
||||
layer.thickness = 0.1
|
||||
layer.conductivity = 0.1
|
||||
layer.density = 1000
|
||||
layer.specific_heat = 1000
|
||||
layer.thermal_absorptance = 0.9
|
||||
layer.solar_absorptance = 0.9
|
||||
layer.visible_absorptance = 0.7
|
||||
IdfConstruction._add_solid_material(self, layer)
|
||||
return layer
|
||||
|
||||
@staticmethod
|
||||
def add(self, thermal_boundary):
|
||||
if thermal_boundary.layers is None:
|
||||
thermal_boundary.layers = [IdfConstruction._add_default_material(self)]
|
||||
name = f'{thermal_boundary.construction_name} {thermal_boundary.parent_surface.type}'
|
||||
|
||||
if name not in self._constructions_added_to_idf:
|
||||
self._constructions_added_to_idf[name] = True
|
||||
file = self._files['constructions']
|
||||
self._write_to_idf_format(file, idf_cte.CONSTRUCTION)
|
||||
self._write_to_idf_format(file, name, 'Name')
|
||||
eol = ','
|
||||
if len(thermal_boundary.layers) == 1:
|
||||
eol = ';'
|
||||
self._write_to_idf_format(file, thermal_boundary.layers[0].material_name, 'Outside Layer', eol)
|
||||
for i in range(1, len(thermal_boundary.layers) - 1):
|
||||
comment = f'Layer {i + 1}'
|
||||
material_name = thermal_boundary.layers[i].material_name
|
||||
if i == len(thermal_boundary.layers) - 2:
|
||||
eol = ';'
|
||||
self._write_to_idf_format(file, material_name, comment, eol)
|
21
hub/exports/building_energy/idf_helper/idf_dhw.py
Normal file
21
hub/exports/building_energy/idf_helper/idf_dhw.py
Normal file
@ -0,0 +1,21 @@
|
||||
import hub.exports.building_energy.idf_helper as idf_cte
|
||||
from hub.exports.building_energy.idf_helper.idf_base import IdfBase
|
||||
|
||||
|
||||
class IdfDhw(IdfBase):
|
||||
@staticmethod
|
||||
def add(self, thermal_zone, zone_name):
|
||||
peak_flow_rate = thermal_zone.domestic_hot_water.peak_flow * thermal_zone.total_floor_area
|
||||
flow_rate_schedule = f'DHW_prof schedules {thermal_zone.usage_name}'
|
||||
dhw_schedule = f'DHW_temp schedules {thermal_zone.usage_name}'
|
||||
cold_temp_schedule = f'cold_temp schedules {thermal_zone.usage_name}'
|
||||
file = self._files['dhw']
|
||||
self._write_to_idf_format(file, idf_cte.DHW)
|
||||
self._write_to_idf_format(file, zone_name, 'Name')
|
||||
self._write_to_idf_format(file, zone_name, 'EndUse Subcategory')
|
||||
self._write_to_idf_format(file, peak_flow_rate, 'Peak Flow Rate')
|
||||
self._write_to_idf_format(file, flow_rate_schedule, 'Flow Rate Fraction Schedule Name')
|
||||
self._write_to_idf_format(file, dhw_schedule, 'Target Temperature Schedule Name')
|
||||
self._write_to_idf_format(file, dhw_schedule, 'Hot Water Supply Temperature Schedule Name')
|
||||
self._write_to_idf_format(file, cold_temp_schedule, 'Cold Water Supply Temperature Schedule Name')
|
||||
self._write_to_idf_format(file, zone_name, 'Zone Name', ';')
|
30
hub/exports/building_energy/idf_helper/idf_file_schedule.py
Normal file
30
hub/exports/building_energy/idf_helper/idf_file_schedule.py
Normal file
@ -0,0 +1,30 @@
|
||||
from pathlib import Path
|
||||
import hub.helpers.constants as cte
|
||||
import hub.exports.building_energy.idf_helper as idf_cte
|
||||
from hub.exports.building_energy.idf_helper.idf_base import IdfBase
|
||||
|
||||
|
||||
class IdfFileSchedule(IdfBase):
|
||||
@staticmethod
|
||||
def add(self, usage, schedule_type, schedules):
|
||||
schedule_name = f'{schedule_type} schedules {usage}'
|
||||
for schedule in schedules:
|
||||
if schedule_name not in self._schedules_added_to_idf:
|
||||
self._schedules_added_to_idf[schedule_name] = True
|
||||
file_name = str(
|
||||
(Path(self._output_path) / f'{schedule_type} schedules {usage.replace("/", "_")}.csv').resolve())
|
||||
with open(file_name, 'w', encoding='utf8') as file:
|
||||
for value in schedule.values[0]:
|
||||
file.write(f'{value},\n')
|
||||
file = self._files['file_schedules']
|
||||
self._write_to_idf_format(file, idf_cte.FILE_SCHEDULE)
|
||||
self._write_to_idf_format(file, schedule_name, 'Name')
|
||||
self._write_to_idf_format(file, idf_cte.idf_type_limits[schedule.data_type], 'Schedule Type Limits Name')
|
||||
self._write_to_idf_format(file, Path(file_name).name, 'File Name')
|
||||
self._write_to_idf_format(file, 1, 'Column Number')
|
||||
self._write_to_idf_format(file, 0, 'Rows to Skip at Top')
|
||||
self._write_to_idf_format(file, 8760, 'Number of Hours of Data')
|
||||
self._write_to_idf_format(file, 'Comma', 'Column Separator')
|
||||
self._write_to_idf_format(file, 'No', 'Interpolate to Timestep')
|
||||
self._write_to_idf_format(file, '60', 'Minutes per Item')
|
||||
self._write_to_idf_format(file, 'Yes', 'Adjust Schedule for Daylight Savings', ';')
|
41
hub/exports/building_energy/idf_helper/idf_heating_system.py
Normal file
41
hub/exports/building_energy/idf_helper/idf_heating_system.py
Normal file
@ -0,0 +1,41 @@
|
||||
import hub.exports.building_energy.idf_helper as idf_cte
|
||||
from hub.exports.building_energy.idf_helper.idf_base import IdfBase
|
||||
|
||||
|
||||
class IdfHeatingSystem(IdfBase):
|
||||
@staticmethod
|
||||
def add(self, thermal_zone, zone_name):
|
||||
availability_schedule = f'HVAC AVAIL SCHEDULES {thermal_zone.usage_name}'
|
||||
thermostat_name = f'Thermostat {thermal_zone.usage_name}'
|
||||
file = self._files['ideal_load_system']
|
||||
self._write_to_idf_format(file, idf_cte.IDEAL_LOAD_SYSTEM)
|
||||
self._write_to_idf_format(file, zone_name, 'Zone Name')
|
||||
self._write_to_idf_format(file, thermostat_name, 'Template Thermostat Name')
|
||||
self._write_to_idf_format(file, availability_schedule, 'System Availability Schedule Name')
|
||||
self._write_to_idf_format(file, 50, 'Maximum Heating Supply Air Temperature')
|
||||
self._write_to_idf_format(file, 13, 'Minimum Cooling Supply Air Temperature')
|
||||
self._write_to_idf_format(file, 0.0156, 'Maximum Heating Supply Air Humidity Ratio')
|
||||
self._write_to_idf_format(file, 0.0077, 'Minimum Cooling Supply Air Humidity Ratio')
|
||||
self._write_to_idf_format(file, 'NoLimit', 'Heating Limit')
|
||||
self._write_to_idf_format(file, idf_cte.EMPTY, 'Maximum Heating Air Flow Rate')
|
||||
self._write_to_idf_format(file, idf_cte.EMPTY, 'Maximum Sensible Heating Capacity')
|
||||
self._write_to_idf_format(file, 'NoLimit', 'Cooling Limit')
|
||||
self._write_to_idf_format(file, idf_cte.EMPTY, 'Maximum Cooling Air Flow Rate')
|
||||
self._write_to_idf_format(file, idf_cte.EMPTY, 'Maximum Total Cooling Capacity')
|
||||
self._write_to_idf_format(file, availability_schedule, 'Heating Availability Schedule Name')
|
||||
self._write_to_idf_format(file, availability_schedule, 'Cooling Availability Schedule Name')
|
||||
self._write_to_idf_format(file, 'ConstantSensibleHeatRatio', 'Dehumidification Control Type')
|
||||
self._write_to_idf_format(file, 0.7, 'Cooling Sensible Heat Ratio')
|
||||
self._write_to_idf_format(file, 60, 'Dehumidification Setpoint')
|
||||
self._write_to_idf_format(file, 'None', 'Humidification Control Type')
|
||||
self._write_to_idf_format(file, 30, 'Humidification Setpoint')
|
||||
self._write_to_idf_format(file, 'None', 'Outdoor Air Method')
|
||||
self._write_to_idf_format(file, 0.00944, 'Outdoor Air Flow Rate per Person')
|
||||
self._write_to_idf_format(file, 0.0, 'Outdoor Air Flow Rate per Zone Floor Area')
|
||||
self._write_to_idf_format(file, 0, 'Outdoor Air Flow Rate per Zone')
|
||||
self._write_to_idf_format(file, idf_cte.EMPTY, 'Design Specification Outdoor Air Object Name')
|
||||
self._write_to_idf_format(file, 'None', 'Demand Controlled Ventilation Type')
|
||||
self._write_to_idf_format(file, 'NoEconomizer', 'Outdoor Air Economizer Type')
|
||||
self._write_to_idf_format(file, 'None', 'Heat Recovery Type')
|
||||
self._write_to_idf_format(file, 0.70, 'Sensible Heat Recovery Effectiveness')
|
||||
self._write_to_idf_format(file, 0.65, 'Latent Heat Recovery Effectiveness', ';')
|
32
hub/exports/building_energy/idf_helper/idf_infiltration.py
Normal file
32
hub/exports/building_energy/idf_helper/idf_infiltration.py
Normal file
@ -0,0 +1,32 @@
|
||||
import hub.exports.building_energy.idf_helper as idf_cte
|
||||
import hub.helpers.constants as cte
|
||||
from hub.exports.building_energy.idf_helper.idf_base import IdfBase
|
||||
|
||||
|
||||
class IdfInfiltration(IdfBase):
|
||||
@staticmethod
|
||||
def add(self, thermal_zone, zone_name):
|
||||
IdfInfiltration._add_infiltration(self, thermal_zone, zone_name, 'AirChanges/Hour', cte.HOUR_TO_SECONDS)
|
||||
|
||||
@staticmethod
|
||||
def add_surface(self, thermal_zone, zone_name):
|
||||
IdfInfiltration._add_infiltration(self, thermal_zone, zone_name, 'Flow/ExteriorWallArea', cte.INFILTRATION_75PA_TO_4PA)
|
||||
|
||||
@staticmethod
|
||||
def _add_infiltration(self, thermal_zone, zone_name, calculation_method, multiplier):
|
||||
schedule_name = f'Infiltration schedules {thermal_zone.usage_name}'
|
||||
infiltration = thermal_zone.infiltration_rate_system_off * multiplier
|
||||
file = self._files['infiltration']
|
||||
self._write_to_idf_format(file, idf_cte.INFILTRATION)
|
||||
self._write_to_idf_format(file, zone_name, 'Name')
|
||||
self._write_to_idf_format(file, zone_name, 'Zone or ZoneList or Space or SpaceList Name')
|
||||
self._write_to_idf_format(file, schedule_name, 'Schedule Name')
|
||||
self._write_to_idf_format(file, calculation_method, 'Design Flow Rate Calculation Method')
|
||||
self._write_to_idf_format(file, idf_cte.EMPTY, 'Design Flow Rate')
|
||||
self._write_to_idf_format(file, idf_cte.EMPTY, 'Flow Rate per Floor Area')
|
||||
self._write_to_idf_format(file, infiltration, 'Flow Rate per Exterior Surface Area')
|
||||
self._write_to_idf_format(file, infiltration, 'Air Changes per Hour')
|
||||
self._write_to_idf_format(file, 1, 'Constant Term Coefficient')
|
||||
self._write_to_idf_format(file, 0, 'Temperature Term Coefficient')
|
||||
self._write_to_idf_format(file, 0, 'Velocity Term Coefficient')
|
||||
self._write_to_idf_format(file, 0, 'Velocity Squared Term Coefficient', ';')
|
28
hub/exports/building_energy/idf_helper/idf_lighting.py
Normal file
28
hub/exports/building_energy/idf_helper/idf_lighting.py
Normal file
@ -0,0 +1,28 @@
|
||||
import hub.exports.building_energy.idf_helper as idf_cte
|
||||
from hub.exports.building_energy.idf_helper.idf_base import IdfBase
|
||||
|
||||
|
||||
class IdfLighting(IdfBase):
|
||||
@staticmethod
|
||||
def add(self, thermal_zone, zone_name):
|
||||
storeys_number = int(thermal_zone.total_floor_area / thermal_zone.footprint_area)
|
||||
watts_per_zone_floor_area = thermal_zone.lighting.density * storeys_number
|
||||
subcategory = f'ELECTRIC EQUIPMENT#{zone_name}#GeneralLights'
|
||||
schedule_name = f'Lighting schedules {thermal_zone.usage_name}'
|
||||
file = self._files['lighting']
|
||||
self._write_to_idf_format(file, idf_cte.LIGHTS)
|
||||
self._write_to_idf_format(file, f'{zone_name}_lights', 'Name')
|
||||
self._write_to_idf_format(file, zone_name, 'Zone or ZoneList or Space or SpaceList Name')
|
||||
self._write_to_idf_format(file, schedule_name, 'Schedule Name')
|
||||
self._write_to_idf_format(file, 'Watts/Area', 'Design Level Calculation Method')
|
||||
self._write_to_idf_format(file, idf_cte.EMPTY, 'Lighting Level')
|
||||
self._write_to_idf_format(file, watts_per_zone_floor_area, 'Watts per Zone Floor Area')
|
||||
self._write_to_idf_format(file, idf_cte.EMPTY, 'Watts per Person')
|
||||
self._write_to_idf_format(file, 0, 'Return Air Fraction')
|
||||
self._write_to_idf_format(file, thermal_zone.lighting.radiative_fraction, 'Fraction Radiant')
|
||||
self._write_to_idf_format(file, 0, 'Fraction Visible')
|
||||
self._write_to_idf_format(file, 1, 'Fraction Replaceable')
|
||||
self._write_to_idf_format(file, subcategory, 'EndUse Subcategory')
|
||||
self._write_to_idf_format(file, 'No', 'Return Air Fraction Calculated from Plenum Temperature')
|
||||
self._write_to_idf_format(file, 0, 'Return Air Fraction Function of Plenum Temperature Coefficient 1')
|
||||
self._write_to_idf_format(file, 0, 'Return Air Fraction Function of Plenum Temperature Coefficient 2', ';')
|
39
hub/exports/building_energy/idf_helper/idf_material.py
Normal file
39
hub/exports/building_energy/idf_helper/idf_material.py
Normal file
@ -0,0 +1,39 @@
|
||||
import hub.exports.building_energy.idf_helper as idf_cte
|
||||
from hub.exports.building_energy.idf_helper.idf_base import IdfBase
|
||||
|
||||
|
||||
class IdfMaterial(IdfBase):
|
||||
@staticmethod
|
||||
def _add_solid_material(self, layer):
|
||||
file = self._files['solid_materials']
|
||||
self._write_to_idf_format(file, idf_cte.SOLID_MATERIAL)
|
||||
self._write_to_idf_format(file, layer.material_name, 'Name')
|
||||
self._write_to_idf_format(file, idf_cte.ROUGHNESS, 'Roughness')
|
||||
self._write_to_idf_format(file, layer.thickness, 'Thickness')
|
||||
self._write_to_idf_format(file, layer.conductivity, 'Conductivity')
|
||||
self._write_to_idf_format(file, layer.density, 'Density')
|
||||
self._write_to_idf_format(file, layer.specific_heat, 'Specific Heat')
|
||||
self._write_to_idf_format(file, layer.thermal_absorptance, 'Thermal Absorptance')
|
||||
self._write_to_idf_format(file, layer.solar_absorptance, 'Solar Absorptance')
|
||||
self._write_to_idf_format(file, layer.visible_absorptance, 'Visible Absorptance', ';')
|
||||
|
||||
@staticmethod
|
||||
def _add_nomass_material(self, layer):
|
||||
file = self._files['nomass_materials']
|
||||
self._write_to_idf_format(file, idf_cte.NOMASS_MATERIAL)
|
||||
self._write_to_idf_format(file, layer.material_name, 'Name')
|
||||
self._write_to_idf_format(file, idf_cte.ROUGHNESS, 'Roughness')
|
||||
self._write_to_idf_format(file, layer.thermal_resistance, 'Thermal Resistance')
|
||||
self._write_to_idf_format(file, 0.9, 'Thermal Absorptance')
|
||||
self._write_to_idf_format(file, 0.7, 'Solar Absorptance')
|
||||
self._write_to_idf_format(file, 0.7, 'Visible Absorptance', ';')
|
||||
|
||||
@staticmethod
|
||||
def add(self, thermal_boundary):
|
||||
for layer in thermal_boundary.layers:
|
||||
if layer.material_name not in self._materials_added_to_idf:
|
||||
self._materials_added_to_idf[layer.material_name] = True
|
||||
if layer.no_mass:
|
||||
IdfMaterial._add_nomass_material(self, layer)
|
||||
else:
|
||||
IdfMaterial._add_solid_material(self, layer)
|
47
hub/exports/building_energy/idf_helper/idf_occupancy.py
Normal file
47
hub/exports/building_energy/idf_helper/idf_occupancy.py
Normal file
@ -0,0 +1,47 @@
|
||||
import hub.exports.building_energy.idf_helper as idf_cte
|
||||
from hub.exports.building_energy.idf_helper.idf_base import IdfBase
|
||||
|
||||
|
||||
class IdfOccupancy(IdfBase):
|
||||
@staticmethod
|
||||
def add(self, thermal_zone, zone_name):
|
||||
number_of_people = thermal_zone.occupancy.occupancy_density * thermal_zone.total_floor_area
|
||||
fraction_radiant = 0
|
||||
total_sensible = (
|
||||
thermal_zone.occupancy.sensible_radiative_internal_gain + thermal_zone.occupancy.sensible_convective_internal_gain
|
||||
)
|
||||
if total_sensible != 0:
|
||||
fraction_radiant = thermal_zone.occupancy.sensible_radiative_internal_gain / total_sensible
|
||||
occupancy_schedule = f'Occupancy schedules {thermal_zone.usage_name}'
|
||||
activity_level_schedule = f'Activity Level schedules {thermal_zone.usage_name}'
|
||||
file = self._files['occupancy']
|
||||
self._write_to_idf_format(file, idf_cte.PEOPLE)
|
||||
self._write_to_idf_format(file, f'{zone_name}_occupancy', 'Name')
|
||||
self._write_to_idf_format(file, zone_name, 'Zone or ZoneList or Space or SpaceList Name')
|
||||
self._write_to_idf_format(file, occupancy_schedule, 'Number of People Schedule Name')
|
||||
self._write_to_idf_format(file, 'People', 'Number of People Calculation Method')
|
||||
self._write_to_idf_format(file, number_of_people, 'Number of People')
|
||||
self._write_to_idf_format(file, idf_cte.EMPTY, 'People per Floor Area')
|
||||
self._write_to_idf_format(file, idf_cte.EMPTY, 'Floor Area per Person')
|
||||
self._write_to_idf_format(file, fraction_radiant, 'Fraction Radiant')
|
||||
self._write_to_idf_format(file, idf_cte.AUTOCALCULATE, 'Sensible Heat Fraction')
|
||||
self._write_to_idf_format(file, activity_level_schedule, 'Activity Level Schedule Name')
|
||||
self._write_to_idf_format(file, '3.82e-08', 'Carbon Dioxide Generation Rate')
|
||||
self._write_to_idf_format(file, 'No', 'Enable ASHRAE 55 Comfort Warnings')
|
||||
self._write_to_idf_format(file, 'EnclosureAveraged', 'Mean Radiant Temperature Calculation Type')
|
||||
self._write_to_idf_format(file, idf_cte.EMPTY, 'Surface NameAngle Factor List Name')
|
||||
self._write_to_idf_format(file, idf_cte.EMPTY, 'Work Efficiency Schedule Name')
|
||||
self._write_to_idf_format(file, 'ClothingInsulationSchedule', 'Clothing Insulation Calculation Method')
|
||||
self._write_to_idf_format(file, idf_cte.EMPTY, 'Clothing Insulation Calculation Method Schedule Name')
|
||||
self._write_to_idf_format(file, idf_cte.EMPTY, 'Clothing Insulation Schedule Name')
|
||||
self._write_to_idf_format(file, idf_cte.EMPTY, 'Air Velocity Schedule Name')
|
||||
self._write_to_idf_format(file, idf_cte.EMPTY, 'Thermal Comfort Model 1 Type')
|
||||
self._write_to_idf_format(file, idf_cte.EMPTY, 'Thermal Comfort Model 2 Type')
|
||||
self._write_to_idf_format(file, idf_cte.EMPTY, 'Thermal Comfort Model 3 Type')
|
||||
self._write_to_idf_format(file, idf_cte.EMPTY, 'Thermal Comfort Model 4 Type')
|
||||
self._write_to_idf_format(file, idf_cte.EMPTY, 'Thermal Comfort Model 5 Type')
|
||||
self._write_to_idf_format(file, idf_cte.EMPTY, 'Thermal Comfort Model 6 Type')
|
||||
self._write_to_idf_format(file, idf_cte.EMPTY, 'Thermal Comfort Model 7 Type')
|
||||
self._write_to_idf_format(file, idf_cte.EMPTY, 'Ankle Level Air Velocity Schedule Name')
|
||||
self._write_to_idf_format(file, '15.56', 'Cold Stress Temperature Threshold')
|
||||
self._write_to_idf_format(file, '30', 'Heat Stress Temperature Threshold', ';')
|
30
hub/exports/building_energy/idf_helper/idf_schedule.py
Normal file
30
hub/exports/building_energy/idf_helper/idf_schedule.py
Normal file
@ -0,0 +1,30 @@
|
||||
import hub.exports.building_energy.idf_helper as idf_cte
|
||||
from hub.exports.building_energy.idf_helper.idf_base import IdfBase
|
||||
|
||||
|
||||
class IdfSchedule(IdfBase):
|
||||
@staticmethod
|
||||
def add(self, usage, schedule_type, schedules):
|
||||
if len(schedules) < 1:
|
||||
return
|
||||
schedule_name = f'{schedule_type} schedules {usage}'
|
||||
if schedule_name not in self._schedules_added_to_idf:
|
||||
self._schedules_added_to_idf[schedule_name] = True
|
||||
file = self._files['schedules']
|
||||
self._write_to_idf_format(file, idf_cte.COMPACT_SCHEDULE)
|
||||
self._write_to_idf_format(file, schedule_name, 'Name')
|
||||
self._write_to_idf_format(file, idf_cte.idf_type_limits[schedules[0].data_type], 'Schedule Type Limits Name')
|
||||
self._write_to_idf_format(file, 'Through: 12/31', 'Field 1')
|
||||
counter = 1
|
||||
for j, schedule in enumerate(schedules):
|
||||
_val = schedule.values
|
||||
_new_field = ''
|
||||
for day_type in schedule.day_types:
|
||||
_new_field += f' {idf_cte.idf_day_types[day_type]}'
|
||||
self._write_to_idf_format(file, f'For:{_new_field}', f'Field {j * 25 + 2}')
|
||||
counter += 1
|
||||
for i, _ in enumerate(_val):
|
||||
self._write_to_idf_format(file, f'Until: {i + 1:02d}:00,{_val[i]}', f'Field {j * 25 + 3 + i}')
|
||||
counter += 1
|
||||
self._write_to_idf_format(file, 'For AllOtherDays', f'Field {counter + 1}')
|
||||
self._write_to_idf_format(file, 'Until: 24:00,0.0', f'Field {counter + 2}', ';')
|
25
hub/exports/building_energy/idf_helper/idf_shading.py
Normal file
25
hub/exports/building_energy/idf_helper/idf_shading.py
Normal file
@ -0,0 +1,25 @@
|
||||
import hub.exports.building_energy.idf_helper as idf_cte
|
||||
from hub.exports.building_energy.idf_helper.idf_base import IdfBase
|
||||
|
||||
|
||||
class IdfShading(IdfBase):
|
||||
@staticmethod
|
||||
def add(self, building):
|
||||
name = building.name
|
||||
file = self._files['shading']
|
||||
for s, surface in enumerate(building.surfaces):
|
||||
|
||||
self._write_to_idf_format(file, idf_cte.SHADING)
|
||||
self._write_to_idf_format(file, f'{name}_{s}', 'Name')
|
||||
self._write_to_idf_format(file, idf_cte.EMPTY, 'Transmittance Schedule Name')
|
||||
self._write_to_idf_format(file, idf_cte.AUTOCALCULATE, 'Number of Vertices')
|
||||
eol = ','
|
||||
coordinates = self._matrix_to_list(surface.solid_polygon.coordinates, self._city.lower_corner)
|
||||
coordinates_length = len(coordinates)
|
||||
for i, coordinate in enumerate(coordinates):
|
||||
vertex = i + 1
|
||||
if vertex == coordinates_length:
|
||||
eol = ';'
|
||||
self._write_to_idf_format(file, coordinate[0], f'Vertex {vertex} Xcoordinate')
|
||||
self._write_to_idf_format(file, coordinate[1], f'Vertex {vertex} Ycoordinate')
|
||||
self._write_to_idf_format(file, coordinate[2], f'Vertex {vertex} Zcoordinate', eol)
|
52
hub/exports/building_energy/idf_helper/idf_surfaces.py
Normal file
52
hub/exports/building_energy/idf_helper/idf_surfaces.py
Normal file
@ -0,0 +1,52 @@
|
||||
import hub.exports.building_energy.idf_helper as idf_cte
|
||||
import hub.helpers.constants as cte
|
||||
from hub.exports.building_energy.idf_helper.idf_base import IdfBase
|
||||
|
||||
|
||||
class IdfSurfaces(IdfBase):
|
||||
@staticmethod
|
||||
def add(self, building, zone_name):
|
||||
zone_name = f'{zone_name}'
|
||||
file = self._files['surfaces']
|
||||
for thermal_zone in building.thermal_zones_from_internal_zones:
|
||||
for index, boundary in enumerate(thermal_zone.thermal_boundaries):
|
||||
surface_type = idf_cte.idf_surfaces_dictionary[boundary.parent_surface.type]
|
||||
outside_boundary_condition = idf_cte.OUTDOORS
|
||||
sun_exposure = idf_cte.SUN_EXPOSED
|
||||
wind_exposure = idf_cte.WIND_EXPOSED
|
||||
outside_boundary_condition_object = idf_cte.EMPTY
|
||||
name = f'Building_{building.name}_surface_{index}'
|
||||
construction_name = f'{boundary.construction_name} {boundary.parent_surface.type}'
|
||||
space_name = idf_cte.EMPTY
|
||||
if boundary.parent_surface.type == cte.GROUND:
|
||||
outside_boundary_condition = idf_cte.GROUND
|
||||
sun_exposure = idf_cte.NON_SUN_EXPOSED
|
||||
wind_exposure = idf_cte.NON_WIND_EXPOSED
|
||||
if boundary.parent_surface.percentage_shared is not None and boundary.parent_surface.percentage_shared > 0.5:
|
||||
outside_boundary_condition_object = f'Building_{building.name}_surface_{index}'
|
||||
outside_boundary_condition = idf_cte.SURFACE
|
||||
sun_exposure = idf_cte.NON_SUN_EXPOSED
|
||||
wind_exposure = idf_cte.NON_WIND_EXPOSED
|
||||
self._write_to_idf_format(file, idf_cte.BUILDING_SURFACE)
|
||||
self._write_to_idf_format(file, name, 'Name')
|
||||
self._write_to_idf_format(file, surface_type, 'Surface Type')
|
||||
self._write_to_idf_format(file, construction_name, 'Construction Name')
|
||||
self._write_to_idf_format(file, zone_name, 'Zone Name')
|
||||
self._write_to_idf_format(file, space_name, 'Space Name')
|
||||
self._write_to_idf_format(file, outside_boundary_condition, 'Outside Boundary Condition')
|
||||
self._write_to_idf_format(file, outside_boundary_condition_object, 'Outside Boundary Condition Object')
|
||||
self._write_to_idf_format(file, sun_exposure, 'Sun Exposure')
|
||||
self._write_to_idf_format(file, wind_exposure, 'Wind Exposure')
|
||||
self._write_to_idf_format(file, idf_cte.AUTOCALCULATE, 'View Factor to Ground')
|
||||
self._write_to_idf_format(file, idf_cte.AUTOCALCULATE, 'Number of Vertices')
|
||||
coordinates = self._matrix_to_list(boundary.parent_surface.solid_polygon.coordinates,
|
||||
self._city.lower_corner)
|
||||
eol = ','
|
||||
coordinates_length = len(coordinates)
|
||||
for i, coordinate in enumerate(coordinates):
|
||||
vertex = i + 1
|
||||
if vertex == coordinates_length:
|
||||
eol = ';'
|
||||
self._write_to_idf_format(file, coordinate[0], f'Vertex {vertex} Xcoordinate')
|
||||
self._write_to_idf_format(file, coordinate[1], f'Vertex {vertex} Ycoordinate')
|
||||
self._write_to_idf_format(file, coordinate[2], f'Vertex {vertex} Zcoordinate', eol)
|
18
hub/exports/building_energy/idf_helper/idf_thermostat.py
Normal file
18
hub/exports/building_energy/idf_helper/idf_thermostat.py
Normal file
@ -0,0 +1,18 @@
|
||||
import hub.exports.building_energy.idf_helper as idf_cte
|
||||
from hub.exports.building_energy.idf_helper.idf_base import IdfBase
|
||||
|
||||
|
||||
class IdfThermostat(IdfBase):
|
||||
@staticmethod
|
||||
def add(self, thermal_zone):
|
||||
thermostat_name = f'Thermostat {thermal_zone.usage_name}'
|
||||
heating_schedule = f'Heating thermostat schedules {thermal_zone.usage_name}'
|
||||
cooling_schedule = f'Cooling thermostat schedules {thermal_zone.usage_name}'
|
||||
if thermostat_name not in self._thermostat_added_to_idf:
|
||||
self._thermostat_added_to_idf[thermostat_name] = True
|
||||
file = self._files['thermostat']
|
||||
self._write_to_idf_format(file, idf_cte.THERMOSTAT)
|
||||
self._write_to_idf_format(file, thermostat_name, 'Name')
|
||||
self._write_to_idf_format(file, heating_schedule, 'Heating Setpoint Schedule Name')
|
||||
self._write_to_idf_format(file, idf_cte.EMPTY, 'Constant Heating Setpoint')
|
||||
self._write_to_idf_format(file, cooling_schedule, 'Cooling Setpoint Schedule Name', ';')
|
38
hub/exports/building_energy/idf_helper/idf_ventilation.py
Normal file
38
hub/exports/building_energy/idf_helper/idf_ventilation.py
Normal file
@ -0,0 +1,38 @@
|
||||
import hub.exports.building_energy.idf_helper as idf_cte
|
||||
import hub.helpers.constants as cte
|
||||
from hub.exports.building_energy.idf_helper.idf_base import IdfBase
|
||||
|
||||
|
||||
class IdfVentilation(IdfBase):
|
||||
@staticmethod
|
||||
def add(self, thermal_zone, zone_name):
|
||||
schedule_name = f'Ventilation schedules {thermal_zone.usage_name}'
|
||||
air_change = thermal_zone.mechanical_air_change * cte.HOUR_TO_SECONDS
|
||||
file = self._files['ventilation']
|
||||
self._write_to_idf_format(file, idf_cte.VENTILATION)
|
||||
self._write_to_idf_format(file, f'{zone_name}_ventilation', 'Name')
|
||||
self._write_to_idf_format(file, zone_name, 'Zone or ZoneList or Space or SpaceList Name')
|
||||
self._write_to_idf_format(file, schedule_name, 'Schedule Name')
|
||||
self._write_to_idf_format(file, 'AirChanges/Hour', 'Design Flow Rate Calculation Method')
|
||||
self._write_to_idf_format(file, idf_cte.EMPTY, 'Design Flow Rate')
|
||||
self._write_to_idf_format(file, idf_cte.EMPTY, 'Flow Rate per Floor Area')
|
||||
self._write_to_idf_format(file, idf_cte.EMPTY, 'Flow Rate per Person')
|
||||
self._write_to_idf_format(file, air_change, 'Air Changes per Hour')
|
||||
self._write_to_idf_format(file, 'Natural', 'Ventilation Type')
|
||||
self._write_to_idf_format(file, 0, 'Fan Pressure Rise')
|
||||
self._write_to_idf_format(file, 1, 'Fan Total Efficiency')
|
||||
self._write_to_idf_format(file, 1, 'Constant Term Coefficient')
|
||||
self._write_to_idf_format(file, 0, 'Temperature Term Coefficient')
|
||||
self._write_to_idf_format(file, 0, 'Velocity Term Coefficient')
|
||||
self._write_to_idf_format(file, 0, 'Velocity Squared Term Coefficient')
|
||||
self._write_to_idf_format(file, -100, 'Minimum Indoor Temperature')
|
||||
self._write_to_idf_format(file, idf_cte.EMPTY, 'Minimum Indoor Temperature Schedule Name')
|
||||
self._write_to_idf_format(file, 100, 'Maximum Indoor Temperature')
|
||||
self._write_to_idf_format(file, idf_cte.EMPTY, 'Maximum Indoor Temperature Schedule Name')
|
||||
self._write_to_idf_format(file, -100, 'Delta Temperature')
|
||||
self._write_to_idf_format(file, idf_cte.EMPTY, 'Delta Temperature Schedule Name')
|
||||
self._write_to_idf_format(file, -100, 'Minimum Outdoor Temperature')
|
||||
self._write_to_idf_format(file, idf_cte.EMPTY, 'Minimum Outdoor Temperature Schedule Name')
|
||||
self._write_to_idf_format(file, 100, 'Maximum Outdoor Temperature')
|
||||
self._write_to_idf_format(file, idf_cte.EMPTY, 'Maximum Outdoor Temperature Schedule Name')
|
||||
self._write_to_idf_format(file, 40, 'Maximum Wind Speed', ';')
|
64
hub/exports/building_energy/idf_helper/idf_window.py
Normal file
64
hub/exports/building_energy/idf_helper/idf_window.py
Normal file
@ -0,0 +1,64 @@
|
||||
import logging
|
||||
|
||||
import hub.exports.building_energy.idf_helper as idf_cte
|
||||
import hub.helpers.constants as cte
|
||||
from hub.exports.building_energy.idf_helper.idf_base import IdfBase
|
||||
|
||||
|
||||
class IdfWindow(IdfBase):
|
||||
|
||||
@staticmethod
|
||||
def _to_window_surface(self, surface):
|
||||
window_ratio = surface.associated_thermal_boundaries[0].window_ratio
|
||||
x = 0
|
||||
y = 1
|
||||
z = 2
|
||||
coordinates = self._matrix_to_list(surface.solid_polygon.coordinates, self._city.lower_corner)
|
||||
min_z = surface.lower_corner[z]
|
||||
max_z = surface.upper_corner[z]
|
||||
middle = (max_z - min_z) / 2
|
||||
distance = (max_z - min_z) * window_ratio
|
||||
new_max_z = middle + distance / 2
|
||||
new_min_z = middle - distance / 2
|
||||
for index, coordinate in enumerate(coordinates):
|
||||
if coordinate[z] == max_z:
|
||||
coordinates[index] = (coordinate[x], coordinate[y], new_max_z)
|
||||
elif coordinate[z] == min_z:
|
||||
coordinates[index] = (coordinate[x], coordinate[y], new_min_z)
|
||||
else:
|
||||
logging.warning('Z coordinate not in top or bottom during window creation')
|
||||
return coordinates
|
||||
|
||||
@staticmethod
|
||||
def add(self, building):
|
||||
file = self._files['fenestration']
|
||||
for thermal_zone in building.thermal_zones_from_internal_zones:
|
||||
for index, boundary in enumerate(thermal_zone.thermal_boundaries):
|
||||
building_surface_name = f'Building_{building.name}_surface_{index}'
|
||||
is_exposed = boundary.parent_surface.type == cte.WALL
|
||||
if boundary.parent_surface.percentage_shared is not None and boundary.parent_surface.percentage_shared > 0.5 or boundary.window_ratio == 0:
|
||||
is_exposed = False
|
||||
if not is_exposed:
|
||||
continue
|
||||
name = f'Building_{building.name}_window_{index}'
|
||||
construction_name = f'{boundary.construction_name}_window_construction'
|
||||
self._write_to_idf_format(file, idf_cte.WINDOW_SURFACE)
|
||||
self._write_to_idf_format(file, name, 'Name')
|
||||
self._write_to_idf_format(file, 'Window', 'Surface Type')
|
||||
self._write_to_idf_format(file, construction_name, 'Construction Name')
|
||||
self._write_to_idf_format(file, building_surface_name, 'Building Surface Name')
|
||||
self._write_to_idf_format(file, idf_cte.EMPTY, 'Outside Boundary Condition Object')
|
||||
self._write_to_idf_format(file, idf_cte.AUTOCALCULATE, 'View Factor to Ground')
|
||||
self._write_to_idf_format(file, idf_cte.EMPTY, 'Frame and Divider Name')
|
||||
self._write_to_idf_format(file, '1.0', 'Multiplier')
|
||||
self._write_to_idf_format(file, idf_cte.AUTOCALCULATE, 'Number of Vertices')
|
||||
coordinates = IdfWindow._to_window_surface(self, boundary.parent_surface)
|
||||
eol = ','
|
||||
coordinates_length = len(coordinates)
|
||||
for i, coordinate in enumerate(coordinates):
|
||||
vertex = i + 1
|
||||
if vertex == coordinates_length:
|
||||
eol = ';'
|
||||
self._write_to_idf_format(file, coordinate[0], f'Vertex {vertex} Xcoordinate')
|
||||
self._write_to_idf_format(file, coordinate[1], f'Vertex {vertex} Ycoordinate')
|
||||
self._write_to_idf_format(file, coordinate[2], f'Vertex {vertex} Zcoordinate', eol)
|
@ -0,0 +1,17 @@
|
||||
import hub.exports.building_energy.idf_helper as idf_cte
|
||||
from hub.exports.building_energy.idf_helper.idf_base import IdfBase
|
||||
|
||||
|
||||
class IdfWindowsConstructions(IdfBase):
|
||||
@staticmethod
|
||||
def add(self, thermal_boundary):
|
||||
name = f'{thermal_boundary.construction_name}_window'
|
||||
if name not in self._windows_added_to_idf:
|
||||
return # Material not added or already assigned to construction
|
||||
construction_name = f'{thermal_boundary.construction_name}_window_construction'
|
||||
if construction_name not in self._constructions_added_to_idf:
|
||||
self._constructions_added_to_idf[construction_name] = True
|
||||
file = self._files['constructions']
|
||||
self._write_to_idf_format(file, idf_cte.CONSTRUCTION)
|
||||
self._write_to_idf_format(file, construction_name, 'Name')
|
||||
self._write_to_idf_format(file, name, 'Outside Layer', ';')
|
@ -0,0 +1,15 @@
|
||||
import hub.exports.building_energy.idf_helper as idf_cte
|
||||
from hub.exports.building_energy.idf_helper.idf_base import IdfBase
|
||||
|
||||
|
||||
class IdfWindowsMaterial(IdfBase):
|
||||
@staticmethod
|
||||
def add(self, thermal_boundary, thermal_opening):
|
||||
name = f'{thermal_boundary.construction_name}_window'
|
||||
if name not in self._windows_added_to_idf:
|
||||
self._windows_added_to_idf[name] = True
|
||||
file = self._files['window_materials']
|
||||
self._write_to_idf_format(file, idf_cte.WINDOW_MATERIAL)
|
||||
self._write_to_idf_format(file, name, 'Name')
|
||||
self._write_to_idf_format(file, thermal_opening.overall_u_value, 'UFactor')
|
||||
self._write_to_idf_format(file, thermal_opening.g_value, 'Solar Heat Gain Coefficient', ';')
|
22
hub/exports/building_energy/idf_helper/idf_zone.py
Normal file
22
hub/exports/building_energy/idf_helper/idf_zone.py
Normal file
@ -0,0 +1,22 @@
|
||||
import hub.exports.building_energy.idf_helper as idf_cte
|
||||
from hub.exports.building_energy.idf_helper.idf_base import IdfBase
|
||||
|
||||
|
||||
class IdfZone(IdfBase):
|
||||
@staticmethod
|
||||
def add(self, thermal_zone, zone_name):
|
||||
file = self._files['zones']
|
||||
self._write_to_idf_format(file, idf_cte.ZONE)
|
||||
self._write_to_idf_format(file, zone_name, 'Name')
|
||||
self._write_to_idf_format(file, 0, 'Direction of Relative North')
|
||||
self._write_to_idf_format(file, 0, 'X Origin')
|
||||
self._write_to_idf_format(file, 0, 'Y Origin')
|
||||
self._write_to_idf_format(file, 0, 'Z Origin')
|
||||
self._write_to_idf_format(file, 1, 'Type')
|
||||
self._write_to_idf_format(file, 1, 'Multiplier')
|
||||
self._write_to_idf_format(file, idf_cte.AUTOCALCULATE, 'Ceiling Height')
|
||||
self._write_to_idf_format(file, thermal_zone.volume, 'Volume')
|
||||
self._write_to_idf_format(file, idf_cte.AUTOCALCULATE, 'Floor Area')
|
||||
self._write_to_idf_format(file, idf_cte.EMPTY, 'Zone Inside Convection Algorithm')
|
||||
self._write_to_idf_format(file, idf_cte.EMPTY, 'Zone Outside Convection Algorithm')
|
||||
self._write_to_idf_format(file, 'Yes', 'Part of Total Floor Area', ';')
|
@ -11,6 +11,7 @@ import requests
|
||||
|
||||
from hub.exports.building_energy.energy_ade import EnergyAde
|
||||
from hub.exports.building_energy.idf import Idf
|
||||
from hub.exports.building_energy.cerc_idf import CercIdf
|
||||
from hub.exports.building_energy.insel.insel_monthly_energy_balance import InselMonthlyEnergyBalance
|
||||
from hub.helpers.utils import validate_import_export_type
|
||||
from hub.imports.weather.helpers.weather import Weather as wh
|
||||
@ -20,9 +21,11 @@ class EnergyBuildingsExportsFactory:
|
||||
"""
|
||||
Energy Buildings exports factory class
|
||||
"""
|
||||
def __init__(self, handler, city, path, custom_insel_block='d18599', target_buildings=None):
|
||||
|
||||
def __init__(self, handler, city, path, custom_insel_block='d18599', target_buildings=None, weather_file=None):
|
||||
self._city = city
|
||||
self._export_type = '_' + handler.lower()
|
||||
self._weather_file = weather_file
|
||||
validate_import_export_type(EnergyBuildingsExportsFactory, handler)
|
||||
if isinstance(path, str):
|
||||
path = Path(path)
|
||||
@ -51,13 +54,25 @@ class EnergyBuildingsExportsFactory:
|
||||
|
||||
:return: None
|
||||
"""
|
||||
idf_data_path = (Path(__file__).parent / './building_energy/idf_files/').resolve()
|
||||
url = wh().epw_file(self._city.region_code)
|
||||
if self._weather_file is None:
|
||||
self._weather_file = (Path(__file__).parent.parent / f'data/weather/epw/{url.rsplit("/", 1)[1]}').resolve()
|
||||
if not self._weather_file.exists():
|
||||
with open(self._weather_file, 'wb') as epw_file:
|
||||
epw_file.write(requests.get(url, allow_redirects=True).content)
|
||||
return Idf(self._city, self._path, (idf_data_path / 'Minimal.idf'), (idf_data_path / 'Energy+.idd'),
|
||||
self._weather_file, target_buildings=self._target_buildings)
|
||||
|
||||
@property
|
||||
def _cerc_idf(self):
|
||||
idf_data_path = (Path(__file__).parent / './building_energy/idf_files/').resolve()
|
||||
url = wh().epw_file(self._city.region_code)
|
||||
weather_path = (Path(__file__).parent.parent / f'data/weather/epw/{url.rsplit("/", 1)[1]}').resolve()
|
||||
if not weather_path.exists():
|
||||
with open(weather_path, 'wb') as epw_file:
|
||||
epw_file.write(requests.get(url, allow_redirects=True).content)
|
||||
return Idf(self._city, self._path, (idf_data_path / 'Minimal.idf'), (idf_data_path / 'Energy+.idd'), weather_path,
|
||||
return CercIdf(self._city, self._path, (idf_data_path / 'base.idf'), (idf_data_path / 'Energy+.idd'), weather_path,
|
||||
target_buildings=self._target_buildings)
|
||||
|
||||
@property
|
||||
|
@ -77,8 +77,8 @@ class CesiumjsTileset:
|
||||
'function': {
|
||||
'type': 'STRING'
|
||||
},
|
||||
'usages_percentage': {
|
||||
'type': 'STRING'
|
||||
'usages': {
|
||||
'type': 'LIST'
|
||||
}
|
||||
}
|
||||
}
|
||||
@ -146,7 +146,7 @@ class CesiumjsTileset:
|
||||
'max_height': building.max_height,
|
||||
'year_of_construction': building.year_of_construction,
|
||||
'function': building.function,
|
||||
'usages_percentage': building.usages_percentage
|
||||
'usages': building.usages
|
||||
}
|
||||
},
|
||||
'content': {
|
||||
|
@ -66,8 +66,8 @@ class SimplifiedRadiosityAlgorithm:
|
||||
else:
|
||||
i = (total_days + day - 1) * 24 + hour - 1
|
||||
representative_building = self._city.buildings[0]
|
||||
_global = representative_building.diffuse[cte.HOUR][i] / cte.WATTS_HOUR_TO_JULES
|
||||
_beam = representative_building.direct_normal[cte.HOUR][i] / cte.WATTS_HOUR_TO_JULES
|
||||
_global = representative_building.diffuse[cte.HOUR][i]
|
||||
_beam = representative_building.direct_normal[cte.HOUR][i]
|
||||
content += f'{day} {month} {hour} {_global} {_beam}\n'
|
||||
with open(file, 'w', encoding='utf-8') as file:
|
||||
file.write(content)
|
||||
|
@ -24,6 +24,7 @@ BTU_H_TO_WATTS = 0.29307107
|
||||
KILO_WATTS_HOUR_TO_JULES = 3600000
|
||||
WATTS_HOUR_TO_JULES = 3600
|
||||
GALLONS_TO_QUBIC_METERS = 0.0037854117954011185
|
||||
INFILTRATION_75PA_TO_4PA = (4 / 75) ** 0.65
|
||||
|
||||
# time
|
||||
SECOND = 'second'
|
||||
@ -184,6 +185,19 @@ DAYS_A_MONTH = {JANUARY: 31,
|
||||
NOVEMBER: 30,
|
||||
DECEMBER: 31}
|
||||
|
||||
HOURS_A_MONTH = {JANUARY: 744,
|
||||
FEBRUARY: 672,
|
||||
MARCH: 744,
|
||||
APRIL: 720,
|
||||
MAY: 744,
|
||||
JUNE: 720,
|
||||
JULY: 744,
|
||||
AUGUST: 744,
|
||||
SEPTEMBER: 720,
|
||||
OCTOBER: 744,
|
||||
NOVEMBER: 720,
|
||||
DECEMBER: 744}
|
||||
|
||||
# data types
|
||||
ANY_NUMBER = 'any_number'
|
||||
FRACTION = 'fraction'
|
||||
@ -293,6 +307,7 @@ GAS = 'Gas'
|
||||
DIESEL = 'Diesel'
|
||||
COAL = 'Coal'
|
||||
BIOMASS = 'Biomass'
|
||||
BUTANE = 'Butane'
|
||||
AIR = 'Air'
|
||||
WATER = 'Water'
|
||||
GEOTHERMAL = 'Geothermal'
|
||||
@ -301,10 +316,14 @@ GRID = 'Grid'
|
||||
ONSITE_ELECTRICITY = 'Onsite Electricity'
|
||||
PHOTOVOLTAIC = 'Photovoltaic'
|
||||
BOILER = 'Boiler'
|
||||
FURNACE = 'Furnace'
|
||||
HEAT_PUMP = 'Heat Pump'
|
||||
BASEBOARD = 'Baseboard'
|
||||
ELECTRICITY_GENERATOR = 'Electricity generator'
|
||||
CHILLER = 'Chiller'
|
||||
SPLIT = 'Split'
|
||||
JOULE = 'Joule'
|
||||
BUTANE_HEATER = 'Butane Heater'
|
||||
SENSIBLE = 'sensible'
|
||||
LATENT = 'Latent'
|
||||
LITHIUMION = 'Lithium Ion'
|
||||
|
@ -0,0 +1,30 @@
|
||||
"""
|
||||
Dictionaries module for hub function to Palma construction function
|
||||
SPDX - License - Identifier: LGPL - 3.0 - or -later
|
||||
Copyright © 2023 Concordia CERC group
|
||||
Project Coder Cecilia Pérez cperez@irec.cat
|
||||
"""
|
||||
|
||||
import hub.helpers.constants as cte
|
||||
|
||||
|
||||
class HubFunctionToPalmaConstructionFunction:
|
||||
"""
|
||||
Hub function to Palma construction function class
|
||||
"""
|
||||
def __init__(self):
|
||||
self._dictionary = {
|
||||
cte.RESIDENTIAL: 'V',
|
||||
cte.SINGLE_FAMILY_HOUSE: 'Single-family building',
|
||||
cte.HIGH_RISE_APARTMENT: 'Large multifamily building',
|
||||
cte.MID_RISE_APARTMENT: 'Medium multifamily building',
|
||||
cte.MULTI_FAMILY_HOUSE: 'Small multifamily building'
|
||||
}
|
||||
|
||||
@property
|
||||
def dictionary(self) -> dict:
|
||||
"""
|
||||
Get the dictionary
|
||||
:return: {}
|
||||
"""
|
||||
return self._dictionary
|
51
hub/helpers/data/hub_usage_to_palma_usage.py
Normal file
51
hub/helpers/data/hub_usage_to_palma_usage.py
Normal file
@ -0,0 +1,51 @@
|
||||
"""
|
||||
Dictionaries module for hub usage to Palma usage
|
||||
SPDX - License - Identifier: LGPL - 3.0 - or -later
|
||||
Copyright © 2022 Concordia CERC group
|
||||
Project Coder Cecilia Pérez cperez@irec.cat
|
||||
"""
|
||||
|
||||
"""
|
||||
Codification of uses from cadastre:
|
||||
U: store-parking. Residential Use
|
||||
S: store-parking. Industrial Use
|
||||
V: Residential
|
||||
I: Industrial
|
||||
O: Offices
|
||||
C: Comercial
|
||||
K: Sportive center
|
||||
T: Shows
|
||||
G: Leisure and Hostelry
|
||||
Y: Health and charity
|
||||
E: Culture
|
||||
R: Religion
|
||||
M: Urbanization work, gardening and undeveloped land
|
||||
P: Singular building
|
||||
B: Farm warehouse
|
||||
J: Farm Industry
|
||||
Z: Farm-related
|
||||
"""
|
||||
|
||||
import hub.helpers.constants as cte
|
||||
|
||||
class HubUsageToPalmaUsage:
|
||||
"""
|
||||
Hub usage to Palma usage class
|
||||
"""
|
||||
|
||||
def __init__(self):
|
||||
self._dictionary = {
|
||||
cte.RESIDENTIAL: 'residential',
|
||||
cte.SINGLE_FAMILY_HOUSE: 'residential',
|
||||
cte.HIGH_RISE_APARTMENT: 'residential',
|
||||
cte.MID_RISE_APARTMENT: 'residential',
|
||||
cte.MULTI_FAMILY_HOUSE: 'residential'
|
||||
}
|
||||
|
||||
@property
|
||||
def dictionary(self) -> dict:
|
||||
"""
|
||||
Get the dictionary
|
||||
:return: {}
|
||||
"""
|
||||
return self._dictionary
|
@ -12,11 +12,16 @@ class MontrealCustomFuelToHubFuel:
|
||||
"""
|
||||
Montreal custom fuel to hub fuel class
|
||||
"""
|
||||
|
||||
def __init__(self):
|
||||
self._dictionary = {
|
||||
'gas': cte.GAS,
|
||||
'natural gas': cte.GAS,
|
||||
'biomass': cte.BIOMASS,
|
||||
'electricity': cte.ELECTRICITY,
|
||||
'renewable': cte.RENEWABLE
|
||||
'renewable': cte.RENEWABLE,
|
||||
'butane': cte.BUTANE,
|
||||
'diesel': cte.DIESEL
|
||||
}
|
||||
|
||||
@property
|
||||
|
@ -15,11 +15,15 @@ class MontrealGenerationSystemToHubEnergyGenerationSystem:
|
||||
def __init__(self):
|
||||
self._dictionary = {
|
||||
'boiler': cte.BOILER,
|
||||
'furnace': cte.BASEBOARD,
|
||||
'furnace': cte.FURNACE,
|
||||
'cooler': cte.CHILLER,
|
||||
'electricity generator': cte.ELECTRICITY_GENERATOR,
|
||||
'PV system': cte.PHOTOVOLTAIC,
|
||||
'heat pump': cte.HEAT_PUMP
|
||||
'photovoltaic': cte.PHOTOVOLTAIC,
|
||||
'heat pump': cte.HEAT_PUMP,
|
||||
'joule': cte.JOULE,
|
||||
'split': cte.SPLIT,
|
||||
'butane heater': cte.BUTANE_HEATER
|
||||
|
||||
}
|
||||
|
||||
@property
|
||||
|
31
hub/helpers/data/palma_function_to_hub_function.py
Normal file
31
hub/helpers/data/palma_function_to_hub_function.py
Normal file
@ -0,0 +1,31 @@
|
||||
"""
|
||||
Dictionaries module for Palma function to hub function
|
||||
SPDX - License - Identifier: LGPL - 3.0 - or -later
|
||||
Copyright © 2023 Concordia CERC group
|
||||
Project Coder Cecilia Pérez cperez@irec.cat
|
||||
"""
|
||||
|
||||
import hub.helpers.constants as cte
|
||||
|
||||
|
||||
class PalmaFunctionToHubFunction:
|
||||
"""
|
||||
Palma function to hub function class
|
||||
"""
|
||||
|
||||
def __init__(self):
|
||||
self._dictionary = {'Residential': cte.RESIDENTIAL,
|
||||
'Single-family building': cte.SINGLE_FAMILY_HOUSE,
|
||||
'Large multifamily building': cte.HIGH_RISE_APARTMENT,
|
||||
'Medium multifamily building': cte.MID_RISE_APARTMENT,
|
||||
'Small multifamily building': cte.MULTI_FAMILY_HOUSE,
|
||||
'V': cte.RESIDENTIAL
|
||||
}
|
||||
|
||||
@property
|
||||
def dictionary(self) -> dict:
|
||||
"""
|
||||
Get the dictionary
|
||||
:return: {}
|
||||
"""
|
||||
return self._dictionary
|
@ -26,6 +26,9 @@ from hub.helpers.data.north_america_demand_type_to_hub_energy_demand_type import
|
||||
from hub.helpers.data.north_america_system_to_hub_energy_generation_system import NorthAmericaSystemToHubEnergyGenerationSystem
|
||||
from hub.helpers.data.north_america_custom_fuel_to_hub_fuel import NorthAmericaCustomFuelToHubFuel
|
||||
from hub.helpers.data.north_america_storage_system_to_hub_storage import NorthAmericaStorageSystemToHubEnergyStorage
|
||||
from hub.helpers.data.palma_function_to_hub_function import PalmaFunctionToHubFunction
|
||||
from hub.helpers.data.hub_usage_to_palma_usage import HubUsageToPalmaUsage
|
||||
from hub.helpers.data.hub_function_to_palma_construction_function import HubFunctionToPalmaConstructionFunction
|
||||
|
||||
|
||||
class Dictionaries:
|
||||
@ -65,6 +68,14 @@ class Dictionaries:
|
||||
"""
|
||||
return HubUsageToEilatUsage().dictionary
|
||||
|
||||
@property
|
||||
def hub_usage_to_palma_usage(self) -> dict:
|
||||
"""
|
||||
Hub usage to Palma usage, transformation dictionary
|
||||
:return: dict
|
||||
"""
|
||||
return HubUsageToPalmaUsage().dictionary
|
||||
|
||||
@property
|
||||
def hub_function_to_nrcan_construction_function(self) -> dict:
|
||||
"""
|
||||
@ -88,6 +99,13 @@ class Dictionaries:
|
||||
:return: dict
|
||||
"""
|
||||
return HubFunctionToNrelConstructionFunction().dictionary
|
||||
@property
|
||||
def hub_function_to_palma_construction_function(self) -> dict:
|
||||
"""
|
||||
Get hub function to Palma construction function, transformation dictionary
|
||||
:return: dict
|
||||
"""
|
||||
return HubFunctionToPalmaConstructionFunction().dictionary
|
||||
|
||||
@property
|
||||
def pluto_function_to_hub_function(self) -> dict:
|
||||
@ -105,6 +123,14 @@ class Dictionaries:
|
||||
"""
|
||||
return HftFunctionToHubFunction().dictionary
|
||||
|
||||
@property
|
||||
def palma_function_to_hub_function(self) -> dict:
|
||||
"""
|
||||
Get Palma function to hub function, transformation dictionary
|
||||
:return: dict
|
||||
"""
|
||||
return PalmaFunctionToHubFunction().dictionary
|
||||
|
||||
@property
|
||||
def montreal_function_to_hub_function(self) -> dict:
|
||||
"""
|
||||
|
0
hub/helpers/parsers/__init__.py
Normal file
0
hub/helpers/parsers/__init__.py
Normal file
31
hub/helpers/parsers/list_usage_to_hub.py
Normal file
31
hub/helpers/parsers/list_usage_to_hub.py
Normal file
@ -0,0 +1,31 @@
|
||||
|
||||
class ListUsageToHub:
|
||||
"""
|
||||
Eilat function to hub function class
|
||||
"""
|
||||
|
||||
def __init__(self, function_dictionary=None):
|
||||
self._function_dictionary = function_dictionary
|
||||
|
||||
def _apply_function_dictionary(self, usages):
|
||||
|
||||
function_dictionary = self._function_dictionary
|
||||
|
||||
if function_dictionary is not None:
|
||||
for usage in usages:
|
||||
if usage['usage'] in function_dictionary:
|
||||
usage['usage'] = function_dictionary[usage['usage']]
|
||||
|
||||
return usages
|
||||
|
||||
def parse(self, usages) -> list[dict]:
|
||||
"""
|
||||
Get the dictionary
|
||||
:return: {}
|
||||
"""
|
||||
|
||||
usages = [{"usage": str(i["usage"]), "ratio": float(i["ratio"])} for i in usages]
|
||||
|
||||
usages = self._apply_function_dictionary(usages)
|
||||
|
||||
return usages
|
19
hub/helpers/parsers/string_usage_to_hub.py
Normal file
19
hub/helpers/parsers/string_usage_to_hub.py
Normal file
@ -0,0 +1,19 @@
|
||||
|
||||
class StringUsageToHub:
|
||||
"""
|
||||
Eilat function to hub function class
|
||||
"""
|
||||
|
||||
def parse(self, usages) -> list[dict]:
|
||||
"""
|
||||
Parse usage string in form residential-80_commercial-20
|
||||
:usages: str
|
||||
:return: {}
|
||||
"""
|
||||
|
||||
parsed_usages = []
|
||||
for usage in usages.split('_'):
|
||||
usage_dict = {"usage": str(usage.split('-')[0]), "ratio": float(usage.split('-')[1])/100}
|
||||
parsed_usages.append(usage_dict)
|
||||
|
||||
return parsed_usages
|
31
hub/helpers/usage_parsers.py
Normal file
31
hub/helpers/usage_parsers.py
Normal file
@ -0,0 +1,31 @@
|
||||
"""
|
||||
Dictionaries module saves all transformations of functions and usages to access the catalogs
|
||||
SPDX - License - Identifier: LGPL - 3.0 - or -later
|
||||
Copyright © 2023 Concordia CERC group
|
||||
Project Coder Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca
|
||||
"""
|
||||
|
||||
from hub.helpers.parsers.list_usage_to_hub import ListUsageToHub
|
||||
from hub.helpers.parsers.string_usage_to_hub import StringUsageToHub
|
||||
|
||||
class UsageParsers:
|
||||
"""
|
||||
Dictionaries class
|
||||
"""
|
||||
|
||||
@staticmethod
|
||||
def string_usage_to_hub() -> object:
|
||||
"""
|
||||
Hub usage to HfT usage, transformation dictionary
|
||||
:return: dict
|
||||
"""
|
||||
return StringUsageToHub().parse
|
||||
|
||||
@staticmethod
|
||||
def list_usage_to_hub(function_dictionary=None) -> object:
|
||||
"""
|
||||
Hub usage to HfT usage, transformation dictionary
|
||||
:return: dict
|
||||
"""
|
||||
return ListUsageToHub(function_dictionary).parse
|
||||
|
@ -58,14 +58,17 @@ class ConstructionHelper:
|
||||
'Boucherville': '6',
|
||||
'Mascouche': '6',
|
||||
'Saint-Leonard': '6',
|
||||
'La Prairie': '6',
|
||||
'Thunder Bay': '7B'
|
||||
'La Prairie': '6'
|
||||
}
|
||||
|
||||
_reference_city_to_israel_climate_zone = {
|
||||
'Eilat': 'BWh'
|
||||
}
|
||||
|
||||
_reference_city_to_palma_climate_zone ={
|
||||
'Palma': 'B3'
|
||||
}
|
||||
|
||||
@staticmethod
|
||||
def yoc_to_nrel_standard(year_of_construction):
|
||||
"""
|
||||
@ -108,3 +111,13 @@ class ConstructionHelper:
|
||||
:return: str
|
||||
"""
|
||||
return ConstructionHelper._reference_city_to_israel_climate_zone[reference_city]
|
||||
|
||||
@staticmethod
|
||||
def city_to_palma_climate_zone(reference_city):
|
||||
"""
|
||||
City name to Palma climate zone
|
||||
:param reference_city: str
|
||||
:return: str
|
||||
"""
|
||||
return ConstructionHelper._reference_city_to_palma_climate_zone[reference_city]
|
||||
|
||||
|
@ -3,6 +3,7 @@ NrcanPhysicsParameters import the construction and material information defined
|
||||
SPDX - License - Identifier: LGPL - 3.0 - or -later
|
||||
Copyright © 2022 Concordia CERC group
|
||||
Project Coder Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca
|
||||
Project Collaborator Saeed Ranjbar saeed.ranjbar@concordia.ca
|
||||
"""
|
||||
|
||||
import logging
|
||||
@ -67,6 +68,8 @@ class NrcanPhysicsParameters:
|
||||
thermal_archetype.indirect_heated_ratio = 0
|
||||
thermal_archetype.infiltration_rate_for_ventilation_system_on = catalog_archetype.infiltration_rate_for_ventilation_system_on
|
||||
thermal_archetype.infiltration_rate_for_ventilation_system_off = catalog_archetype.infiltration_rate_for_ventilation_system_off
|
||||
thermal_archetype.infiltration_rate_area_for_ventilation_system_on = catalog_archetype.infiltration_rate_area_for_ventilation_system_on
|
||||
thermal_archetype.infiltration_rate_area_for_ventilation_system_off = catalog_archetype.infiltration_rate_area_for_ventilation_system_off
|
||||
_constructions = []
|
||||
for catalog_construction in catalog_archetype.constructions:
|
||||
construction = Construction()
|
||||
|
107
hub/imports/construction/palma_physics_parameters.py
Normal file
107
hub/imports/construction/palma_physics_parameters.py
Normal file
@ -0,0 +1,107 @@
|
||||
"""
|
||||
PalmaPhysicsParameters import the construction and material information defined by Palma
|
||||
SPDX - License - Identifier: LGPL - 3.0 - or -later
|
||||
Copyright © 2022 Concordia CERC group
|
||||
Project Coder Cecilia Pérez Pérez cperez@irec.cat
|
||||
"""
|
||||
import logging
|
||||
|
||||
from hub.catalog_factories.construction_catalog_factory import ConstructionCatalogFactory
|
||||
from hub.city_model_structure.building_demand.thermal_archetype import ThermalArchetype
|
||||
from hub.city_model_structure.building_demand.construction import Construction
|
||||
from hub.city_model_structure.building_demand.layer import Layer
|
||||
from hub.helpers.dictionaries import Dictionaries
|
||||
from hub.imports.construction.helpers.construction_helper import ConstructionHelper
|
||||
|
||||
|
||||
class PalmaPhysicsParameters:
|
||||
"""
|
||||
PalmaPhysicsParameters class
|
||||
"""
|
||||
|
||||
def __init__(self, city, divide_in_storeys=False):
|
||||
self._city = city
|
||||
self._divide_in_storeys = divide_in_storeys
|
||||
self._climate_zone = ConstructionHelper.city_to_palma_climate_zone(city.climate_reference_city)
|
||||
|
||||
def enrich_buildings(self):
|
||||
"""
|
||||
Returns the city with the construction parameters assigned to the buildings
|
||||
"""
|
||||
city = self._city
|
||||
palma_catalog = ConstructionCatalogFactory('palma').catalog
|
||||
for building in city.buildings:
|
||||
if building.function not in Dictionaries().hub_function_to_palma_construction_function:
|
||||
logging.error('Building %s has an unknown building function %s', building.name, building.function)
|
||||
continue
|
||||
function = Dictionaries().hub_function_to_palma_construction_function[building.function]
|
||||
try:
|
||||
archetype = self._search_archetype(palma_catalog, function, building.year_of_construction, self._climate_zone)
|
||||
|
||||
except KeyError:
|
||||
logging.error('Building %s has unknown construction archetype for building function: %s '
|
||||
'[%s], building year of construction: %s and climate zone %s', building.name, function,
|
||||
building.function, building.year_of_construction, self._climate_zone)
|
||||
continue
|
||||
thermal_archetype = ThermalArchetype()
|
||||
self._assign_values(thermal_archetype, archetype)
|
||||
for internal_zone in building.internal_zones:
|
||||
internal_zone.thermal_archetype = thermal_archetype
|
||||
|
||||
@staticmethod
|
||||
def _search_archetype(nrcan_catalog, function, year_of_construction, climate_zone):
|
||||
nrcan_archetypes = nrcan_catalog.entries('archetypes')
|
||||
for building_archetype in nrcan_archetypes:
|
||||
construction_period_limits = building_archetype.construction_period.split('_')
|
||||
if int(construction_period_limits[0]) <= int(year_of_construction) <= int(construction_period_limits[1]):
|
||||
if str(function) == str(building_archetype.function) and climate_zone == str(building_archetype.climate_zone):
|
||||
return building_archetype
|
||||
raise KeyError('archetype not found')
|
||||
|
||||
@staticmethod
|
||||
def _assign_values(thermal_archetype, catalog_archetype):
|
||||
thermal_archetype.average_storey_height = catalog_archetype.average_storey_height
|
||||
thermal_archetype.extra_loses_due_to_thermal_bridges = catalog_archetype.extra_loses_due_to_thermal_bridges
|
||||
thermal_archetype.thermal_capacity = catalog_archetype.thermal_capacity
|
||||
thermal_archetype.indirect_heated_ratio = 0
|
||||
thermal_archetype.infiltration_rate_for_ventilation_system_on = catalog_archetype.infiltration_rate_for_ventilation_system_on
|
||||
thermal_archetype.infiltration_rate_for_ventilation_system_off = catalog_archetype.infiltration_rate_for_ventilation_system_off
|
||||
thermal_archetype.infiltration_rate_area_for_ventilation_system_on = catalog_archetype.infiltration_rate_area_for_ventilation_system_on
|
||||
thermal_archetype.infiltration_rate_area_for_ventilation_system_off = catalog_archetype.infiltration_rate_area_for_ventilation_system_off
|
||||
_constructions = []
|
||||
for catalog_construction in catalog_archetype.constructions:
|
||||
construction = Construction()
|
||||
construction.type = catalog_construction.type
|
||||
construction.name = catalog_construction.name
|
||||
if catalog_construction.window_ratio is not None:
|
||||
for _orientation in catalog_construction.window_ratio:
|
||||
if catalog_construction.window_ratio[_orientation] is None:
|
||||
catalog_construction.window_ratio[_orientation] = 0
|
||||
construction.window_ratio = catalog_construction.window_ratio
|
||||
_layers = []
|
||||
for layer_archetype in catalog_construction.layers:
|
||||
layer = Layer()
|
||||
layer.thickness = layer_archetype.thickness
|
||||
archetype_material = layer_archetype.material
|
||||
layer.material_name = archetype_material.name
|
||||
layer.no_mass = archetype_material.no_mass
|
||||
if archetype_material.no_mass:
|
||||
layer.thermal_resistance = archetype_material.thermal_resistance
|
||||
else:
|
||||
layer.density = archetype_material.density
|
||||
layer.conductivity = archetype_material.conductivity
|
||||
layer.specific_heat = archetype_material.specific_heat
|
||||
layer.solar_absorptance = archetype_material.solar_absorptance
|
||||
layer.thermal_absorptance = archetype_material.thermal_absorptance
|
||||
layer.visible_absorptance = archetype_material.visible_absorptance
|
||||
_layers.append(layer)
|
||||
construction.layers = _layers
|
||||
|
||||
if catalog_construction.window is not None:
|
||||
window_archetype = catalog_construction.window
|
||||
construction.window_type = window_archetype.name
|
||||
construction.window_frame_ratio = window_archetype.frame_ratio
|
||||
construction.window_g_value = window_archetype.g_value
|
||||
construction.window_overall_u_value = window_archetype.overall_u_value
|
||||
_constructions.append(construction)
|
||||
thermal_archetype.constructions = _constructions
|
@ -10,6 +10,7 @@ from hub.helpers.utils import validate_import_export_type
|
||||
from hub.imports.construction.nrcan_physics_parameters import NrcanPhysicsParameters
|
||||
from hub.imports.construction.nrel_physics_parameters import NrelPhysicsParameters
|
||||
from hub.imports.construction.eilat_physics_parameters import EilatPhysicsParameters
|
||||
from hub.imports.construction.palma_physics_parameters import PalmaPhysicsParameters
|
||||
|
||||
|
||||
class ConstructionFactory:
|
||||
@ -48,6 +49,15 @@ class ConstructionFactory:
|
||||
for building in self._city.buildings:
|
||||
building.level_of_detail.construction = 2
|
||||
|
||||
def _palma(self):
|
||||
"""
|
||||
Enrich the city by using Palma information
|
||||
"""
|
||||
PalmaPhysicsParameters(self._city).enrich_buildings()
|
||||
self._city.level_of_detail.construction = 2
|
||||
for building in self._city.buildings:
|
||||
building.level_of_detail.construction = 2
|
||||
|
||||
def enrich(self):
|
||||
"""
|
||||
Enrich the city given to the class using the class given handler
|
||||
|
@ -3,6 +3,7 @@ Montreal custom energy system importer
|
||||
SPDX - License - Identifier: LGPL - 3.0 - or -later
|
||||
Copyright © 2023 Concordia CERC group
|
||||
Project Coder Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca
|
||||
Project Contributor Saeed Ranjbar saeed.ranjbar@concordia.ca
|
||||
"""
|
||||
|
||||
import logging
|
||||
@ -83,9 +84,9 @@ class MontrealCustomEnergySystemParameters:
|
||||
def _create_generation_systems(archetype_system):
|
||||
_generation_systems = []
|
||||
for archetype_generation_system in archetype_system.generation_systems:
|
||||
if archetype_generation_system.system_type == 'Photovoltaic':
|
||||
if archetype_generation_system.system_type == 'photovoltaic':
|
||||
_generation_system = PvGenerationSystem()
|
||||
_type = 'PV system'
|
||||
_type = archetype_generation_system.system_type
|
||||
_generation_system.system_type = Dictionaries().montreal_generation_system_to_hub_energy_generation_system[
|
||||
_type]
|
||||
_fuel_type = Dictionaries().montreal_custom_fuel_to_hub_fuel[archetype_generation_system.fuel_type]
|
||||
@ -136,13 +137,13 @@ class MontrealCustomEnergySystemParameters:
|
||||
_distribution_system.distribution_consumption_variable_flow = \
|
||||
archetype_distribution_system.distribution_consumption_variable_flow
|
||||
_distribution_system.heat_losses = archetype_distribution_system.heat_losses
|
||||
_emission_system = None
|
||||
_generic_emission_system = None
|
||||
if archetype_distribution_system.emission_systems is not None:
|
||||
_emission_systems = []
|
||||
for emission_system in archetype_distribution_system.emission_systems:
|
||||
_emission_system = EmissionSystem()
|
||||
_emission_system.parasitic_energy_consumption = emission_system.parasitic_energy_consumption
|
||||
_emission_systems.append(_emission_system)
|
||||
_generic_emission_system = EmissionSystem()
|
||||
_generic_emission_system.parasitic_energy_consumption = emission_system.parasitic_energy_consumption
|
||||
_emission_systems.append(_generic_emission_system)
|
||||
_distribution_system.emission_systems = _emission_systems
|
||||
_distribution_systems.append(_distribution_system)
|
||||
return _distribution_systems
|
||||
|
@ -43,6 +43,7 @@ class MontrealFutureEnergySystemParameters:
|
||||
archetype_name = building.energy_systems_archetype_name
|
||||
try:
|
||||
archetype = self._search_archetypes(montreal_custom_catalog, archetype_name)
|
||||
building.energy_systems_archetype_cluster_id = archetype.cluster_id
|
||||
except KeyError:
|
||||
logging.error('Building %s has unknown energy system archetype for system name %s', building.name,
|
||||
archetype_name)
|
||||
@ -87,12 +88,12 @@ class MontrealFutureEnergySystemParameters:
|
||||
archetype_generation_systems = archetype_system.generation_systems
|
||||
if archetype_generation_systems is not None:
|
||||
for archetype_generation_system in archetype_system.generation_systems:
|
||||
if archetype_generation_system.system_type == 'Photovoltaic':
|
||||
if archetype_generation_system.system_type == 'photovoltaic':
|
||||
_generation_system = PvGenerationSystem()
|
||||
_generation_system.name = archetype_generation_system.name
|
||||
_generation_system.model_name = archetype_generation_system.model_name
|
||||
_generation_system.manufacturer = archetype_generation_system.manufacturer
|
||||
_type = 'PV system'
|
||||
_type = archetype_generation_system.system_type
|
||||
_generation_system.system_type = Dictionaries().montreal_generation_system_to_hub_energy_generation_system[_type]
|
||||
_fuel_type = Dictionaries().montreal_custom_fuel_to_hub_fuel[archetype_generation_system.fuel_type]
|
||||
_generation_system.fuel_type = _fuel_type
|
||||
@ -103,15 +104,21 @@ class MontrealFutureEnergySystemParameters:
|
||||
_generation_system.nominal_radiation = archetype_generation_system.nominal_radiation
|
||||
_generation_system.standard_test_condition_cell_temperature = archetype_generation_system.standard_test_condition_cell_temperature
|
||||
_generation_system.standard_test_condition_maximum_power = archetype_generation_system.standard_test_condition_maximum_power
|
||||
_generation_system.standard_test_condition_radiation = archetype_generation_system.standard_test_condition_radiation
|
||||
_generation_system.cell_temperature_coefficient = archetype_generation_system.cell_temperature_coefficient
|
||||
_generation_system.width = archetype_generation_system.width
|
||||
_generation_system.height = archetype_generation_system.height
|
||||
_generation_system.tilt_angle = self._city.latitude
|
||||
_generic_storage_system = None
|
||||
if archetype_generation_system.energy_storage_systems is not None:
|
||||
_storage_systems = []
|
||||
for storage_system in archetype_generation_system.energy_storage_systems:
|
||||
if storage_system.type_energy_stored == 'electrical':
|
||||
_generic_storage_system = ElectricalStorageSystem()
|
||||
_generic_storage_system.type_energy_stored = 'electrical'
|
||||
_generation_system.energy_storage_systems = [_generic_storage_system]
|
||||
_storage_systems.append(_generic_storage_system)
|
||||
_generation_system.energy_storage_systems = _storage_systems
|
||||
|
||||
else:
|
||||
_generation_system = NonPvGenerationSystem()
|
||||
_generation_system.name = archetype_generation_system.name
|
||||
@ -119,7 +126,7 @@ class MontrealFutureEnergySystemParameters:
|
||||
_generation_system.manufacturer = archetype_generation_system.manufacturer
|
||||
_type = archetype_generation_system.system_type
|
||||
_generation_system.system_type = Dictionaries().montreal_generation_system_to_hub_energy_generation_system[_type]
|
||||
_fuel_type = Dictionaries().north_america_custom_fuel_to_hub_fuel[archetype_generation_system.fuel_type]
|
||||
_fuel_type = Dictionaries().montreal_custom_fuel_to_hub_fuel[archetype_generation_system.fuel_type]
|
||||
_generation_system.fuel_type = _fuel_type
|
||||
_generation_system.nominal_heat_output = archetype_generation_system.nominal_heat_output
|
||||
_generation_system.nominal_cooling_output = archetype_generation_system.nominal_cooling_output
|
||||
@ -185,13 +192,13 @@ class MontrealFutureEnergySystemParameters:
|
||||
_distribution_system.distribution_consumption_variable_flow = \
|
||||
archetype_distribution_system.distribution_consumption_variable_flow
|
||||
_distribution_system.heat_losses = archetype_distribution_system.heat_losses
|
||||
_emission_system = None
|
||||
_generic_emission_system = None
|
||||
if archetype_distribution_system.emission_systems is not None:
|
||||
_emission_systems = []
|
||||
for emission_system in archetype_distribution_system.emission_systems:
|
||||
_emission_system = EmissionSystem()
|
||||
_emission_system.parasitic_energy_consumption = emission_system.parasitic_energy_consumption
|
||||
_emission_systems.append(_emission_system)
|
||||
_generic_emission_system = EmissionSystem()
|
||||
_generic_emission_system.parasitic_energy_consumption = emission_system.parasitic_energy_consumption
|
||||
_emission_systems.append(_generic_emission_system)
|
||||
_distribution_system.emission_systems = _emission_systems
|
||||
_distribution_systems.append(_distribution_system)
|
||||
return _distribution_systems
|
||||
|
216
hub/imports/energy_systems/palma_energy_systems_parameters.py
Normal file
216
hub/imports/energy_systems/palma_energy_systems_parameters.py
Normal file
@ -0,0 +1,216 @@
|
||||
"""
|
||||
Montreal future system importer
|
||||
SPDX - License - Identifier: LGPL - 3.0 - or -later
|
||||
Copyright © 2023 Concordia CERC group
|
||||
Project Coder Saeed Ranjbar saeed.ranjbar@concordia.ca
|
||||
|
||||
"""
|
||||
|
||||
import logging
|
||||
import copy
|
||||
|
||||
from hub.catalog_factories.energy_systems_catalog_factory import EnergySystemsCatalogFactory
|
||||
from hub.city_model_structure.energy_systems.energy_system import EnergySystem
|
||||
from hub.city_model_structure.energy_systems.distribution_system import DistributionSystem
|
||||
from hub.city_model_structure.energy_systems.non_pv_generation_system import NonPvGenerationSystem
|
||||
from hub.city_model_structure.energy_systems.pv_generation_system import PvGenerationSystem
|
||||
from hub.city_model_structure.energy_systems.electrical_storage_system import ElectricalStorageSystem
|
||||
from hub.city_model_structure.energy_systems.thermal_storage_system import ThermalStorageSystem
|
||||
from hub.city_model_structure.energy_systems.emission_system import EmissionSystem
|
||||
from hub.helpers.dictionaries import Dictionaries
|
||||
|
||||
|
||||
class PalmaEnergySystemParameters:
|
||||
"""
|
||||
MontrealCustomEnergySystemParameters class
|
||||
"""
|
||||
|
||||
def __init__(self, city):
|
||||
self._city = city
|
||||
|
||||
def enrich_buildings(self):
|
||||
"""
|
||||
Returns the city with the system parameters assigned to the buildings
|
||||
:return:
|
||||
"""
|
||||
city = self._city
|
||||
montreal_custom_catalog = EnergySystemsCatalogFactory('palma').catalog
|
||||
if city.generic_energy_systems is None:
|
||||
_generic_energy_systems = {}
|
||||
else:
|
||||
_generic_energy_systems = city.generic_energy_systems
|
||||
for building in city.buildings:
|
||||
archetype_name = building.energy_systems_archetype_name
|
||||
try:
|
||||
archetype = self._search_archetypes(montreal_custom_catalog, archetype_name)
|
||||
except KeyError:
|
||||
logging.error('Building %s has unknown energy system archetype for system name %s', building.name,
|
||||
archetype_name)
|
||||
continue
|
||||
|
||||
if archetype.name not in _generic_energy_systems:
|
||||
_generic_energy_systems = self._create_generic_systems_list(archetype, _generic_energy_systems)
|
||||
|
||||
city.generic_energy_systems = _generic_energy_systems
|
||||
|
||||
self._assign_energy_systems_to_buildings(city)
|
||||
|
||||
@staticmethod
|
||||
def _search_archetypes(catalog, name):
|
||||
archetypes = catalog.entries('archetypes')
|
||||
for building_archetype in archetypes:
|
||||
if str(name) == str(building_archetype.name):
|
||||
return building_archetype
|
||||
raise KeyError('archetype not found')
|
||||
|
||||
def _create_generic_systems_list(self, archetype, _generic_energy_systems):
|
||||
building_systems = []
|
||||
for archetype_system in archetype.systems:
|
||||
energy_system = EnergySystem()
|
||||
_hub_demand_types = []
|
||||
for demand_type in archetype_system.demand_types:
|
||||
_hub_demand_types.append(Dictionaries().montreal_demand_type_to_hub_energy_demand_type[demand_type])
|
||||
energy_system.name = archetype_system.name
|
||||
energy_system.demand_types = _hub_demand_types
|
||||
energy_system.configuration_schema = archetype_system.configuration_schema
|
||||
energy_system.generation_systems = self._create_generation_systems(archetype_system)
|
||||
if energy_system.distribution_systems is not None:
|
||||
energy_system.distribution_systems = self._create_distribution_systems(archetype_system)
|
||||
building_systems.append(energy_system)
|
||||
|
||||
_generic_energy_systems[archetype.name] = building_systems
|
||||
|
||||
return _generic_energy_systems
|
||||
|
||||
def _create_generation_systems(self, archetype_system):
|
||||
_generation_systems = []
|
||||
archetype_generation_systems = archetype_system.generation_systems
|
||||
if archetype_generation_systems is not None:
|
||||
for archetype_generation_system in archetype_system.generation_systems:
|
||||
if archetype_generation_system.system_type == 'photovoltaic':
|
||||
_generation_system = PvGenerationSystem()
|
||||
_generation_system.name = archetype_generation_system.name
|
||||
_generation_system.model_name = archetype_generation_system.model_name
|
||||
_generation_system.manufacturer = archetype_generation_system.manufacturer
|
||||
_type = archetype_generation_system.system_type
|
||||
_generation_system.system_type = Dictionaries().montreal_generation_system_to_hub_energy_generation_system[_type]
|
||||
_fuel_type = Dictionaries().montreal_custom_fuel_to_hub_fuel[archetype_generation_system.fuel_type]
|
||||
_generation_system.fuel_type = _fuel_type
|
||||
_generation_system.electricity_efficiency = archetype_generation_system.electricity_efficiency
|
||||
_generation_system.nominal_electricity_output = archetype_generation_system.nominal_electricity_output
|
||||
_generation_system.nominal_ambient_temperature = archetype_generation_system.nominal_ambient_temperature
|
||||
_generation_system.nominal_cell_temperature = archetype_generation_system.nominal_cell_temperature
|
||||
_generation_system.nominal_radiation = archetype_generation_system.nominal_radiation
|
||||
_generation_system.standard_test_condition_cell_temperature = archetype_generation_system.standard_test_condition_cell_temperature
|
||||
_generation_system.standard_test_condition_maximum_power = archetype_generation_system.standard_test_condition_maximum_power
|
||||
_generation_system.standard_test_condition_radiation = archetype_generation_system.standard_test_condition_radiation
|
||||
_generation_system.cell_temperature_coefficient = archetype_generation_system.cell_temperature_coefficient
|
||||
_generation_system.width = archetype_generation_system.width
|
||||
_generation_system.height = archetype_generation_system.height
|
||||
_generation_system.tilt_angle = self._city.latitude
|
||||
_generic_storage_system = None
|
||||
if archetype_generation_system.energy_storage_systems is not None:
|
||||
_storage_systems = []
|
||||
for storage_system in archetype_generation_system.energy_storage_systems:
|
||||
if storage_system.type_energy_stored == 'electrical':
|
||||
_generic_storage_system = ElectricalStorageSystem()
|
||||
_generic_storage_system.type_energy_stored = 'electrical'
|
||||
_storage_systems.append(_generic_storage_system)
|
||||
_generation_system.energy_storage_systems = _storage_systems
|
||||
|
||||
else:
|
||||
_generation_system = NonPvGenerationSystem()
|
||||
_generation_system.name = archetype_generation_system.name
|
||||
_generation_system.model_name = archetype_generation_system.model_name
|
||||
_generation_system.manufacturer = archetype_generation_system.manufacturer
|
||||
_type = archetype_generation_system.system_type
|
||||
_generation_system.system_type = Dictionaries().montreal_generation_system_to_hub_energy_generation_system[_type]
|
||||
_fuel_type = Dictionaries().montreal_custom_fuel_to_hub_fuel[archetype_generation_system.fuel_type]
|
||||
_generation_system.fuel_type = _fuel_type
|
||||
_generation_system.nominal_heat_output = archetype_generation_system.nominal_heat_output
|
||||
_generation_system.nominal_cooling_output = archetype_generation_system.nominal_cooling_output
|
||||
_generation_system.maximum_heat_output = archetype_generation_system.maximum_heat_output
|
||||
_generation_system.minimum_heat_output = archetype_generation_system.minimum_heat_output
|
||||
_generation_system.maximum_cooling_output = archetype_generation_system.maximum_cooling_output
|
||||
_generation_system.minimum_cooling_output = archetype_generation_system.minimum_cooling_output
|
||||
_generation_system.source_temperature = archetype_generation_system.source_temperature
|
||||
_generation_system.source_mass_flow = archetype_generation_system.source_mass_flow
|
||||
_generation_system.supply_medium = archetype_generation_system.supply_medium
|
||||
_generation_system.maximum_heat_supply_temperature = archetype_generation_system.maximum_heat_supply_temperature
|
||||
_generation_system.maximum_cooling_supply_temperature = archetype_generation_system.maximum_cooling_supply_temperature
|
||||
_generation_system.minimum_heat_supply_temperature = archetype_generation_system.minimum_heat_supply_temperature
|
||||
_generation_system.minimum_cooling_supply_temperature = archetype_generation_system.minimum_cooling_supply_temperature
|
||||
_generation_system.heat_output_curve = archetype_generation_system.heat_output_curve
|
||||
_generation_system.heat_fuel_consumption_curve = archetype_generation_system.heat_fuel_consumption_curve
|
||||
_generation_system.heat_efficiency_curve = archetype_generation_system.heat_efficiency_curve
|
||||
_generation_system.cooling_output_curve = archetype_generation_system.cooling_output_curve
|
||||
_generation_system.cooling_fuel_consumption_curve = archetype_generation_system.cooling_fuel_consumption_curve
|
||||
_generation_system.cooling_efficiency_curve = archetype_generation_system.cooling_efficiency_curve
|
||||
_generation_system.domestic_hot_water = archetype_generation_system.domestic_hot_water
|
||||
_generation_system.nominal_electricity_output = archetype_generation_system.nominal_electricity_output
|
||||
_generation_system.source_medium = archetype_generation_system.source_medium
|
||||
_generation_system.heat_efficiency = archetype_generation_system.heat_efficiency
|
||||
_generation_system.cooling_efficiency = archetype_generation_system.cooling_efficiency
|
||||
_generation_system.electricity_efficiency = archetype_generation_system.electricity_efficiency
|
||||
_generation_system.reversibility = archetype_generation_system.reversibility
|
||||
_generic_storage_system = None
|
||||
if archetype_generation_system.energy_storage_systems is not None:
|
||||
_storage_systems = []
|
||||
for storage_system in archetype_generation_system.energy_storage_systems:
|
||||
if storage_system.type_energy_stored == 'electrical':
|
||||
_generic_storage_system = ElectricalStorageSystem()
|
||||
_generic_storage_system.type_energy_stored = 'electrical'
|
||||
else:
|
||||
_generic_storage_system = ThermalStorageSystem()
|
||||
_generic_storage_system.type_energy_stored = storage_system.type_energy_stored
|
||||
_generic_storage_system.height = storage_system.height
|
||||
_generic_storage_system.layers = storage_system.layers
|
||||
_generic_storage_system.storage_medium = storage_system.storage_medium
|
||||
_generic_storage_system.heating_coil_capacity = storage_system.heating_coil_capacity
|
||||
_storage_systems.append(_generic_storage_system)
|
||||
_generation_system.energy_storage_systems = _storage_systems
|
||||
if archetype_generation_system.domestic_hot_water:
|
||||
_generation_system.domestic_hot_water = True
|
||||
if archetype_generation_system.reversibility:
|
||||
_generation_system.reversibility = True
|
||||
if archetype_generation_system.simultaneous_heat_cold:
|
||||
_generation_system.simultaneous_heat_cold = True
|
||||
_generation_systems.append(_generation_system)
|
||||
return _generation_systems
|
||||
|
||||
@staticmethod
|
||||
def _create_distribution_systems(archetype_system):
|
||||
_distribution_systems = []
|
||||
archetype_distribution_systems = archetype_system.distribution_systems
|
||||
if archetype_distribution_systems is not None:
|
||||
for archetype_distribution_system in archetype_system.distribution_systems:
|
||||
_distribution_system = DistributionSystem()
|
||||
_distribution_system.type = archetype_distribution_system.type
|
||||
_distribution_system.distribution_consumption_fix_flow = \
|
||||
archetype_distribution_system.distribution_consumption_fix_flow
|
||||
_distribution_system.distribution_consumption_variable_flow = \
|
||||
archetype_distribution_system.distribution_consumption_variable_flow
|
||||
_distribution_system.heat_losses = archetype_distribution_system.heat_losses
|
||||
_generic_emission_system = None
|
||||
if archetype_distribution_system.emission_systems is not None:
|
||||
_emission_systems = []
|
||||
for emission_system in archetype_distribution_system.emission_systems:
|
||||
_generic_emission_system = EmissionSystem()
|
||||
_generic_emission_system.parasitic_energy_consumption = emission_system.parasitic_energy_consumption
|
||||
_emission_systems.append(_generic_emission_system)
|
||||
_distribution_system.emission_systems = _emission_systems
|
||||
_distribution_systems.append(_distribution_system)
|
||||
return _distribution_systems
|
||||
|
||||
@staticmethod
|
||||
def _assign_energy_systems_to_buildings(city):
|
||||
for building in city.buildings:
|
||||
_building_energy_systems = []
|
||||
energy_systems_cluster_name = building.energy_systems_archetype_name
|
||||
if str(energy_systems_cluster_name) == 'nan':
|
||||
break
|
||||
_generic_building_energy_systems = city.generic_energy_systems[energy_systems_cluster_name]
|
||||
for _generic_building_energy_system in _generic_building_energy_systems:
|
||||
_building_energy_systems.append(copy.deepcopy(_generic_building_energy_system))
|
||||
|
||||
building.energy_systems = _building_energy_systems
|
@ -11,6 +11,7 @@ from hub.helpers.utils import validate_import_export_type
|
||||
from hub.imports.energy_systems.montreal_custom_energy_system_parameters import MontrealCustomEnergySystemParameters
|
||||
from hub.imports.energy_systems.north_america_custom_energy_system_parameters import NorthAmericaCustomEnergySystemParameters
|
||||
from hub.imports.energy_systems.montreal_future_energy_systems_parameters import MontrealFutureEnergySystemParameters
|
||||
from hub.imports.energy_systems.palma_energy_systems_parameters import PalmaEnergySystemParameters
|
||||
|
||||
class EnergySystemsFactory:
|
||||
"""
|
||||
@ -52,6 +53,15 @@ class EnergySystemsFactory:
|
||||
for building in self._city.buildings:
|
||||
building.level_of_detail.energy_systems = 2
|
||||
|
||||
def _palma(self):
|
||||
"""
|
||||
Enrich the city by using north america custom energy systems catalog information
|
||||
"""
|
||||
PalmaEnergySystemParameters(self._city).enrich_buildings()
|
||||
self._city.level_of_detail.energy_systems = 2
|
||||
for building in self._city.buildings:
|
||||
building.level_of_detail.energy_systems = 2
|
||||
|
||||
def enrich(self):
|
||||
"""
|
||||
Enrich the city given to the class using the class given handler
|
||||
|
@ -35,6 +35,8 @@ class Geojson:
|
||||
year_of_construction_field=None,
|
||||
function_field=None,
|
||||
function_to_hub=None,
|
||||
usages_field=None,
|
||||
usages_to_hub=None,
|
||||
hub_crs=None
|
||||
):
|
||||
self._hub_crs = hub_crs
|
||||
@ -52,6 +54,8 @@ class Geojson:
|
||||
self._year_of_construction_field = year_of_construction_field
|
||||
self._function_field = function_field
|
||||
self._function_to_hub = function_to_hub
|
||||
self._usages_field = usages_field
|
||||
self._usages_to_hub = usages_to_hub
|
||||
with open(path, 'r', encoding='utf8') as json_file:
|
||||
self._geojson = json.loads(json_file.read())
|
||||
|
||||
@ -117,24 +121,36 @@ class Geojson:
|
||||
lod = 0
|
||||
for feature in self._geojson['features']:
|
||||
extrusion_height = 0
|
||||
|
||||
if self._extrusion_height_field is not None:
|
||||
extrusion_height = float(feature['properties'][self._extrusion_height_field])
|
||||
lod = 1
|
||||
self._max_z = max(self._max_z, extrusion_height)
|
||||
year_of_construction = None
|
||||
|
||||
if self._year_of_construction_field is not None:
|
||||
year_of_construction = int(feature['properties'][self._year_of_construction_field])
|
||||
|
||||
function = None
|
||||
if self._function_field is not None:
|
||||
function = str(feature['properties'][self._function_field])
|
||||
if self._function_to_hub is not None:
|
||||
# use the transformation dictionary to retrieve the proper function
|
||||
if function in self._function_to_hub:
|
||||
function = self._function_to_hub[function]
|
||||
|
||||
usages = None
|
||||
if self._usages_field is not None:
|
||||
if self._usages_field in feature['properties']:
|
||||
usages = feature['properties'][self._usages_field]
|
||||
if self._usages_to_hub is not None:
|
||||
usages = self._usages_to_hub(usages)
|
||||
|
||||
geometry = feature['geometry']
|
||||
building_aliases = []
|
||||
if 'id' in feature:
|
||||
building_name = feature['id']
|
||||
elif 'id' in feature['properties']:
|
||||
building_name = feature['properties']['id']
|
||||
else:
|
||||
building_name = uuid.uuid4()
|
||||
if self._aliases_field is not None:
|
||||
@ -147,6 +163,7 @@ class Geojson:
|
||||
building_name,
|
||||
building_aliases,
|
||||
function,
|
||||
usages,
|
||||
year_of_construction,
|
||||
extrusion_height))
|
||||
|
||||
@ -155,6 +172,7 @@ class Geojson:
|
||||
building_name,
|
||||
building_aliases,
|
||||
function,
|
||||
usages,
|
||||
year_of_construction,
|
||||
extrusion_height))
|
||||
else:
|
||||
@ -180,7 +198,7 @@ class Geojson:
|
||||
transformed_coordinates = f'{transformed_coordinates} {transformed[self._X]} {transformed[self._Y]} 0.0'
|
||||
return transformed_coordinates.lstrip(' ')
|
||||
|
||||
def _parse_polygon(self, coordinates, building_name, building_aliases, function, year_of_construction, extrusion_height):
|
||||
def _parse_polygon(self, coordinates, building_name, building_aliases, function, usages, year_of_construction, extrusion_height):
|
||||
surfaces = []
|
||||
for polygon_coordinates in coordinates:
|
||||
points = igh.points_from_string(
|
||||
@ -213,7 +231,7 @@ class Geojson:
|
||||
polygon = Polygon(coordinates)
|
||||
polygon.area = igh.ground_area(coordinates)
|
||||
surfaces[-1] = Surface(polygon, polygon)
|
||||
building = Building(f'{building_name}', surfaces, year_of_construction, function)
|
||||
building = Building(f'{building_name}', surfaces, year_of_construction, function, usages=usages)
|
||||
for alias in building_aliases:
|
||||
building.add_alias(alias)
|
||||
if extrusion_height == 0:
|
||||
@ -248,13 +266,13 @@ class Geojson:
|
||||
polygon = Polygon(wall_coordinates)
|
||||
wall = Surface(polygon, polygon)
|
||||
surfaces.append(wall)
|
||||
building = Building(f'{building_name}', surfaces, year_of_construction, function)
|
||||
building = Building(f'{building_name}', surfaces, year_of_construction, function, usages=usages)
|
||||
for alias in building_aliases:
|
||||
building.add_alias(alias)
|
||||
building.volume = volume
|
||||
return building
|
||||
|
||||
def _parse_multi_polygon(self, polygons_coordinates, building_name, building_aliases, function, year_of_construction, extrusion_height):
|
||||
def _parse_multi_polygon(self, polygons_coordinates, building_name, building_aliases, function, usages, year_of_construction, extrusion_height):
|
||||
surfaces = []
|
||||
for coordinates in polygons_coordinates:
|
||||
for polygon_coordinates in coordinates:
|
||||
@ -287,7 +305,7 @@ class Geojson:
|
||||
polygon = Polygon(coordinates)
|
||||
polygon.area = igh.ground_area(coordinates)
|
||||
surfaces[-1] = Surface(polygon, polygon)
|
||||
building = Building(f'{building_name}', surfaces, year_of_construction, function)
|
||||
building = Building(f'{building_name}', surfaces, year_of_construction, function, usages=usages)
|
||||
for alias in building_aliases:
|
||||
building.add_alias(alias)
|
||||
if extrusion_height == 0:
|
||||
@ -322,7 +340,7 @@ class Geojson:
|
||||
polygon = Polygon(wall_coordinates)
|
||||
wall = Surface(polygon, polygon)
|
||||
surfaces.append(wall)
|
||||
building = Building(f'{building_name}', surfaces, year_of_construction, function)
|
||||
building = Building(f'{building_name}', surfaces, year_of_construction, function, usages=usages)
|
||||
for alias in building_aliases:
|
||||
building.add_alias(alias)
|
||||
building.volume = volume
|
||||
|
@ -23,6 +23,8 @@ class GeometryFactory:
|
||||
year_of_construction_field=None,
|
||||
function_field=None,
|
||||
function_to_hub=None,
|
||||
usages_field=None,
|
||||
usages_to_hub=None,
|
||||
hub_crs=None):
|
||||
self._file_type = '_' + file_type.lower()
|
||||
validate_import_export_type(GeometryFactory, file_type)
|
||||
@ -32,6 +34,8 @@ class GeometryFactory:
|
||||
self._year_of_construction_field = year_of_construction_field
|
||||
self._function_field = function_field
|
||||
self._function_to_hub = function_to_hub
|
||||
self._usages_field = usages_field
|
||||
self._usages_to_hub = usages_to_hub
|
||||
self._hub_crs = hub_crs
|
||||
|
||||
@property
|
||||
@ -66,6 +70,8 @@ class GeometryFactory:
|
||||
self._year_of_construction_field,
|
||||
self._function_field,
|
||||
self._function_to_hub,
|
||||
self._usages_field,
|
||||
self._usages_to_hub,
|
||||
self._hub_crs).city
|
||||
|
||||
@property
|
||||
|
@ -1,14 +1,12 @@
|
||||
"""
|
||||
Insel monthly energy balance
|
||||
Cerc Idf result import
|
||||
SPDX - License - Identifier: LGPL - 3.0 - or -later
|
||||
Copyright © 2022 Concordia CERC group
|
||||
Project Coder Saeed Ranjbar saeed.ranjbar@concordia.ca
|
||||
Project collaborator Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca
|
||||
Project Coder Guille Guillermo.GutierrezMorote@concordia.ca
|
||||
Code contributors: Saeed Ranjbar saeed.ranjbar@concordia.ca
|
||||
"""
|
||||
from pathlib import Path
|
||||
import csv
|
||||
|
||||
from hub.helpers.monthly_values import MonthlyValues
|
||||
import hub.helpers.constants as cte
|
||||
|
||||
|
||||
@ -16,62 +14,33 @@ class EnergyPlus:
|
||||
"""
|
||||
Energy plus class
|
||||
"""
|
||||
def __init__(self, city, base_path):
|
||||
|
||||
def _extract_fields_from_headers(self, headers):
|
||||
for header in headers:
|
||||
header_parts = header.split(':')
|
||||
building_name = header_parts[0]
|
||||
variable = ':'.join(header_parts[1:]).strip() # concat the rest and ensure that : it's reintroduced just in case
|
||||
if variable == '':
|
||||
continue
|
||||
if building_name not in self._summary_variables:
|
||||
self._building_energy_demands[variable] = [] # initialize the list of variables
|
||||
else:
|
||||
self._building_energy_demands[header] = []
|
||||
|
||||
def __init__(self, city, file_path):
|
||||
self._city = city
|
||||
self._base_path = base_path
|
||||
self._building_energy_demands = {}
|
||||
self._lines = []
|
||||
self._summary_variables = ['DistrictCooling:Facility [J](Hourly)',
|
||||
'InteriorEquipment:Electricity [J](Hourly)',
|
||||
'InteriorLights:Electricity [J](Hourly) ']
|
||||
|
||||
@staticmethod
|
||||
def _building_energy_demands(energy_plus_output_file_path):
|
||||
with open(Path(energy_plus_output_file_path).resolve(), 'r', encoding='utf8') as csv_file:
|
||||
with open(file_path, 'r', encoding='utf8') as csv_file:
|
||||
csv_output = csv.reader(csv_file)
|
||||
headers = next(csv_output)
|
||||
building_energy_demands = {
|
||||
'Heating (J)': [],
|
||||
'Cooling (J)': [],
|
||||
'DHW (J)': [],
|
||||
'Appliances (J)': [],
|
||||
'Lighting (J)': []
|
||||
}
|
||||
heating_column_index = []
|
||||
cooling_column_index = []
|
||||
dhw_column_index = []
|
||||
appliance_column_index = []
|
||||
lighting_column_index = []
|
||||
for index, header in enumerate(headers):
|
||||
if "Total Heating" in header:
|
||||
heating_column_index.append(index)
|
||||
elif "Total Cooling" in header:
|
||||
cooling_column_index.append(index)
|
||||
elif "DHW" in header:
|
||||
dhw_column_index.append(index)
|
||||
elif "InteriorEquipment" in header:
|
||||
appliance_column_index.append(index)
|
||||
elif "InteriorLights" in header:
|
||||
lighting_column_index.append(index)
|
||||
|
||||
self._headers = next(csv_output)
|
||||
self._extract_fields_from_headers(self._headers)
|
||||
for line in csv_output:
|
||||
total_heating_demand = 0
|
||||
total_cooling_demand = 0
|
||||
total_dhw_demand = 0
|
||||
total_appliance_demand = 0
|
||||
total_lighting_demand = 0
|
||||
for heating_index in heating_column_index:
|
||||
total_heating_demand += float(line[heating_index])
|
||||
building_energy_demands['Heating (J)'].append(total_heating_demand)
|
||||
for cooling_index in cooling_column_index:
|
||||
total_cooling_demand += float(line[cooling_index])
|
||||
building_energy_demands['Cooling (J)'].append(total_cooling_demand)
|
||||
for dhw_index in dhw_column_index:
|
||||
total_dhw_demand += float(line[dhw_index]) * 3600
|
||||
building_energy_demands['DHW (J)'].append(total_dhw_demand)
|
||||
for appliance_index in appliance_column_index:
|
||||
total_appliance_demand += float(line[appliance_index])
|
||||
building_energy_demands['Appliances (J)'].append(total_appliance_demand)
|
||||
for lighting_index in lighting_column_index:
|
||||
total_lighting_demand += float(line[lighting_index])
|
||||
building_energy_demands['Lighting (J)'].append(total_lighting_demand)
|
||||
|
||||
return building_energy_demands
|
||||
self._lines.append(line)
|
||||
|
||||
def enrich(self):
|
||||
"""
|
||||
@ -79,27 +48,58 @@ class EnergyPlus:
|
||||
:return: None
|
||||
"""
|
||||
for building in self._city.buildings:
|
||||
file_name = f'{building.name}_out.csv'
|
||||
energy_plus_output_file_path = Path(self._base_path / file_name).resolve()
|
||||
if energy_plus_output_file_path.is_file():
|
||||
building_energy_demands = self._building_energy_demands(energy_plus_output_file_path)
|
||||
building.heating_demand[cte.HOUR] = building_energy_demands['Heating (J)']
|
||||
building.cooling_demand[cte.HOUR] = building_energy_demands['Cooling (J)']
|
||||
building.domestic_hot_water_heat_demand[cte.HOUR] = building_energy_demands['DHW (J)']
|
||||
building.appliances_electrical_demand[cte.HOUR] = building_energy_demands['Appliances (J)']
|
||||
building.lighting_electrical_demand[cte.HOUR] = building_energy_demands['Lighting (J)']
|
||||
# todo: @Saeed, this a list of ONE value with the total energy of the year, exactly the same as cte.YEAR.
|
||||
# You have to use the method to add hourly values from helpers/monthly_values
|
||||
building.heating_demand[cte.MONTH] = MonthlyValues.get_total_month(building.heating_demand[cte.HOUR])
|
||||
building.cooling_demand[cte.MONTH] = MonthlyValues.get_total_month(building.cooling_demand[cte.HOUR])
|
||||
building.domestic_hot_water_heat_demand[cte.MONTH] = (
|
||||
MonthlyValues.get_total_month(building.domestic_hot_water_heat_demand[cte.HOUR]))
|
||||
building.appliances_electrical_demand[cte.MONTH] = (
|
||||
MonthlyValues.get_total_month(building.appliances_electrical_demand[cte.HOUR]))
|
||||
building.lighting_electrical_demand[cte.MONTH] = (
|
||||
MonthlyValues.get_total_month(building.lighting_electrical_demand[cte.HOUR]))
|
||||
building.heating_demand[cte.YEAR] = [sum(building.heating_demand[cte.MONTH])]
|
||||
building.cooling_demand[cte.YEAR] = [sum(building.cooling_demand[cte.MONTH])]
|
||||
building.domestic_hot_water_heat_demand[cte.YEAR] = [sum(building.domestic_hot_water_heat_demand[cte.MONTH])]
|
||||
building.appliances_electrical_demand[cte.YEAR] = [sum(building.appliances_electrical_demand[cte.MONTH])]
|
||||
building.lighting_electrical_demand[cte.YEAR] = [sum(building.lighting_electrical_demand[cte.MONTH])]
|
||||
_energy_demands = {}
|
||||
for header in self._building_energy_demands:
|
||||
print(header)
|
||||
if header == 'Zone Ideal Loads Supply Air Total Heating Energy [J](Hourly)':
|
||||
field_name = f'{building.name} IDEAL LOADS AIR SYSTEM:{header}'
|
||||
elif header == 'Zone Ideal Loads Supply Air Total Cooling Energy [J](Hourly)':
|
||||
field_name = f'{building.name} IDEAL LOADS AIR SYSTEM:{header}'
|
||||
else:
|
||||
field_name = f'{building.name}:{header}'
|
||||
position = -1
|
||||
if field_name in self._headers:
|
||||
position = self._headers.index(field_name)
|
||||
if position == -1:
|
||||
continue
|
||||
for line in self._lines:
|
||||
if header not in _energy_demands.keys():
|
||||
_energy_demands[header] = []
|
||||
_energy_demands[header].append(line[position])
|
||||
# print(building_energy_demands['Zone Ideal Loads Supply Air Total Heating Energy [J](Hourly)'])
|
||||
EnergyPlus._set_building_demands(building, _energy_demands)
|
||||
|
||||
@staticmethod
|
||||
def _set_building_demands(building, energy_demands):
|
||||
print(energy_demands.keys())
|
||||
heating = [float(x) for x in energy_demands['Zone Ideal Loads Supply Air Total Heating Energy [J](Hourly)']]
|
||||
cooling = [float(x) for x in energy_demands['Zone Ideal Loads Supply Air Total Cooling Energy [J](Hourly)']]
|
||||
dhw = [float(x) * cte.WATTS_HOUR_TO_JULES for x in energy_demands['Water Use Equipment Heating Rate [W](Hourly)']]
|
||||
appliances = [float(x) * cte.WATTS_HOUR_TO_JULES for x in energy_demands['Other Equipment Electricity Rate [W](Hourly)']]
|
||||
lighting = [float(x) * cte.WATTS_HOUR_TO_JULES for x in energy_demands['Zone Lights Electricity Rate [W](Hourly)']]
|
||||
building.heating_demand[cte.HOUR] = heating
|
||||
building.cooling_demand[cte.HOUR] = cooling
|
||||
building.domestic_hot_water_heat_demand[cte.HOUR] = dhw
|
||||
building.appliances_electrical_demand[cte.HOUR] = appliances
|
||||
building.lighting_electrical_demand[cte.HOUR] = lighting
|
||||
building.heating_demand[cte.MONTH] = []
|
||||
building.cooling_demand[cte.MONTH] = []
|
||||
building.domestic_hot_water_heat_demand[cte.MONTH] = []
|
||||
building.appliances_electrical_demand[cte.MONTH] = []
|
||||
building.lighting_electrical_demand[cte.MONTH] = []
|
||||
|
||||
start = 0
|
||||
|
||||
for hours in cte.HOURS_A_MONTH.values():
|
||||
end = hours + start
|
||||
building.heating_demand[cte.MONTH].append(sum(building.heating_demand[cte.HOUR][start: end]))
|
||||
building.cooling_demand[cte.MONTH].append(sum(building.cooling_demand[cte.HOUR][start: end]))
|
||||
building.domestic_hot_water_heat_demand[cte.MONTH].append(sum(dhw[start: end]))
|
||||
building.appliances_electrical_demand[cte.MONTH].append(sum(appliances[start: end]))
|
||||
building.lighting_electrical_demand[cte.MONTH].append(sum(lighting[start: end]))
|
||||
start = end
|
||||
building.heating_demand[cte.YEAR] = [sum(building.heating_demand[cte.HOUR])]
|
||||
building.cooling_demand[cte.YEAR] = [sum(building.cooling_demand[cte.HOUR])]
|
||||
building.domestic_hot_water_heat_demand[cte.YEAR] = [sum(building.domestic_hot_water_heat_demand[cte.HOUR])]
|
||||
building.appliances_electrical_demand[cte.YEAR] = [sum(building.appliances_electrical_demand[cte.HOUR])]
|
||||
building.lighting_electrical_demand[cte.YEAR] = [sum(building.lighting_electrical_demand[cte.HOUR])]
|
||||
|
@ -22,9 +22,11 @@ class EnergyPlusMultipleBuildings:
|
||||
|
||||
with open(Path(energy_plus_output_file_path).resolve(), 'r', encoding='utf8') as csv_file:
|
||||
csv_output = list(csv.DictReader(csv_file))
|
||||
|
||||
print(csv_output)
|
||||
return
|
||||
for building in self._city.buildings:
|
||||
building_name = building.name
|
||||
building_name = building.name.upper()
|
||||
|
||||
buildings_energy_demands[f'Building {building_name} Heating Demand (J)'] = [
|
||||
float(
|
||||
row[f"{building_name} IDEAL LOADS AIR SYSTEM:Zone Ideal Loads Supply Air Total Heating Energy [J](Hourly)"])
|
||||
@ -36,7 +38,7 @@ class EnergyPlusMultipleBuildings:
|
||||
for row in csv_output
|
||||
]
|
||||
buildings_energy_demands[f'Building {building_name} DHW Demand (W)'] = [
|
||||
float(row[f"DHW {building.name}:Water Use Equipment Heating Rate [W](Hourly)"])
|
||||
float(row[f"DHW {building_name}:Water Use Equipment Heating Rate [W](Hourly)"])
|
||||
for row in csv_output
|
||||
]
|
||||
buildings_energy_demands[f'Building {building_name} Appliances (W)'] = [
|
||||
@ -58,14 +60,15 @@ class EnergyPlusMultipleBuildings:
|
||||
if energy_plus_output_file_path.is_file():
|
||||
building_energy_demands = self._building_energy_demands(energy_plus_output_file_path)
|
||||
for building in self._city.buildings:
|
||||
building.heating_demand[cte.HOUR] = building_energy_demands[f'Building {building.name} Heating Demand (J)']
|
||||
building.cooling_demand[cte.HOUR] = building_energy_demands[f'Building {building.name} Cooling Demand (J)']
|
||||
building_name = building.name.upper()
|
||||
building.heating_demand[cte.HOUR] = building_energy_demands[f'Building {building_name} Heating Demand (J)']
|
||||
building.cooling_demand[cte.HOUR] = building_energy_demands[f'Building {building_name} Cooling Demand (J)']
|
||||
building.domestic_hot_water_heat_demand[cte.HOUR] = \
|
||||
[x * cte.WATTS_HOUR_TO_JULES for x in building_energy_demands[f'Building {building.name} DHW Demand (W)']]
|
||||
[x * cte.WATTS_HOUR_TO_JULES for x in building_energy_demands[f'Building {building_name} DHW Demand (W)']]
|
||||
building.appliances_electrical_demand[cte.HOUR] = \
|
||||
[x * cte.WATTS_HOUR_TO_JULES for x in building_energy_demands[f'Building {building.name} Appliances (W)']]
|
||||
[x * cte.WATTS_HOUR_TO_JULES for x in building_energy_demands[f'Building {building_name} Appliances (W)']]
|
||||
building.lighting_electrical_demand[cte.HOUR] = \
|
||||
[x * cte.WATTS_HOUR_TO_JULES for x in building_energy_demands[f'Building {building.name} Lighting (W)']]
|
||||
[x * cte.WATTS_HOUR_TO_JULES for x in building_energy_demands[f'Building {building_name} Lighting (W)']]
|
||||
building.heating_demand[cte.MONTH] = MonthlyValues.get_total_month(building.heating_demand[cte.HOUR])
|
||||
building.cooling_demand[cte.MONTH] = MonthlyValues.get_total_month(building.cooling_demand[cte.HOUR])
|
||||
building.domestic_hot_water_heat_demand[cte.MONTH] = (
|
||||
|
@ -34,7 +34,7 @@ class SimplifiedRadiosityAlgorithm:
|
||||
for key in self._results:
|
||||
_irradiance = {}
|
||||
header_name = key.split(':')
|
||||
result = [x * cte.WATTS_HOUR_TO_JULES for x in self._results[key]]
|
||||
result = [x for x in self._results[key]]
|
||||
city_object_name = header_name[1]
|
||||
building = self._city.city_object(city_object_name)
|
||||
surface_id = header_name[2]
|
||||
|
@ -8,6 +8,7 @@ Code contributors: Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concord
|
||||
from pathlib import Path
|
||||
|
||||
from hub.helpers.utils import validate_import_export_type
|
||||
from hub.imports.results.energy_plus import EnergyPlus
|
||||
from hub.imports.results.insel_monthly_energry_balance import InselMonthlyEnergyBalance
|
||||
from hub.imports.results.simplified_radiosity_algorithm import SimplifiedRadiosityAlgorithm
|
||||
|
||||
@ -60,6 +61,9 @@ class ResultFactory:
|
||||
"""
|
||||
EnergyPlusMultipleBuildings(self._city, self._base_path).enrich()
|
||||
|
||||
def _cerc_idf(self):
|
||||
EnergyPlus(self._city, self._base_path).enrich()
|
||||
|
||||
def enrich(self):
|
||||
"""
|
||||
Enrich the city given to the class using the usage factory given handler
|
||||
|
@ -3,6 +3,7 @@ ComnetUsageParameters extracts the usage properties from Comnet catalog and assi
|
||||
SPDX - License - Identifier: LGPL - 3.0 - or -later
|
||||
Copyright © 2022 Concordia CERC group
|
||||
Project Coder Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca
|
||||
Project Collaborator Saeed Ranjbar saeed.ranjbar@concordia.ca
|
||||
"""
|
||||
import copy
|
||||
import logging
|
||||
@ -18,6 +19,8 @@ from hub.city_model_structure.building_demand.domestic_hot_water import Domestic
|
||||
from hub.city_model_structure.attributes.schedule import Schedule
|
||||
from hub.city_model_structure.building_demand.internal_gain import InternalGain
|
||||
from hub.catalog_factories.usage_catalog_factory import UsageCatalogFactory
|
||||
from hub.catalog_factories.construction_catalog_factory import ConstructionCatalogFactory
|
||||
from hub.imports.construction.helpers.construction_helper import ConstructionHelper
|
||||
|
||||
|
||||
class ComnetUsageParameters:
|
||||
@ -35,28 +38,63 @@ class ComnetUsageParameters:
|
||||
city = self._city
|
||||
comnet_catalog = UsageCatalogFactory('comnet').catalog
|
||||
for building in city.buildings:
|
||||
usage_name = Dictionaries().hub_usage_to_comnet_usage[building.function]
|
||||
comnet_archetype_usages = []
|
||||
usages = building.usages
|
||||
for usage in usages:
|
||||
comnet_usage_name = Dictionaries().hub_usage_to_comnet_usage[usage['usage']]
|
||||
try:
|
||||
archetype_usage = self._search_archetypes(comnet_catalog, usage_name)
|
||||
comnet_archetype_usage = self._search_archetypes(comnet_catalog, comnet_usage_name)
|
||||
comnet_archetype_usages.append(comnet_archetype_usage)
|
||||
except KeyError:
|
||||
logging.error('Building %s has unknown usage archetype for usage %s', building.name, usage_name)
|
||||
logging.error('Building %s has unknown usage archetype for usage %s', building.name, comnet_usage_name)
|
||||
continue
|
||||
|
||||
for internal_zone in building.internal_zones:
|
||||
for (i, internal_zone) in enumerate(building.internal_zones):
|
||||
internal_zone_usages = []
|
||||
if len(building.internal_zones) > 1:
|
||||
volume_per_area = 0
|
||||
if internal_zone.area is None:
|
||||
raise TypeError('Internal zone area not defined, ACH cannot be calculated')
|
||||
logging.error('Building %s has internal zone area not defined, ACH cannot be calculated for usage %s',
|
||||
building.name, usages[i]['usage'])
|
||||
continue
|
||||
if internal_zone.volume is None:
|
||||
raise TypeError('Internal zone volume not defined, ACH cannot be calculated')
|
||||
logging.error('Building %s has internal zone volume not defined, ACH cannot be calculated for usage %s',
|
||||
building.name, usages[i]['usage'])
|
||||
continue
|
||||
if internal_zone.area <= 0:
|
||||
raise TypeError('Internal zone area is zero, ACH cannot be calculated')
|
||||
volume_per_area = internal_zone.volume / internal_zone.area
|
||||
logging.error('Building %s has internal zone area equal to 0, ACH cannot be calculated for usage %s',
|
||||
building.name, usages[i]['usage'])
|
||||
continue
|
||||
volume_per_area += internal_zone.volume / internal_zone.area
|
||||
usage = Usage()
|
||||
usage.name = usage_name
|
||||
self._assign_values(usage, archetype_usage, volume_per_area, building.cold_water_temperature)
|
||||
usage.name = usages[i]['usage']
|
||||
self._assign_values(usage, comnet_archetype_usages[i], volume_per_area, building.cold_water_temperature)
|
||||
usage.percentage = 1
|
||||
self._calculate_reduced_values_from_extended_library(usage, archetype_usage)
|
||||
self._calculate_reduced_values_from_extended_library(usage, comnet_archetype_usages[i])
|
||||
internal_zone_usages.append(usage)
|
||||
else:
|
||||
storeys_above_ground = building.storeys_above_ground
|
||||
if storeys_above_ground is None:
|
||||
logging.error('Building %s no number of storeys assigned, ACH cannot be calculated for usage %s. '
|
||||
'NRCAN construction data for the year %s is used to calculated number of storeys above '
|
||||
'ground', building.name, usages, building.year_of_construction)
|
||||
try:
|
||||
storeys_above_ground = self.average_storey_height_calculator(self._city, building)
|
||||
except ValueError as e:
|
||||
logging.error(e)
|
||||
continue
|
||||
|
||||
internal_zone.usages = [usage]
|
||||
volume_per_area = building.volume / building.floor_area / storeys_above_ground
|
||||
for j, usage_type in enumerate(usages):
|
||||
usage = Usage()
|
||||
usage.name = usage_type['usage']
|
||||
usage.percentage = float(usage_type['ratio'])
|
||||
|
||||
self._assign_values(usage, comnet_archetype_usages[j], volume_per_area, building.cold_water_temperature)
|
||||
self._calculate_reduced_values_from_extended_library(usage, comnet_archetype_usages[j])
|
||||
internal_zone_usages.append(usage)
|
||||
|
||||
internal_zone.usages = internal_zone_usages
|
||||
|
||||
@staticmethod
|
||||
def _search_archetypes(comnet_catalog, usage_name):
|
||||
@ -229,3 +267,28 @@ class ComnetUsageParameters:
|
||||
_mean_internal_gain.schedules = _schedules
|
||||
|
||||
return [_mean_internal_gain]
|
||||
|
||||
@staticmethod
|
||||
def average_storey_height_calculator(city, building):
|
||||
climate_zone = ConstructionHelper.city_to_nrcan_climate_zone(city.climate_reference_city)
|
||||
nrcan_catalog = ConstructionCatalogFactory('nrcan').catalog
|
||||
|
||||
if building.function not in Dictionaries().hub_function_to_nrcan_construction_function:
|
||||
raise ValueError('Building %s has an unknown building function %s', building.name, building.function)
|
||||
|
||||
function = Dictionaries().hub_function_to_nrcan_construction_function[building.function]
|
||||
construction_archetype = None
|
||||
average_storey_height = None
|
||||
nrcan_archetypes = nrcan_catalog.entries('archetypes')
|
||||
for building_archetype in nrcan_archetypes:
|
||||
construction_period_limits = building_archetype.construction_period.split('_')
|
||||
if int(construction_period_limits[0]) <= int(building.year_of_construction) <= int(construction_period_limits[1]):
|
||||
if str(function) == str(building_archetype.function) and climate_zone == str(building_archetype.climate_zone):
|
||||
construction_archetype = building_archetype
|
||||
average_storey_height = building_archetype.average_storey_height
|
||||
if construction_archetype is None:
|
||||
raise ValueError('Building %s has unknown construction archetype for building function: %s '
|
||||
'[%s], building year of construction: %s and climate zone %s', building.name, function,
|
||||
building.function, building.year_of_construction, climate_zone)
|
||||
|
||||
return average_storey_height
|
||||
|
@ -3,11 +3,13 @@ NrcanUsageParameters extracts the usage properties from NRCAN catalog and assign
|
||||
SPDX - License - Identifier: LGPL - 3.0 - or -later
|
||||
Copyright © 2022 Concordia CERC group
|
||||
Project Coder Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca
|
||||
Project Collaborator Saeed Ranjbar saeed.ranjbar@concordia.ca
|
||||
"""
|
||||
|
||||
import logging
|
||||
|
||||
import hub.helpers.constants as cte
|
||||
from hub.catalog_factories.construction_catalog_factory import ConstructionCatalogFactory
|
||||
from hub.helpers.dictionaries import Dictionaries
|
||||
from hub.city_model_structure.building_demand.usage import Usage
|
||||
from hub.city_model_structure.building_demand.lighting import Lighting
|
||||
@ -16,6 +18,7 @@ from hub.city_model_structure.building_demand.appliances import Appliances
|
||||
from hub.city_model_structure.building_demand.thermal_control import ThermalControl
|
||||
from hub.city_model_structure.building_demand.domestic_hot_water import DomesticHotWater
|
||||
from hub.catalog_factories.usage_catalog_factory import UsageCatalogFactory
|
||||
from hub.imports.construction.helpers.construction_helper import ConstructionHelper
|
||||
|
||||
|
||||
class NrcanUsageParameters:
|
||||
@ -33,53 +36,74 @@ class NrcanUsageParameters:
|
||||
city = self._city
|
||||
nrcan_catalog = UsageCatalogFactory('nrcan').catalog
|
||||
comnet_catalog = UsageCatalogFactory('comnet').catalog
|
||||
|
||||
for building in city.buildings:
|
||||
usage_name = Dictionaries().hub_usage_to_nrcan_usage[building.function]
|
||||
nrcan_archetype_usages = []
|
||||
comnet_archetype_usages = []
|
||||
usages = building.usages
|
||||
for usage in usages:
|
||||
usage_name = Dictionaries().hub_usage_to_nrcan_usage[usage['usage']]
|
||||
try:
|
||||
archetype_usage = self._search_archetypes(nrcan_catalog, usage_name)
|
||||
nrcan_archetype_usages.append(archetype_usage)
|
||||
except KeyError:
|
||||
logging.error('Building %s has unknown usage archetype for usage %s', building.name, usage_name)
|
||||
continue
|
||||
|
||||
comnet_usage_name = Dictionaries().hub_usage_to_comnet_usage[building.function]
|
||||
comnet_usage_name = Dictionaries().hub_usage_to_comnet_usage[usage['usage']]
|
||||
try:
|
||||
comnet_archetype_usage = self._search_archetypes(comnet_catalog, comnet_usage_name)
|
||||
comnet_archetype_usages.append(comnet_archetype_usage)
|
||||
except KeyError:
|
||||
logging.error('Building %s has unknown usage archetype for usage %s', building.name, comnet_usage_name)
|
||||
continue
|
||||
|
||||
for internal_zone in building.internal_zones:
|
||||
for (i, internal_zone) in enumerate(building.internal_zones):
|
||||
internal_zone_usages = []
|
||||
if len(building.internal_zones) > 1:
|
||||
volume_per_area = 0
|
||||
if internal_zone.area is None:
|
||||
logging.error('Building %s has internal zone area not defined, ACH cannot be calculated for usage %s',
|
||||
building.name, usage_name)
|
||||
building.name, usages[i]['usage'])
|
||||
continue
|
||||
if internal_zone.volume is None:
|
||||
logging.error('Building %s has internal zone volume not defined, ACH cannot be calculated for usage %s',
|
||||
building.name, usage_name)
|
||||
building.name, usages[i]['usage'])
|
||||
continue
|
||||
if internal_zone.area <= 0:
|
||||
logging.error('Building %s has internal zone area equal to 0, ACH cannot be calculated for usage %s',
|
||||
building.name, usage_name)
|
||||
building.name, usages[i]['usage'])
|
||||
continue
|
||||
volume_per_area += internal_zone.volume / internal_zone.area
|
||||
else:
|
||||
if building.storeys_above_ground is None:
|
||||
logging.error('Building %s no number of storeys assigned, ACH cannot be calculated for usage %s',
|
||||
building.name, usage_name)
|
||||
continue
|
||||
volume_per_area = building.volume / building.floor_area / building.storeys_above_ground
|
||||
|
||||
usage = Usage()
|
||||
usage.name = usage_name
|
||||
self._assign_values(usage, archetype_usage, volume_per_area, building.cold_water_temperature)
|
||||
self._assign_comnet_extra_values(usage, comnet_archetype_usage, archetype_usage.occupancy.occupancy_density)
|
||||
usage.name = usages[i]['usage']
|
||||
self._assign_values(usage, nrcan_archetype_usages[i], volume_per_area, building.cold_water_temperature)
|
||||
self._assign_comnet_extra_values(usage, comnet_archetype_usages[i], nrcan_archetype_usages[i].occupancy.occupancy_density)
|
||||
usage.percentage = 1
|
||||
self._calculate_reduced_values_from_extended_library(usage, archetype_usage)
|
||||
self._calculate_reduced_values_from_extended_library(usage, nrcan_archetype_usages[i])
|
||||
internal_zone_usages.append(usage)
|
||||
else:
|
||||
storeys_above_ground = building.storeys_above_ground
|
||||
if storeys_above_ground is None:
|
||||
logging.error('Building %s no number of storeys assigned, ACH cannot be calculated for function %s. '
|
||||
'NRCAN construction data for the year %s is used to calculated number of storeys above '
|
||||
'ground', building.name, building.function, building.year_of_construction)
|
||||
try:
|
||||
storeys_above_ground = self.average_storey_height_calculator(self._city, building)
|
||||
except ValueError as e:
|
||||
logging.error(e)
|
||||
continue
|
||||
|
||||
internal_zone.usages = [usage]
|
||||
volume_per_area = building.volume / building.floor_area / storeys_above_ground
|
||||
for j, usage_type in enumerate(usages):
|
||||
usage = Usage()
|
||||
usage.name = usage_type['usage']
|
||||
usage.percentage = float(usage_type['ratio'])
|
||||
|
||||
self._assign_values(usage, nrcan_archetype_usages[j], volume_per_area, building.cold_water_temperature)
|
||||
self._assign_comnet_extra_values(usage, comnet_archetype_usages[j], nrcan_archetype_usages[j].occupancy.occupancy_density)
|
||||
self._calculate_reduced_values_from_extended_library(usage, nrcan_archetype_usages[j])
|
||||
internal_zone_usages.append(usage)
|
||||
|
||||
internal_zone.usages = internal_zone_usages
|
||||
|
||||
@staticmethod
|
||||
def _search_archetypes(catalog, usage_name):
|
||||
@ -197,3 +221,30 @@ class NrcanUsageParameters:
|
||||
usage.thermal_control.mean_heating_set_point = max_heating_setpoint
|
||||
usage.thermal_control.heating_set_back = min_heating_setpoint
|
||||
usage.thermal_control.mean_cooling_set_point = min_cooling_setpoint
|
||||
|
||||
@staticmethod
|
||||
def average_storey_height_calculator(city, building):
|
||||
climate_zone = ConstructionHelper.city_to_nrcan_climate_zone(city.climate_reference_city)
|
||||
nrcan_catalog = ConstructionCatalogFactory('nrcan').catalog
|
||||
|
||||
if building.function not in Dictionaries().hub_function_to_nrcan_construction_function:
|
||||
raise ValueError('Building %s has an unknown building function %s', building.name, building.function)
|
||||
|
||||
function = Dictionaries().hub_function_to_nrcan_construction_function[building.function]
|
||||
construction_archetype = None
|
||||
average_storey_height = None
|
||||
nrcan_archetypes = nrcan_catalog.entries('archetypes')
|
||||
for building_archetype in nrcan_archetypes:
|
||||
construction_period_limits = building_archetype.construction_period.split('_')
|
||||
if int(construction_period_limits[0]) <= int(building.year_of_construction) <= int(construction_period_limits[1]):
|
||||
if str(function) == str(building_archetype.function) and climate_zone == str(building_archetype.climate_zone):
|
||||
construction_archetype = building_archetype
|
||||
average_storey_height = building_archetype.average_storey_height
|
||||
if construction_archetype is None:
|
||||
raise ValueError('Building %s has unknown construction archetype for building function: %s '
|
||||
'[%s], building year of construction: %s and climate zone %s', building.name, function,
|
||||
building.function, building.year_of_construction, climate_zone)
|
||||
|
||||
return average_storey_height
|
||||
|
||||
|
||||
|
174
hub/imports/usage/palma_usage_parameters.py
Normal file
174
hub/imports/usage/palma_usage_parameters.py
Normal file
@ -0,0 +1,174 @@
|
||||
"""
|
||||
PalmaUsageParameters extracts the usage properties from Palma catalog and assigns to each building
|
||||
SPDX - License - Identifier: LGPL - 3.0 - or -later
|
||||
Copyright © 2022 Concordia CERC group
|
||||
Project Coder Cecilia Pérez cperez@irec.cat
|
||||
"""
|
||||
|
||||
import logging
|
||||
|
||||
import hub.helpers.constants as cte
|
||||
from hub.helpers.dictionaries import Dictionaries
|
||||
from hub.city_model_structure.building_demand.usage import Usage
|
||||
from hub.city_model_structure.building_demand.lighting import Lighting
|
||||
from hub.city_model_structure.building_demand.occupancy import Occupancy
|
||||
from hub.city_model_structure.building_demand.appliances import Appliances
|
||||
from hub.city_model_structure.building_demand.thermal_control import ThermalControl
|
||||
from hub.city_model_structure.building_demand.domestic_hot_water import DomesticHotWater
|
||||
from hub.catalog_factories.usage_catalog_factory import UsageCatalogFactory
|
||||
|
||||
|
||||
class PalmaUsageParameters:
|
||||
"""
|
||||
PalmaUsageParameters class
|
||||
"""
|
||||
def __init__(self, city):
|
||||
self._city = city
|
||||
|
||||
def enrich_buildings(self):
|
||||
"""
|
||||
Returns the city with the usage parameters assigned to the buildings
|
||||
:return:
|
||||
"""
|
||||
city = self._city
|
||||
palma_catalog = UsageCatalogFactory('palma').catalog
|
||||
|
||||
for building in city.buildings:
|
||||
palma_usage_name = Dictionaries().hub_usage_to_palma_usage[building.function]
|
||||
try:
|
||||
archetype_usage = self._search_archetypes(palma_catalog, palma_usage_name)
|
||||
except KeyError:
|
||||
logging.error('Building %s has unknown usage archetype for usage %s', building.name, palma_usage_name)
|
||||
continue
|
||||
|
||||
for internal_zone in building.internal_zones:
|
||||
if len(building.internal_zones) > 1:
|
||||
volume_per_area = 0
|
||||
if internal_zone.area is None:
|
||||
logging.error('Building %s has internal zone area not defined, ACH cannot be calculated for usage %s',
|
||||
building.name, palma_usage_name)
|
||||
continue
|
||||
if internal_zone.volume is None:
|
||||
logging.error('Building %s has internal zone volume not defined, ACH cannot be calculated for usage %s',
|
||||
building.name, palma_usage_name)
|
||||
continue
|
||||
if internal_zone.area <= 0:
|
||||
logging.error('Building %s has internal zone area equal to 0, ACH cannot be calculated for usage %s',
|
||||
building.name, palma_usage_name)
|
||||
continue
|
||||
volume_per_area += internal_zone.volume / internal_zone.area
|
||||
else:
|
||||
if building.storeys_above_ground is None:
|
||||
logging.error('Building %s no number of storeys assigned, ACH cannot be calculated for usage %s',
|
||||
building.name, palma_usage_name)
|
||||
continue
|
||||
volume_per_area = building.volume / building.floor_area / building.storeys_above_ground
|
||||
|
||||
usage = Usage()
|
||||
usage.name = palma_usage_name
|
||||
self._assign_values(usage, archetype_usage, volume_per_area, building.cold_water_temperature)
|
||||
usage.percentage = 1
|
||||
self._calculate_reduced_values_from_extended_library(usage, archetype_usage)
|
||||
|
||||
internal_zone.usages = [usage]
|
||||
|
||||
@staticmethod
|
||||
def _search_archetypes(palma_catalog, usage_name):
|
||||
archetypes = palma_catalog.entries('archetypes').usages
|
||||
for building_archetype in archetypes:
|
||||
if str(usage_name) == str(building_archetype.name):
|
||||
return building_archetype
|
||||
raise KeyError('archetype not found')
|
||||
|
||||
@staticmethod
|
||||
def _assign_values(usage, archetype, volume_per_area, cold_water_temperature):
|
||||
if archetype.mechanical_air_change > 0:
|
||||
# 1/s
|
||||
usage.mechanical_air_change = archetype.mechanical_air_change
|
||||
elif archetype.ventilation_rate > 0:
|
||||
# m3/m2.s to 1/s
|
||||
usage.mechanical_air_change = archetype.ventilation_rate / volume_per_area
|
||||
else:
|
||||
usage.mechanical_air_change = 0
|
||||
_occupancy = Occupancy()
|
||||
_occupancy.occupancy_density = archetype.occupancy.occupancy_density
|
||||
_occupancy.sensible_radiative_internal_gain = archetype.occupancy.sensible_radiative_internal_gain
|
||||
_occupancy.latent_internal_gain = archetype.occupancy.latent_internal_gain
|
||||
_occupancy.sensible_convective_internal_gain = archetype.occupancy.sensible_convective_internal_gain
|
||||
_occupancy.occupancy_schedules = archetype.occupancy.schedules
|
||||
usage.occupancy = _occupancy
|
||||
_lighting = Lighting()
|
||||
_lighting.density = archetype.lighting.density
|
||||
_lighting.convective_fraction = archetype.lighting.convective_fraction
|
||||
_lighting.radiative_fraction = archetype.lighting.radiative_fraction
|
||||
_lighting.latent_fraction = archetype.lighting.latent_fraction
|
||||
_lighting.schedules = archetype.lighting.schedules
|
||||
usage.lighting = _lighting
|
||||
_appliances = Appliances()
|
||||
_appliances.density = archetype.appliances.density
|
||||
_appliances.convective_fraction = archetype.appliances.convective_fraction
|
||||
_appliances.radiative_fraction = archetype.appliances.radiative_fraction
|
||||
_appliances.latent_fraction = archetype.appliances.latent_fraction
|
||||
_appliances.schedules = archetype.appliances.schedules
|
||||
usage.appliances = _appliances
|
||||
_control = ThermalControl()
|
||||
_control.cooling_set_point_schedules = archetype.thermal_control.cooling_set_point_schedules
|
||||
_control.heating_set_point_schedules = archetype.thermal_control.heating_set_point_schedules
|
||||
_control.hvac_availability_schedules = archetype.thermal_control.hvac_availability_schedules
|
||||
usage.thermal_control = _control
|
||||
_domestic_hot_water = DomesticHotWater()
|
||||
_domestic_hot_water.peak_flow = archetype.domestic_hot_water.peak_flow
|
||||
_domestic_hot_water.service_temperature = archetype.domestic_hot_water.service_temperature
|
||||
density = None
|
||||
if len(cold_water_temperature) > 0:
|
||||
cold_temperature = cold_water_temperature[cte.YEAR][0]
|
||||
density = (
|
||||
archetype.domestic_hot_water.peak_flow * cte.WATER_DENSITY * cte.WATER_HEAT_CAPACITY *
|
||||
(archetype.domestic_hot_water.service_temperature - cold_temperature)
|
||||
)
|
||||
_domestic_hot_water.density = density
|
||||
_domestic_hot_water.schedules = archetype.domestic_hot_water.schedules
|
||||
usage.domestic_hot_water = _domestic_hot_water
|
||||
|
||||
@staticmethod
|
||||
def _calculate_reduced_values_from_extended_library(usage, archetype):
|
||||
number_of_days_per_type = {'WD': 251, 'Sat': 52, 'Sun': 62}
|
||||
total = 0
|
||||
for schedule in archetype.thermal_control.hvac_availability_schedules:
|
||||
if schedule.day_types[0] == cte.SATURDAY:
|
||||
for value in schedule.values:
|
||||
total += value * number_of_days_per_type['Sat']
|
||||
elif schedule.day_types[0] == cte.SUNDAY:
|
||||
for value in schedule.values:
|
||||
total += value * number_of_days_per_type['Sun']
|
||||
else:
|
||||
for value in schedule.values:
|
||||
total += value * number_of_days_per_type['WD']
|
||||
|
||||
usage.hours_day = total / 365
|
||||
usage.days_year = 365
|
||||
|
||||
max_heating_setpoint = cte.MIN_FLOAT
|
||||
min_heating_setpoint = cte.MAX_FLOAT
|
||||
|
||||
for schedule in archetype.thermal_control.heating_set_point_schedules:
|
||||
if schedule.values is None:
|
||||
max_heating_setpoint = None
|
||||
min_heating_setpoint = None
|
||||
break
|
||||
if max(schedule.values) > max_heating_setpoint:
|
||||
max_heating_setpoint = max(schedule.values)
|
||||
if min(schedule.values) < min_heating_setpoint:
|
||||
min_heating_setpoint = min(schedule.values)
|
||||
|
||||
min_cooling_setpoint = cte.MAX_FLOAT
|
||||
for schedule in archetype.thermal_control.cooling_set_point_schedules:
|
||||
if schedule.values is None:
|
||||
min_cooling_setpoint = None
|
||||
break
|
||||
if min(schedule.values) < min_cooling_setpoint:
|
||||
min_cooling_setpoint = min(schedule.values)
|
||||
|
||||
usage.thermal_control.mean_heating_set_point = max_heating_setpoint
|
||||
usage.thermal_control.heating_set_back = min_heating_setpoint
|
||||
usage.thermal_control.mean_cooling_set_point = min_cooling_setpoint
|
@ -10,6 +10,7 @@ from hub.helpers.utils import validate_import_export_type
|
||||
from hub.imports.usage.comnet_usage_parameters import ComnetUsageParameters
|
||||
from hub.imports.usage.nrcan_usage_parameters import NrcanUsageParameters
|
||||
from hub.imports.usage.eilat_usage_parameters import EilatUsageParameters
|
||||
from hub.imports.usage.palma_usage_parameters import PalmaUsageParameters
|
||||
|
||||
|
||||
class UsageFactory:
|
||||
@ -48,6 +49,15 @@ class UsageFactory:
|
||||
for building in self._city.buildings:
|
||||
building.level_of_detail.usage = 2
|
||||
|
||||
def _palma(self):
|
||||
"""
|
||||
Enrich the city with Palma usage library
|
||||
"""
|
||||
PalmaUsageParameters(self._city).enrich_buildings()
|
||||
self._city.level_of_detail.usage = 2
|
||||
for building in self._city.buildings:
|
||||
building.level_of_detail.usage = 2
|
||||
|
||||
def enrich(self):
|
||||
"""
|
||||
Enrich the city given to the class using the usage factory given handler
|
||||
|
@ -110,12 +110,9 @@ class EpwWeatherParameters:
|
||||
# new_value = pd.DataFrame(self._weather_values[['dry_bulb_temperature_c']].to_numpy(), columns=['epw'])
|
||||
# number_invalid_records = new_value[new_value.epw == 99.9].count().epw
|
||||
building.external_temperature[cte.HOUR] = self._weather_values['dry_bulb_temperature_c']
|
||||
building.global_horizontal[cte.HOUR] = [x * cte.WATTS_HOUR_TO_JULES
|
||||
for x in self._weather_values['global_horizontal_radiation_wh_m2']]
|
||||
building.diffuse[cte.HOUR] = [x * cte.WATTS_HOUR_TO_JULES
|
||||
for x in self._weather_values['diffuse_horizontal_radiation_wh_m2']]
|
||||
building.direct_normal[cte.HOUR] = [x * cte.WATTS_HOUR_TO_JULES
|
||||
for x in self._weather_values['direct_normal_radiation_wh_m2']]
|
||||
building.global_horizontal[cte.HOUR] = [x for x in self._weather_values['global_horizontal_radiation_wh_m2']]
|
||||
building.diffuse[cte.HOUR] = [x for x in self._weather_values['diffuse_horizontal_radiation_wh_m2']]
|
||||
building.direct_normal[cte.HOUR] = [x for x in self._weather_values['direct_normal_radiation_wh_m2']]
|
||||
building.beam[cte.HOUR] = [building.global_horizontal[cte.HOUR][i] -
|
||||
building.diffuse[cte.HOUR][i]
|
||||
for i in range(len(building.global_horizontal[cte.HOUR]))]
|
||||
|
@ -25,8 +25,7 @@ class Weather:
|
||||
'US.NY.047': 'https://energyplus-weather.s3.amazonaws.com/north_and_central_america_wmo_region_4/USA/NY/USA_NY_New.York.City-Central.Park.94728_TMY/USA_NY_New.York.City-Central.Park.94728_TMY.epw',
|
||||
'CA.10.12': 'https://energyplus-weather.s3.amazonaws.com/north_and_central_america_wmo_region_4/CAN/PQ/CAN_PQ_Quebec.717140_CWEC/CAN_PQ_Quebec.717140_CWEC.epw',
|
||||
'IL.01.': 'https://energyplus-weather.s3.amazonaws.com/europe_wmo_region_6/ISR/ISR_Eilat.401990_MSI/ISR_Eilat.401990_MSI.epw',
|
||||
'ES.07.PM': 'https://energyplus-weather.s3.amazonaws.com/europe_wmo_region_6/ESP/ESP_Palma.083060_SWEC/ESP_Palma.083060_SWEC.epw',
|
||||
'CA.10.17': 'https: //energyplus-weather.s3.amazonaws.com/north_and_central_america_wmo_region_4/CAN/ON/CAN_ON_Thunder.Bay.717490_CWEC.epw'
|
||||
'ES.07.PM': 'https://energyplus-weather.s3.amazonaws.com/europe_wmo_region_6/ESP/ESP_Palma.083060_SWEC/ESP_Palma.083060_SWEC.epw'
|
||||
}
|
||||
# todo: this dictionary need to be completed, a data science student task?
|
||||
|
||||
|
@ -9,6 +9,7 @@ import datetime
|
||||
import logging
|
||||
|
||||
from sqlalchemy import Column, Integer, String, Sequence, ForeignKey, Float
|
||||
from sqlalchemy.dialects.postgresql import JSON
|
||||
from sqlalchemy import DateTime
|
||||
|
||||
from hub.city_model_structure.building import Building
|
||||
@ -27,7 +28,7 @@ class CityObject(Models):
|
||||
type = Column(String, nullable=False)
|
||||
year_of_construction = Column(Integer, nullable=True)
|
||||
function = Column(String, nullable=True)
|
||||
usage = Column(String, nullable=True)
|
||||
usage = Column(JSON, nullable=True)
|
||||
volume = Column(Float, nullable=False)
|
||||
area = Column(Float, nullable=False)
|
||||
total_heating_area = Column(Float, nullable=False)
|
||||
@ -46,7 +47,7 @@ class CityObject(Models):
|
||||
self.type = building.type
|
||||
self.year_of_construction = building.year_of_construction
|
||||
self.function = building.function
|
||||
self.usage = building.usages_percentage
|
||||
self.usage = building.usages
|
||||
self.volume = building.volume
|
||||
self.area = building.floor_area
|
||||
self.roof_area = sum(roof.solid_polygon.area for roof in building.roofs)
|
||||
|
@ -1,4 +1,4 @@
|
||||
"""
|
||||
Hub version number
|
||||
"""
|
||||
__version__ = '0.2.0.8'
|
||||
__version__ = '0.3.0.5'
|
||||
|
@ -25,3 +25,4 @@ psycopg2-binary
|
||||
Pillow
|
||||
pathlib
|
||||
sqlalchemy_utils
|
||||
build
|
2
setup.py
2
setup.py
@ -59,12 +59,14 @@ setup(
|
||||
'hub.exports',
|
||||
'hub.exports.building_energy',
|
||||
'hub.exports.building_energy.idf_files',
|
||||
'hub.exports.building_energy.idf_helper',
|
||||
'hub.exports.building_energy.insel',
|
||||
'hub.exports.energy_systems',
|
||||
'hub.exports.formats',
|
||||
'hub.helpers',
|
||||
'hub.helpers.peak_calculation',
|
||||
'hub.helpers.data',
|
||||
'hub.helpers.parsers',
|
||||
'hub.imports',
|
||||
'hub.imports.construction',
|
||||
'hub.imports.construction.helpers',
|
||||
|
@ -71,3 +71,23 @@ class TestConstructionCatalog(TestCase):
|
||||
|
||||
with self.assertRaises(IndexError):
|
||||
catalog.get_entry('unknown')
|
||||
|
||||
def test_palma_catalog(self):
|
||||
catalog = ConstructionCatalogFactory('palma').catalog
|
||||
catalog_categories = catalog.names()
|
||||
constructions = catalog.names('constructions')
|
||||
windows = catalog.names('windows')
|
||||
materials = catalog.names('materials')
|
||||
self.assertEqual(29, len(constructions['constructions']))
|
||||
self.assertEqual(9, len(windows['windows']))
|
||||
self.assertEqual(122, len(materials['materials']))
|
||||
with self.assertRaises(ValueError):
|
||||
catalog.names('unknown')
|
||||
|
||||
# retrieving all the entries should not raise any exceptions
|
||||
for category in catalog_categories:
|
||||
for value in catalog_categories[category]:
|
||||
catalog.get_entry(value)
|
||||
|
||||
with self.assertRaises(IndexError):
|
||||
catalog.get_entry('unknown')
|
||||
|
@ -306,3 +306,24 @@ class TestConstructionFactory(TestCase):
|
||||
self.assertIsNotNone(thermal_boundary.layers, 'layers is none')
|
||||
self._check_thermal_openings(thermal_boundary)
|
||||
self._check_surfaces(thermal_boundary)
|
||||
|
||||
def test_palma_construction_factory(self):
|
||||
file = 'palma_test_file.geojson'
|
||||
file_path = (self._example_path / file).resolve()
|
||||
city = GeometryFactory(file_type='geojson',
|
||||
path=file_path,
|
||||
height_field='measuredHeight',
|
||||
year_of_construction_field='yearOfConstruction',
|
||||
function_field='usage',
|
||||
function_to_hub=Dictionaries().palma_function_to_hub_function).city
|
||||
ConstructionFactory('palma', city).enrich()
|
||||
self._check_buildings(city)
|
||||
for building in city.buildings:
|
||||
for internal_zone in building.internal_zones:
|
||||
self._check_thermal_zones(internal_zone)
|
||||
for thermal_zone in internal_zone.thermal_zones_from_internal_zones:
|
||||
self._check_thermal_boundaries(thermal_zone)
|
||||
for thermal_boundary in thermal_zone.thermal_boundaries:
|
||||
self.assertIsNotNone(thermal_boundary.layers, 'layers is none')
|
||||
self._check_thermal_openings(thermal_boundary)
|
||||
self._check_surfaces(thermal_boundary)
|
@ -17,6 +17,7 @@ from hub.exports.exports_factory import ExportsFactory
|
||||
from hub.helpers.dictionaries import Dictionaries
|
||||
from hub.imports.construction_factory import ConstructionFactory
|
||||
from hub.imports.geometry_factory import GeometryFactory
|
||||
from hub.imports.results_factory import ResultFactory
|
||||
from hub.imports.usage_factory import UsageFactory
|
||||
from hub.imports.weather_factory import WeatherFactory
|
||||
|
||||
@ -136,7 +137,6 @@ class TestExports(TestCase):
|
||||
year_of_construction_field='ANNEE_CONS',
|
||||
function_field='CODE_UTILI',
|
||||
function_to_hub=Dictionaries().montreal_function_to_hub_function).city
|
||||
|
||||
self.assertIsNotNone(city, 'city is none')
|
||||
EnergyBuildingsExportsFactory('idf', city, self._output_path).export()
|
||||
ConstructionFactory('nrcan', city).enrich()
|
||||
@ -144,6 +144,42 @@ class TestExports(TestCase):
|
||||
UsageFactory('nrcan', city).enrich()
|
||||
WeatherFactory('epw', city).enrich()
|
||||
try:
|
||||
EnergyBuildingsExportsFactory('idf', city, self._output_path, target_buildings=[1]).export()
|
||||
_idf = EnergyBuildingsExportsFactory('idf', city, self._output_path).export()
|
||||
_idf.run()
|
||||
except Exception:
|
||||
self.fail("Idf ExportsFactory raised ExceptionType unexpectedly!")
|
||||
|
||||
def test_cerc_idf_export(self):
|
||||
"""
|
||||
export to IDF
|
||||
"""
|
||||
file = 'test.geojson'
|
||||
file_path = (self._example_path / file).resolve()
|
||||
city = GeometryFactory('geojson',
|
||||
path=file_path,
|
||||
height_field='citygml_me',
|
||||
year_of_construction_field='ANNEE_CONS',
|
||||
function_field='CODE_UTILI',
|
||||
function_to_hub=Dictionaries().montreal_function_to_hub_function).city
|
||||
self.assertIsNotNone(city, 'city is none')
|
||||
ConstructionFactory('nrcan', city).enrich()
|
||||
UsageFactory('nrcan', city).enrich()
|
||||
WeatherFactory('epw', city).enrich()
|
||||
try:
|
||||
idf = EnergyBuildingsExportsFactory('cerc_idf', city, self._output_path).export()
|
||||
idf.run()
|
||||
csv_output_path = (self._output_path / f'{city.name}_out.csv').resolve()
|
||||
ResultFactory('cerc_idf', city, csv_output_path).enrich()
|
||||
self.assertTrue(csv_output_path.is_file())
|
||||
for building in city.buildings:
|
||||
self.assertIsNotNone(building.heating_demand)
|
||||
self.assertIsNotNone(building.cooling_demand)
|
||||
self.assertIsNotNone(building.domestic_hot_water_heat_demand)
|
||||
self.assertIsNotNone(building.lighting_electrical_demand)
|
||||
self.assertIsNotNone(building.appliances_electrical_demand)
|
||||
total_demand = sum(building.heating_demand[cte.HOUR])
|
||||
total_demand_month = sum(building.heating_demand[cte.MONTH])
|
||||
self.assertAlmostEqual(total_demand, building.heating_demand[cte.YEAR][0], 2)
|
||||
self.assertAlmostEqual(total_demand_month, building.heating_demand[cte.YEAR][0], 2)
|
||||
except Exception:
|
||||
self.fail("Idf ExportsFactory raised ExceptionType unexpectedly!")
|
||||
|
@ -92,42 +92,3 @@ class TestResultsImport(TestCase):
|
||||
building.cooling_demand[cte.HOUR] = values
|
||||
self.assertIsNotNone(building.heating_peak_load)
|
||||
self.assertIsNotNone(building.cooling_peak_load)
|
||||
|
||||
def test_energy_plus_results_import(self):
|
||||
ResultFactory('energy_plus_single_building', self._city, self._example_path).enrich()
|
||||
for building in self._city.buildings:
|
||||
csv_output_name = f'{building.name}_out.csv'
|
||||
csv_output_path = (self._example_path / csv_output_name).resolve()
|
||||
if csv_output_path.is_file():
|
||||
self.assertEqual(building.name, '12')
|
||||
self.assertIsNotNone(building.heating_demand)
|
||||
self.assertIsNotNone(building.cooling_demand)
|
||||
self.assertIsNotNone(building.domestic_hot_water_heat_demand)
|
||||
self.assertIsNotNone(building.lighting_electrical_demand)
|
||||
self.assertIsNotNone(building.appliances_electrical_demand)
|
||||
total_demand = sum(building.heating_demand[cte.HOUR])
|
||||
self.assertAlmostEqual(total_demand, building.heating_demand[cte.YEAR][0], 3)
|
||||
total_demand = sum(building.heating_demand[cte.MONTH])
|
||||
self.assertEqual(total_demand, building.heating_demand[cte.YEAR][0], 3)
|
||||
if building.name != '12':
|
||||
self.assertDictEqual(building.heating_demand, {})
|
||||
self.assertDictEqual(building.cooling_demand, {})
|
||||
self.assertDictEqual(building.domestic_hot_water_heat_demand, {})
|
||||
self.assertDictEqual(building.lighting_electrical_demand, {})
|
||||
self.assertDictEqual(building.appliances_electrical_demand, {})
|
||||
|
||||
def test_energy_plus_multiple_buildings_results_import(self):
|
||||
ResultFactory('energy_plus_multiple_buildings', self._city, self._example_path).enrich()
|
||||
csv_output_name = f'{self._city.name}_out.csv'
|
||||
csv_output_path = (self._example_path / csv_output_name).resolve()
|
||||
if csv_output_path.is_file():
|
||||
for building in self._city.buildings:
|
||||
self.assertIsNotNone(building.heating_demand)
|
||||
self.assertIsNotNone(building.cooling_demand)
|
||||
self.assertIsNotNone(building.domestic_hot_water_heat_demand)
|
||||
self.assertIsNotNone(building.lighting_electrical_demand)
|
||||
self.assertIsNotNone(building.appliances_electrical_demand)
|
||||
total_demand = sum(building.heating_demand[cte.HOUR])
|
||||
self.assertAlmostEqual(total_demand, building.heating_demand[cte.YEAR][0], 2)
|
||||
total_demand = sum(building.heating_demand[cte.MONTH])
|
||||
self.assertEqual(total_demand, building.heating_demand[cte.YEAR][0], 2)
|
||||
|
Some files were not shown because too many files have changed in this diff Show More
Loading…
Reference in New Issue
Block a user