Modified construction factory to read from catalogs instead of file
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@ -29,3 +29,13 @@ reference_standard_to_construction_period = {
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'ASHRAE 90.1_2004': '2004 - 2009',
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'ASHRAE 189.1_2009': '2009 - PRESENT'
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}
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nrel_surfaces_types_to_hub_types = {
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'exterior wall': cte.WALL,
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'interior wall': cte.INTERIOR_WALL,
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'ground wall': cte.GROUND_WALL,
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'exterior slab': cte.GROUND,
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'attic floor': cte.ATTIC_FLOOR,
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'interior slab': cte.INTERIOR_SLAB,
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'roof': cte.ROOF
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}
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@ -16,6 +16,7 @@ from catalog_factories.data_models.construction.content import Content
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from catalog_factories.data_models.construction.archetype import Archetype
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from catalog_factories.construction.construction_helpers import nrel_to_function
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from catalog_factories.construction.construction_helpers import reference_standard_to_construction_period
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from catalog_factories.construction.construction_helpers import nrel_surfaces_types_to_hub_types
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class NrelCatalog(Catalog):
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@ -88,7 +89,7 @@ class NrelCatalog(Catalog):
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constructions = self._constructions['library']['constructions']['construction']
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for construction in constructions:
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construction_id = construction['@id']
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construction_type = construction['@type']
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construction_type = nrel_surfaces_types_to_hub_types[construction['@type']]
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name = construction['@name']
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layers = []
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for layer in construction['layers']['layer']:
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@ -111,7 +112,8 @@ class NrelCatalog(Catalog):
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for archetype in archetypes:
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archetype_id = archetype['@id']
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function = nrel_to_function[archetype['@building_type']]
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name = f"{function} {archetype['@reference_standard']}"
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name = f"{function} {archetype['@climate_zone']} {archetype['@reference_standard']}"
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climate_zone = archetype['@climate_zone']
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construction_period = reference_standard_to_construction_period[archetype['@reference_standard']]
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average_storey_height = archetype['average_storey_height']['#text']
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number_of_storeys = archetype['number_of_storeys']['#text']
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@ -145,6 +147,7 @@ class NrelCatalog(Catalog):
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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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@ -10,6 +10,7 @@ from typing import TypeVar
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from catalog_factories.construction.nrel_catalog import NrelCatalog
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Catalog = TypeVar('Catalog')
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class ConstructionCatalogFactory:
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def __init__(self, file_type, base_path=None):
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if base_path is None:
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@ -7,10 +7,12 @@ Project Coder Guille Gutierrez guillermo.gutierrezmorote@concordia.ca
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from catalog_factories.data_models.construction.construction import Construction
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class Archetype:
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def __init__(self, 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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constructions,
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average_storey_height,
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@ -23,6 +25,7 @@ class Archetype:
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self._id = archetype_id
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self._name = name
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self._function = function
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self._climate_zone = climate_zone
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self._construction_period = construction_period
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self._constructions = constructions
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self._average_storey_height = average_storey_height
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@ -57,6 +60,14 @@ class Archetype:
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"""
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return self._function
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@property
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def climate_zone(self):
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"""
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Get archetype climate zone
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:return: str
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"""
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return self._climate_zone
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@property
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def constructions(self) -> [Construction]:
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"""
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@ -5,6 +5,7 @@ Copyright © 2022 Concordia CERC group
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Project Coder Guille Gutierrez guillermo.gutierrezmorote@concordia.ca
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"""
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class Content:
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def __init__(self, archetypes, constructions, materials, windows):
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self._archetypes = archetypes
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@ -5,6 +5,7 @@ Copyright © 2022 Concordia CERC group
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Project Coder Guille Gutierrez guillermo.gutierrezmorote@concordia.ca
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"""
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class Layer:
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def __init__(self, layer_id, name, material, thickness):
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self._id = layer_id
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@ -5,6 +5,7 @@ Copyright © 2022 Concordia CERC group
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Project Coder Guille Gutierrez guillermo.gutierrezmorote@concordia.ca
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"""
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class Material:
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def __init__(self, material_id,
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name,
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@ -5,6 +5,7 @@ Copyright © 2022 Concordia CERC group
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Project Coder Guille Gutierrez guillermo.gutierrezmorote@concordia.ca
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"""
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class Window:
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def __init__(self, window_id, frame_ratio, g_value, overall_u_value, name):
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self._id = window_id
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@ -5,7 +5,6 @@ Copyright © 2022 Concordia CERC group
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Project Coder Guille Gutierrez guillermo.gutierrezmorote@concordia.ca
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"""
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import ast
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from typing import Union
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@ -5,12 +5,7 @@ SPDX - License - Identifier: LGPL - 3.0 - or -later
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Copyright © 2022 Concordia CERC group
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Project Coder Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca
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"""
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import xmltodict
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from imports.construction.data_classes.building_achetype import BuildingArchetype as nba
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from imports.construction.data_classes.thermal_boundary_archetype import ThermalBoundaryArchetype as ntba
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from imports.construction.data_classes.thermal_opening_archetype import ThermalOpeningArchetype as ntoa
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from imports.construction.data_classes.layer_archetype import LayerArchetype as nla
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from imports.construction.helpers.storeys_generation import StoreysGeneration
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@ -19,173 +14,6 @@ class NrelPhysicsInterface:
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NrelPhysicsInterface abstract class
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"""
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def __init__(self, base_path, constructions_file='us_constructions.xml',
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archetypes_file='us_archetypes.xml'):
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self._building_archetypes = []
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# load construction Library, CERC-NREL format
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path = str(base_path / constructions_file)
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with open(path) as xml:
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self._library = xmltodict.parse(xml.read(), force_list='layer')
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# load archetypes Library, CERC-NREL format
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path = str(base_path / archetypes_file)
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with open(path) as xml:
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self._archetypes = xmltodict.parse(xml.read(), force_list='layer')
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for archetype in self._archetypes['archetypes']['archetype']:
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archetype_keys = {}
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for key, value in archetype.items():
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if key[0] == '@':
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archetype_keys[key] = value
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average_storey_height = archetype['average_storey_height']['#text']
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units = archetype['average_storey_height']['@units']
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if units != 'm':
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raise Exception(f'average storey height units = {units}, expected meters')
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storeys_above_ground = archetype['number_of_storeys']['#text']
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effective_thermal_capacity = float(archetype['thermal_capacity']['#text']) * 1000
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units = archetype['thermal_capacity']['@units']
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if units != 'kJ/K m2':
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raise Exception(f'thermal capacity units = {units}, expected kJ/K m2')
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additional_thermal_bridge_u_value = archetype['extra_loses_due_to_thermal_bridges']['#text']
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units = archetype['extra_loses_due_to_thermal_bridges']['@units']
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if units != 'W/K m2':
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raise Exception(f'extra loses due to thermal bridges units = {units}, expected W/K m2')
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indirectly_heated_area_ratio = archetype['indirect_heated_ratio']['#text']
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# todo: check how infiltration rate is used in the model
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infiltration_rate_system_off = archetype['infiltration_rate_for_ventilation_system_off']['#text']
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units = archetype['infiltration_rate_for_ventilation_system_off']['@units']
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if units != 'ACH':
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raise Exception(f'infiltration rate for ventilation when system off units = {units}, expected ACH')
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infiltration_rate_system_on = archetype['infiltration_rate_for_ventilation_system_on']['#text']
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units = archetype['infiltration_rate_for_ventilation_system_on']['@units']
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if units != 'ACH':
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raise Exception(f'infiltration rate for ventilation when system on units = {units}, expected ACH')
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thermal_boundary_archetypes = []
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for construction in archetype['constructions']['construction']:
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construction_type = construction['@type']
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construction_id = construction['@id']
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c_lib = self._search_construction_type('construction', construction_id)
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construction_name = c_lib['@name']
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layers = []
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if 'layers' in c_lib:
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for current_layer in c_lib['layers']['layer']:
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material_lib = self._search_construction_type('material', current_layer['material'])
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name = material_lib['@name']
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solar_absorptance = material_lib['solar_absorptance']['#text']
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thermal_absorptance = material_lib['thermal_absorptance']['#text']
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visible_absorptance = material_lib['visible_absorptance']['#text']
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no_mass = 'no_mass' in material_lib
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if no_mass:
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thermal_resistance = material_lib['thermal_resistance']['#text']
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units = material_lib['thermal_resistance']['@units']
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if units != 'm2 K/W':
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raise Exception(f'thermal resistance units = {units}, expected m2 K/W')
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layer = nla(name, solar_absorptance, thermal_absorptance, visible_absorptance, no_mass=no_mass,
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thermal_resistance=thermal_resistance)
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else:
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thickness = current_layer['thickness']['#text']
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units = current_layer['thickness']['@units']
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if units != 'm':
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raise Exception(f'thickness units = {units}, expected m')
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conductivity = material_lib['conductivity']['#text']
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units = material_lib['conductivity']['@units']
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if units != 'W/m K':
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raise Exception(f'conductivity units = {units}, expected W/m K')
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specific_heat = material_lib['specific_heat']['#text']
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units = material_lib['specific_heat']['@units']
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if units != 'J/kg K':
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raise Exception(f'specific_heat units = {units}, expected J/kg K')
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density = material_lib['density']['#text']
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units = material_lib['density']['@units']
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if units != 'kg/m3':
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raise Exception(f'density units = {units}, expected kg/m3')
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layer = nla(name, solar_absorptance, thermal_absorptance, visible_absorptance, thickness=thickness,
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conductivity=conductivity, specific_heat=specific_heat, density=density)
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layers.append(layer)
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thermal_opening = None
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window_ratio = 0
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if 'window' in construction and construction['window'] is not None:
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window_ratio = construction['window_ratio']['#text']
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w_lib = self._search_construction_type('window', construction['window'])
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window_construction_name = w_lib['@name']
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frame_ratio = w_lib['frame_ratio']['#text']
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if 'conductivity' in w_lib:
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conductivity = w_lib['conductivity']['#text']
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units = w_lib['conductivity']['@units']
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if units != 'W/m K':
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raise Exception(f'conductivity units = {units}, expected W/m K')
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thickness = w_lib['thickness']['#text']
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units = w_lib['thickness']['@units']
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if units != 'm':
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raise Exception(f'thickness units = {units}, expected m')
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g_value = w_lib['solar_transmittance_at_normal_incidence']['#text']
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back_side_solar_transmittance_at_normal_incidence = \
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w_lib['back_side_solar_transmittance_at_normal_incidence']['#text']
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front_side_solar_transmittance_at_normal_incidence = \
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w_lib['front_side_solar_transmittance_at_normal_incidence']['#text']
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thermal_opening = ntoa(conductivity=conductivity, frame_ratio=frame_ratio, g_value=g_value,
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thickness=thickness, back_side_solar_transmittance_at_normal_incidence=
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back_side_solar_transmittance_at_normal_incidence,
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front_side_solar_transmittance_at_normal_incidence=
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front_side_solar_transmittance_at_normal_incidence,
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construction_name=window_construction_name)
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else:
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overall_u_value = w_lib['overall_u_value']['#text']
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units = w_lib['overall_u_value']['@units']
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if units != 'W/m2 K':
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raise Exception(f'overall U-value units = {units}, expected W/m2 K')
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g_value = w_lib['g_value']
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thermal_opening = ntoa(frame_ratio=frame_ratio, g_value=g_value, overall_u_value=overall_u_value,
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construction_name=window_construction_name)
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if 'outside_thermal_absorptance' in c_lib:
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outside_solar_absorptance = c_lib['outside_solar_absorptance']['#text']
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outside_thermal_absorptance = c_lib['outside_thermal_absorptance']['#text']
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outside_visible_absorptance = c_lib['outside_visible_absorptance']['#text']
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thermal_boundary_archetype = ntba(construction_type, window_ratio, construction_name, layers, thermal_opening,
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outside_solar_absorptance, outside_thermal_absorptance,
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outside_visible_absorptance)
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else:
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if 'overall_u_value' in c_lib:
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overall_u_value = c_lib['overall_u_value']['#text']
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units = c_lib['overall_u_value']['@units']
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if units != 'W/m2 K':
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raise Exception(f'overall U-value units = {units}, expected W/m2 K')
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if 'outside_solar_absorptance' in c_lib:
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outside_solar_absorptance = c_lib['outside_solar_absorptance']['#text']
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thermal_boundary_archetype = ntba(construction_type, window_ratio, construction_name, layers,
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thermal_opening, outside_solar_absorptance=outside_solar_absorptance,
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overall_u_value=overall_u_value)
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else:
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thermal_boundary_archetype = ntba(construction_type, window_ratio, construction_name, layers,
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thermal_opening, overall_u_value=overall_u_value)
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else:
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thermal_boundary_archetype = ntba(construction_type, window_ratio, construction_name, layers,
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thermal_opening)
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thermal_boundary_archetypes.append(thermal_boundary_archetype)
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building_archetype = nba(archetype_keys, average_storey_height, storeys_above_ground,
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effective_thermal_capacity, additional_thermal_bridge_u_value,
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indirectly_heated_area_ratio, infiltration_rate_system_off,
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infiltration_rate_system_on, thermal_boundary_archetypes)
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self._building_archetypes.append(building_archetype)
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def _search_construction_type(self, construction_type, construction_id):
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for c_lib in self._library['library'][construction_type + 's'][construction_type]:
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if construction_id == c_lib['@id']:
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return c_lib
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raise Exception('Archetype definition contains elements that does not exist in the library')
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@staticmethod
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def _search_construction_in_archetype(building_archetype, construction_type):
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for thermal_boundary in building_archetype.thermal_boundary_archetypes:
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if thermal_boundary.boundary_type == construction_type:
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return thermal_boundary
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raise Exception('Construction type not found')
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# todo: verify windows
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@staticmethod
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def _calculate_view_factors(thermal_zone):
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@ -228,15 +56,15 @@ class NrelPhysicsInterface:
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view_factors_matrix.append(values)
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thermal_zone.view_factors_matrix = view_factors_matrix
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@staticmethod
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def _create_storeys(building, archetype):
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building.average_storey_height = archetype.average_storey_height
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building.storeys_above_ground = 1
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thermal_zones = StoreysGeneration(building, building.internal_zones[0]).thermal_zones
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building.internal_zones[0].thermal_zones = thermal_zones
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def enrich_buildings(self):
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"""
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Raise not implemented error
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"""
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raise NotImplementedError
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@staticmethod
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def _create_storeys(building, archetype):
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building.average_storey_height = archetype.average_storey_height
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building.storeys_above_ground = archetype.storeys_above_ground
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thermal_zones = StoreysGeneration(building, building.internal_zones[0]).thermal_zones
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building.internal_zones[0].thermal_zones = thermal_zones
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@ -8,9 +8,10 @@ Code contributors: Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concord
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import sys
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from imports.construction.nrel_physics_interface import NrelPhysicsInterface
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from imports.construction.helpers.construction_helper import ConstructionHelper
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from catalog_factories.construction.nrel_catalog import NrelCatalog
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from city_model_structure.building_demand.layer import Layer
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from city_model_structure.building_demand.material import Material
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from imports.construction.helpers.construction_helper import ConstructionHelper
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class UsPhysicsParameters(NrelPhysicsInterface):
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@ -19,24 +20,18 @@ class UsPhysicsParameters(NrelPhysicsInterface):
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"""
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def __init__(self, city, base_path):
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self._city = city
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self._path = base_path
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self._climate_zone = ConstructionHelper.city_to_nrel_climate_zone(city.name)
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super().__init__(base_path, 'us_constructions.xml', 'us_archetypes.xml')
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super().__init__()
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def enrich_buildings(self):
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"""
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Returns the city with the construction parameters assigned to the buildings
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:return: None
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"""
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city = self._city
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# it is assumed that all buildings have the same archetypes' keys
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for building in city.buildings:
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building_type = ConstructionHelper.nrel_from_libs_function(building.function)
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if building_type is None:
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return
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try:
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archetype = self._search_archetype(building_type,
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ConstructionHelper.yoc_to_nrel_standard(building.year_of_construction),
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self._climate_zone)
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archetype = self._search_archetype(building.function, building.year_of_construction, self._climate_zone)
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except KeyError:
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sys.stderr.write(f'Building {building.name} has unknown archetype for building function: {building.function} '
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f'and building year of construction: {building.year_of_construction}\n')
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@ -52,60 +47,72 @@ class UsPhysicsParameters(NrelPhysicsInterface):
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for thermal_zone in internal_zone.thermal_zones:
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self._calculate_view_factors(thermal_zone)
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|
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def _search_archetype(self, building_type, standard, climate_zone):
|
||||
for building_archetype in self._building_archetypes:
|
||||
a_yc = str(building_archetype.archetype_keys['@reference_standard'])
|
||||
a_bt = str(building_archetype.archetype_keys['@building_type'])
|
||||
a_cz = str(building_archetype.archetype_keys['@climate_zone'])
|
||||
if (a_yc == str(standard)) and (a_bt == str(building_type)) and (a_cz == str(climate_zone)):
|
||||
return building_archetype
|
||||
def _search_archetype(self, function, year_of_construction, climate_zone):
|
||||
nrel_archetypes = NrelCatalog(self._path).entries('archetypes')
|
||||
for building_archetype in nrel_archetypes:
|
||||
construction_period_limits = building_archetype.construction_period.split(' - ')
|
||||
if construction_period_limits[1] == 'PRESENT':
|
||||
construction_period_limits[1] = 3000
|
||||
if int(construction_period_limits[0]) <= 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
|
||||
return None
|
||||
|
||||
@staticmethod
|
||||
def _search_construction_in_archetype(archetype, construction_type):
|
||||
construction_archetypes = archetype.constructions
|
||||
for construction_archetype in construction_archetypes:
|
||||
if str(construction_type) == str(construction_archetype.type):
|
||||
return construction_archetype
|
||||
return None
|
||||
|
||||
def _assign_values(self, internal_zones, archetype):
|
||||
for internal_zone in internal_zones:
|
||||
for thermal_zone in internal_zone.thermal_zones:
|
||||
thermal_zone.additional_thermal_bridge_u_value = archetype.additional_thermal_bridge_u_value
|
||||
thermal_zone.effective_thermal_capacity = archetype.effective_thermal_capacity
|
||||
thermal_zone.indirectly_heated_area_ratio = archetype.indirectly_heated_area_ratio
|
||||
thermal_zone.infiltration_rate_system_on = archetype.infiltration_rate_system_on
|
||||
thermal_zone.infiltration_rate_system_off = archetype.infiltration_rate_system_off
|
||||
thermal_zone.additional_thermal_bridge_u_value = archetype.extra_loses_due_to_thermal_bridges
|
||||
thermal_zone.effective_thermal_capacity = archetype.thermal_capacity
|
||||
thermal_zone.indirectly_heated_area_ratio = archetype.indirect_heated_ratio
|
||||
thermal_zone.infiltration_rate_system_on = archetype.infiltration_rate_for_ventilation_system_on
|
||||
thermal_zone.infiltration_rate_system_off = archetype.infiltration_rate_for_ventilation_system_off
|
||||
for thermal_boundary in thermal_zone.thermal_boundaries:
|
||||
construction_type = ConstructionHelper.nrel_construction_types[thermal_boundary.type]
|
||||
thermal_boundary_archetype = self._search_construction_in_archetype(archetype, construction_type)
|
||||
thermal_boundary.outside_solar_absorptance = thermal_boundary_archetype.outside_solar_absorptance
|
||||
thermal_boundary.outside_thermal_absorptance = thermal_boundary_archetype.outside_thermal_absorptance
|
||||
thermal_boundary.outside_visible_absorptance = thermal_boundary_archetype.outside_visible_absorptance
|
||||
thermal_boundary.construction_name = thermal_boundary_archetype.construction_name
|
||||
construction_archetype = self._search_construction_in_archetype(archetype, thermal_boundary.type)
|
||||
print('wa', construction_archetype.window)
|
||||
thermal_boundary.construction_name = construction_archetype.name
|
||||
try:
|
||||
thermal_boundary.window_ratio = thermal_boundary_archetype.window_ratio
|
||||
thermal_boundary.window_ratio = construction_archetype.window_ratio
|
||||
except ValueError:
|
||||
# This is the normal operation way when the windows are defined in the geometry
|
||||
continue
|
||||
thermal_boundary.layers = []
|
||||
for layer_archetype in thermal_boundary_archetype.layers:
|
||||
for layer_archetype in construction_archetype.layers:
|
||||
layer = Layer()
|
||||
layer.thickness = layer_archetype.thickness
|
||||
material = Material()
|
||||
archetype_material = layer_archetype.material
|
||||
material.name = layer_archetype.name
|
||||
material.no_mass = layer_archetype.no_mass
|
||||
material.density = layer_archetype.density
|
||||
material.conductivity = layer_archetype.conductivity
|
||||
material.specific_heat = layer_archetype.specific_heat
|
||||
material.solar_absorptance = layer_archetype.solar_absorptance
|
||||
material.thermal_absorptance = layer_archetype.thermal_absorptance
|
||||
material.visible_absorptance = layer_archetype.visible_absorptance
|
||||
material.thermal_resistance = layer_archetype.thermal_resistance
|
||||
material.no_mass = archetype_material.no_mass
|
||||
if archetype_material.no_mass:
|
||||
material.thermal_resistance = archetype_material.thermal_resistance
|
||||
else:
|
||||
material.density = archetype_material.density
|
||||
material.conductivity = archetype_material.conductivity
|
||||
material.specific_heat = archetype_material.specific_heat
|
||||
material.solar_absorptance = archetype_material.solar_absorptance
|
||||
material.thermal_absorptance = archetype_material.thermal_absorptance
|
||||
material.visible_absorptance = archetype_material.visible_absorptance
|
||||
layer.material = material
|
||||
thermal_boundary.layers.append(layer)
|
||||
# The agreement is that the layers are defined from outside to inside
|
||||
external_layer = construction_archetype.layers[0]
|
||||
thermal_boundary.outside_solar_absorptance = external_layer.material.solar_absorptance
|
||||
thermal_boundary.outside_thermal_absorptance = external_layer.material.thermal_absorptance
|
||||
thermal_boundary.outside_visible_absorptance = external_layer.material.visible_absorptance
|
||||
|
||||
for thermal_opening in thermal_boundary.thermal_openings:
|
||||
if thermal_boundary_archetype.thermal_opening_archetype is not None:
|
||||
thermal_opening_archetype = thermal_boundary_archetype.thermal_opening_archetype
|
||||
thermal_opening.construction_name = thermal_opening_archetype.construction_name
|
||||
thermal_opening.frame_ratio = thermal_opening_archetype.frame_ratio
|
||||
thermal_opening.g_value = thermal_opening_archetype.g_value
|
||||
thermal_opening.conductivity = thermal_opening_archetype.conductivity
|
||||
thermal_opening.thickness = thermal_opening_archetype.thickness
|
||||
thermal_opening.back_side_solar_transmittance_at_normal_incidence = \
|
||||
thermal_opening_archetype.back_side_solar_transmittance_at_normal_incidence
|
||||
thermal_opening.front_side_solar_transmittance_at_normal_incidence = \
|
||||
thermal_opening_archetype.front_side_solar_transmittance_at_normal_incidence
|
||||
if construction_archetype.window is not None:
|
||||
window_archetype = construction_archetype.window
|
||||
thermal_opening.construction_name = window_archetype.name
|
||||
thermal_opening.frame_ratio = window_archetype.frame_ratio
|
||||
thermal_opening.g_value = window_archetype.g_value
|
||||
thermal_opening.overall_u_value = window_archetype.overall_u_value
|
||||
|
|
|
@ -108,12 +108,8 @@ class TestConstructionFactory(TestCase):
|
|||
self.assertIsNotNone(thermal_boundary.inclination, 'thermal_boundary inclination is none')
|
||||
self.assertIsNotNone(thermal_boundary.thickness, 'thermal_boundary thickness is none')
|
||||
self.assertIsNotNone(thermal_boundary.type, 'thermal_boundary type is none')
|
||||
if thermal_boundary.type is not cte.GROUND:
|
||||
self.assertIsNotNone(thermal_boundary.outside_solar_absorptance, 'outside_solar_absorptance is none')
|
||||
self.assertIsNotNone(thermal_boundary.shortwave_reflectance, 'shortwave_reflectance is none')
|
||||
else:
|
||||
self.assertIsNone(thermal_boundary.outside_solar_absorptance, 'outside_solar_absorptance is not none')
|
||||
self.assertIsNone(thermal_boundary.shortwave_reflectance, 'shortwave_reflectance is not none')
|
||||
self.assertIsNotNone(thermal_boundary.outside_solar_absorptance, 'outside_solar_absorptance is none')
|
||||
self.assertIsNotNone(thermal_boundary.shortwave_reflectance, 'shortwave_reflectance is none')
|
||||
self.assertIsNotNone(thermal_boundary.thermal_openings, 'thermal_openings is none')
|
||||
self.assertIsNotNone(thermal_boundary.construction_name, 'construction_name is none')
|
||||
self.assertIsNotNone(thermal_boundary.window_ratio, 'window_ratio is none')
|
||||
|
@ -132,11 +128,11 @@ class TestConstructionFactory(TestCase):
|
|||
self.assertIsNotNone(thermal_opening.area, 'thermal opening area is not none')
|
||||
self.assertRaises(Exception, lambda: thermal_opening.openable_ratio,
|
||||
'thermal_opening openable_ratio is not raising an exception')
|
||||
self.assertIsNotNone(thermal_opening.frame_ratio, 'thermal opening frame_ratio is not none')
|
||||
self.assertIsNotNone(thermal_opening.g_value, 'thermal opening g_value is not none')
|
||||
self.assertIsNotNone(thermal_opening.overall_u_value, 'thermal opening overall_u_value is not none')
|
||||
self.assertIsNotNone(thermal_opening.hi, 'thermal opening hi is not none')
|
||||
self.assertIsNotNone(thermal_opening.he, 'thermal opening he is not none')
|
||||
self.assertIsNotNone(thermal_opening.frame_ratio, 'thermal opening frame_ratio is none')
|
||||
self.assertIsNotNone(thermal_opening.g_value, 'thermal opening g_value is none')
|
||||
self.assertIsNotNone(thermal_opening.overall_u_value, 'thermal opening overall_u_value is none')
|
||||
self.assertIsNotNone(thermal_opening.hi, 'thermal opening hi is none')
|
||||
self.assertIsNotNone(thermal_opening.he, 'thermal opening he is none')
|
||||
self.assertIsNone(thermal_opening.inside_emissivity, 'thermal opening inside_emissivity is not none')
|
||||
self.assertIsNone(thermal_opening.alpha_coefficient, 'thermal opening alpha_coefficient is not none')
|
||||
self.assertIsNone(thermal_opening.radiative_coefficient, 'thermal opening radiative_coefficient is not none')
|
||||
|
@ -175,6 +171,7 @@ class TestConstructionFactory(TestCase):
|
|||
file = 'pluto_building.gml'
|
||||
city = self._get_citygml(file)
|
||||
for building in city.buildings:
|
||||
building.year_of_construction = 2005
|
||||
building.function = GeometryHelper.libs_function_from_pluto(building.function)
|
||||
ConstructionFactory('nrel', city).enrich()
|
||||
|
||||
|
|
Loading…
Reference in New Issue
Block a user