Merge branch 'main' into reviewing_units
# Conflicts: # hub/city_model_structure/building_demand/internal_zone.py # hub/city_model_structure/building_demand/thermal_zone.py # hub/exports/building_energy/insel/insel_monthly_energy_balance.py
This commit is contained in:
commit
04ef636423
@ -41,7 +41,7 @@ class Building(CityObject):
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self._floor_area = None
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self._roof_type = None
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self._internal_zones = None
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self._thermal_zones = None
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self._thermal_zones_from_internal_zones = None
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self._shell = None
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self._aliases = []
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self._type = 'building'
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@ -114,26 +114,24 @@ class Building(CityObject):
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:return: [InternalZone]
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"""
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if self._internal_zones is None:
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self._internal_zones = [InternalZone(self.surfaces, self.floor_area)]
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_number_of_storeys = self.eave_height * self.volume / self.floor_area
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self._internal_zones = [InternalZone(self.surfaces, self.floor_area, self.volume, _number_of_storeys)]
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return self._internal_zones
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@property
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def thermal_zones(self) -> Union[None, List[ThermalZone]]:
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def thermal_zones_from_internal_zones(self) -> Union[None, List[ThermalZone]]:
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"""
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Get building thermal zones
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For Lod up to 3, there can be more than one thermal zone per internal zone.
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In LoD 4, there can be more than one internal zone, and therefore, only one thermal zone per internal zone
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:return: [ThermalZone]
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"""
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if self._thermal_zones is None:
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self._thermal_zones = []
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if self._thermal_zones_from_internal_zones is None:
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self._thermal_zones_from_internal_zones = []
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for internal_zone in self.internal_zones:
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if internal_zone.thermal_zones is None:
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self._thermal_zones = None
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return self._thermal_zones
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for thermal_zone in internal_zone.thermal_zones:
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self._thermal_zones.append(thermal_zone)
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return self._thermal_zones
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if internal_zone.thermal_zones_from_internal_zones is None:
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self._thermal_zones_from_internal_zones = None
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return self._thermal_zones_from_internal_zones
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self._thermal_zones_from_internal_zones.append(internal_zone.thermal_zones_from_internal_zones[0])
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return self._thermal_zones_from_internal_zones
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@property
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def grounds(self) -> List[Surface]:
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@ -261,6 +259,15 @@ class Building(CityObject):
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Get building average storey height in meters
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:return: None or float
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"""
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if len(self.internal_zones) > 1:
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self._average_storey_height = 0
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for internal_zone in self.internal_zones:
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self._average_storey_height += internal_zone.mean_height / len(self.internal_zones)
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else:
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if self.internal_zones[0].thermal_archetype is None:
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self._average_storey_height = None
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else:
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self._average_storey_height = self.internal_zones[0].thermal_archetype.average_storey_height
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return self._average_storey_height
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@average_storey_height.setter
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@ -396,7 +403,8 @@ class Building(CityObject):
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"""
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results = {}
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peak_lighting = 0
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for thermal_zone in self.thermal_zones:
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peak = 0
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for thermal_zone in self.thermal_zones_from_internal_zones:
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lighting = thermal_zone.lighting
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for schedule in lighting.schedules:
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peak = max(schedule.values) * lighting.density * thermal_zone.total_floor_area
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@ -414,7 +422,8 @@ class Building(CityObject):
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"""
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results = {}
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peak_appliances = 0
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for thermal_zone in self.thermal_zones:
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peak = 0
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for thermal_zone in self.thermal_zones_from_internal_zones:
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appliances = thermal_zone.appliances
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for schedule in appliances.schedules:
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peak = max(schedule.values) * appliances.density * thermal_zone.total_floor_area
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@ -657,7 +666,7 @@ class Building(CityObject):
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def _calculate_working_hours(self):
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_working_hours = {}
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for internal_zone in self.internal_zones:
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for thermal_zone in internal_zone.thermal_zones:
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for thermal_zone in internal_zone.thermal_zones_from_internal_zones:
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_working_hours_per_thermal_zone = {}
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for schedule in thermal_zone.thermal_control.hvac_availability_schedules:
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_working_hours_per_schedule = [0] * len(schedule.values)
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134
hub/city_model_structure/building_demand/construction.py
Normal file
134
hub/city_model_structure/building_demand/construction.py
Normal file
@ -0,0 +1,134 @@
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"""
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Construction thermal parameters
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SPDX - License - Identifier: LGPL - 3.0 - or -later
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Copyright © 2023 Concordia CERC group
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Project Coder Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca
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"""
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from hub.city_model_structure.building_demand.layer import Layer
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class Construction:
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"""
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Construction class
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"""
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def __init__(self):
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self._type = None
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self._layers = None
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self._window_ratio = None
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self._window_frame_ratio = None
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self._window_g_value = None
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self._window_overall_u_value = None
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self._window_type = None
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@property
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def type(self):
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"""
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Get construction type
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:return: str
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"""
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return self._type
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@type.setter
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def type(self, value):
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"""
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Set construction type
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:param value: str
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"""
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self._type = value
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@property
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def layers(self) -> [Layer]:
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"""
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Get layers
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:return: [layer]
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"""
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return self._layers
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@layers.setter
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def layers(self, value):
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"""
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Set layers
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:param value: [layer]
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"""
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self._layers = value
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@property
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def window_ratio(self):
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"""
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Get window ratio
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:return: dict
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"""
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return self._window_ratio
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@window_ratio.setter
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def window_ratio(self, value):
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"""
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Set window ratio
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:param value: dict
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"""
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self._window_ratio = value
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@property
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def window_frame_ratio(self):
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"""
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Get window frame ratio
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:return: float
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"""
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return self._window_frame_ratio
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@window_frame_ratio.setter
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def window_frame_ratio(self, value):
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"""
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Set window frame ratio
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:param value: float
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"""
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self._window_frame_ratio = value
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@property
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def window_g_value(self):
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"""
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Get transparent surface g-value
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:return: float
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"""
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return self._window_g_value
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@window_g_value.setter
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def window_g_value(self, value):
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"""
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Set transparent surface g-value
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:param value: float
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"""
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self._window_g_value = value
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@property
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def window_overall_u_value(self):
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"""
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Get transparent surface overall U-value in W/m2K
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:return: float
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"""
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return self._window_overall_u_value
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@window_overall_u_value.setter
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def window_overall_u_value(self, value):
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"""
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Set transparent surface overall U-value in W/m2K
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:param value: float
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"""
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self._window_overall_u_value = value
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@property
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def window_type(self):
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"""
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Get transparent surface type, 'window' or 'skylight'
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:return: str
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"""
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return self._window_type
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@window_type.setter
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def window_type(self, value):
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"""
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Set transparent surface type, 'window' or 'skylight'
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:return: str
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"""
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self._window_type = value
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@ -8,7 +8,9 @@ Project Coder Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca
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import uuid
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from typing import Union, List
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from hub.city_model_structure.building_demand.usage import Usage
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from hub.city_model_structure.building_demand.thermal_archetype import ThermalArchetype
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from hub.city_model_structure.building_demand.thermal_zone import ThermalZone
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from hub.city_model_structure.building_demand.thermal_boundary import ThermalBoundary
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from hub.city_model_structure.attributes.polyhedron import Polyhedron
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@ -16,14 +18,16 @@ class InternalZone:
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"""
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InternalZone class
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"""
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def __init__(self, surfaces, area):
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def __init__(self, surfaces, area, volume, number_of_storeys=None):
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self._surfaces = surfaces
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self._id = None
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self._geometry = None
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self._volume = None
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self._volume = volume
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self._area = area
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self._thermal_zones = None
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self._number_of_storeys = number_of_storeys
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self._thermal_zones_from_internal_zones = None
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self._usages = None
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self._thermal_archetype = None
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@property
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def id(self):
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@ -62,7 +66,7 @@ class InternalZone:
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Get internal zone volume in cubic meters
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:return: float
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"""
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return self.geometry.volume
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return self._volume
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@property
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def area(self):
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@ -72,10 +76,18 @@ class InternalZone:
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"""
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return self._area
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@property
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def mean_height(self):
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"""
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Get internal zone mean height in meters
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:return: float
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"""
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return self.volume / self.area
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@property
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def usages(self) -> [Usage]:
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"""
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Get internal zone usages
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Get usage archetypes
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:return: [Usage]
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"""
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return self._usages
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@ -83,23 +95,53 @@ class InternalZone:
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@usages.setter
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def usages(self, value):
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"""
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Set internal zone usages
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Set usage archetypes
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:param value: [Usage]
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"""
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self._usages = value
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@property
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def thermal_zones(self) -> Union[None, List[ThermalZone]]:
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def thermal_archetype(self) -> ThermalArchetype:
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"""
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Get building thermal zones
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Get thermal archetype parameters
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:return: ThermalArchetype
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"""
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return self._thermal_archetype
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@thermal_archetype.setter
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def thermal_archetype(self, value):
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"""
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Set thermal archetype parameters
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:param value: ThermalArchetype
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"""
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self._thermal_archetype = value
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@property
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def thermal_zones_from_internal_zones(self) -> Union[None, List[ThermalZone]]:
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"""
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Get building thermal zones as one per internal zone
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:return: [ThermalZone]
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"""
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return self._thermal_zones
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_thermal_boundaries = []
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for surface in self.surfaces:
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if surface.holes_polygons is None:
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windows_areas = None
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else:
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windows_areas = []
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for hole in surface.holes_polygons:
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windows_areas.append(hole.area)
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_thermal_boundary = ThermalBoundary(surface, surface.solid_polygon.area, windows_areas)
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_thermal_boundaries.append(_thermal_boundary)
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_thermal_zone = ThermalZone(_thermal_boundaries, self, self.volume, self.area, self._number_of_storeys)
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for thermal_boundary in _thermal_zone.thermal_boundaries:
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thermal_boundary.thermal_zones = [_thermal_zone]
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self._thermal_zones_from_internal_zones = [_thermal_zone]
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return self._thermal_zones_from_internal_zones
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@thermal_zones.setter
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def thermal_zones(self, value):
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@thermal_zones_from_internal_zones.setter
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def thermal_zones_from_internal_zones(self, value):
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"""
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Set city object thermal zones
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Set city object thermal zones as one per internal zone
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:param value: [ThermalZone]
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"""
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self._thermal_zones = value
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self._thermal_zones_from_internal_zones = value
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|
@ -4,9 +4,9 @@ SPDX - License - Identifier: LGPL - 3.0 - or -later
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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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|
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import uuid
|
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from typing import Union
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from hub.city_model_structure.building_demand.material import Material
|
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||||
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class Layer:
|
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@ -14,9 +14,17 @@ class Layer:
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||||
Layer class
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||||
"""
|
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def __init__(self):
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||||
self._material = None
|
||||
self._thickness = None
|
||||
self._id = None
|
||||
self._name = None
|
||||
self._conductivity = None
|
||||
self._specific_heat = None
|
||||
self._density = None
|
||||
self._solar_absorptance = None
|
||||
self._thermal_absorptance = None
|
||||
self._visible_absorptance = None
|
||||
self._no_mass = False
|
||||
self._thermal_resistance = None
|
||||
|
||||
@property
|
||||
def id(self):
|
||||
@ -28,22 +36,6 @@ class Layer:
|
||||
self._id = uuid.uuid4()
|
||||
return self._id
|
||||
|
||||
@property
|
||||
def material(self) -> Material:
|
||||
"""
|
||||
Get layer material
|
||||
:return: Material
|
||||
"""
|
||||
return self._material
|
||||
|
||||
@material.setter
|
||||
def material(self, value):
|
||||
"""
|
||||
Set layer material
|
||||
:param value: Material
|
||||
"""
|
||||
self._material = value
|
||||
|
||||
@property
|
||||
def thickness(self) -> Union[None, float]:
|
||||
"""
|
||||
@ -60,3 +52,155 @@ class Layer:
|
||||
"""
|
||||
if value is not None:
|
||||
self._thickness = float(value)
|
||||
|
||||
@property
|
||||
def name(self):
|
||||
"""
|
||||
Get material name
|
||||
:return: str
|
||||
"""
|
||||
return self._name
|
||||
|
||||
@name.setter
|
||||
def name(self, value):
|
||||
"""
|
||||
Set material name
|
||||
:param value: string
|
||||
"""
|
||||
self._name = str(value)
|
||||
|
||||
@property
|
||||
def conductivity(self) -> Union[None, float]:
|
||||
"""
|
||||
Get material conductivity in W/mK
|
||||
:return: None or float
|
||||
"""
|
||||
return self._conductivity
|
||||
|
||||
@conductivity.setter
|
||||
def conductivity(self, value):
|
||||
"""
|
||||
Set material conductivity in W/mK
|
||||
:param value: float
|
||||
"""
|
||||
if value is not None:
|
||||
self._conductivity = float(value)
|
||||
|
||||
@property
|
||||
def specific_heat(self) -> Union[None, float]:
|
||||
"""
|
||||
Get material conductivity in J/kgK
|
||||
:return: None or float
|
||||
"""
|
||||
return self._specific_heat
|
||||
|
||||
@specific_heat.setter
|
||||
def specific_heat(self, value):
|
||||
"""
|
||||
Get material conductivity in J/kgK
|
||||
:param value: float
|
||||
"""
|
||||
if value is not None:
|
||||
self._specific_heat = float(value)
|
||||
|
||||
@property
|
||||
def density(self) -> Union[None, float]:
|
||||
"""
|
||||
Get material density in kg/m3
|
||||
:return: None or float
|
||||
"""
|
||||
return self._density
|
||||
|
||||
@density.setter
|
||||
def density(self, value):
|
||||
"""
|
||||
Set material density
|
||||
:param value: float
|
||||
"""
|
||||
if value is not None:
|
||||
self._density = float(value)
|
||||
|
||||
@property
|
||||
def solar_absorptance(self) -> Union[None, float]:
|
||||
"""
|
||||
Get material solar absorptance
|
||||
:return: None or float
|
||||
"""
|
||||
return self._solar_absorptance
|
||||
|
||||
@solar_absorptance.setter
|
||||
def solar_absorptance(self, value):
|
||||
"""
|
||||
Set material solar absorptance
|
||||
:param value: float
|
||||
"""
|
||||
if value is not None:
|
||||
self._solar_absorptance = float(value)
|
||||
|
||||
@property
|
||||
def thermal_absorptance(self) -> Union[None, float]:
|
||||
"""
|
||||
Get material thermal absorptance
|
||||
:return: None or float
|
||||
"""
|
||||
return self._thermal_absorptance
|
||||
|
||||
@thermal_absorptance.setter
|
||||
def thermal_absorptance(self, value):
|
||||
"""
|
||||
Set material thermal absorptance
|
||||
:param value: float
|
||||
"""
|
||||
if value is not None:
|
||||
self._thermal_absorptance = float(value)
|
||||
|
||||
@property
|
||||
def visible_absorptance(self) -> Union[None, float]:
|
||||
"""
|
||||
Get material visible absorptance
|
||||
:return: None or float
|
||||
"""
|
||||
return self._visible_absorptance
|
||||
|
||||
@visible_absorptance.setter
|
||||
def visible_absorptance(self, value):
|
||||
"""
|
||||
Set material visible absorptance
|
||||
:param value: float
|
||||
"""
|
||||
if value is not None:
|
||||
self._visible_absorptance = float(value)
|
||||
|
||||
@property
|
||||
def no_mass(self) -> Union[None, bool]:
|
||||
"""
|
||||
Get material no mass flag
|
||||
:return: None or Boolean
|
||||
"""
|
||||
return self._no_mass
|
||||
|
||||
@no_mass.setter
|
||||
def no_mass(self, value):
|
||||
"""
|
||||
Set material no mass flag
|
||||
:param value: Boolean
|
||||
"""
|
||||
if value is not None:
|
||||
self._no_mass = value
|
||||
|
||||
@property
|
||||
def thermal_resistance(self) -> Union[None, float]:
|
||||
"""
|
||||
Get material thermal resistance in m2K/W
|
||||
:return: None or float
|
||||
"""
|
||||
return self._thermal_resistance
|
||||
|
||||
@thermal_resistance.setter
|
||||
def thermal_resistance(self, value):
|
||||
"""
|
||||
Set material thermal resistance in m2K/W
|
||||
:param value: float
|
||||
"""
|
||||
if value is not None:
|
||||
self._thermal_resistance = float(value)
|
||||
|
@ -1,193 +0,0 @@
|
||||
"""
|
||||
Material module
|
||||
SPDX - License - Identifier: LGPL - 3.0 - or -later
|
||||
Copyright © 2022 Concordia CERC group
|
||||
Project Coder Guille Gutierrez guillermo.gutierrezmorote@concordia.ca
|
||||
"""
|
||||
|
||||
from typing import Union
|
||||
|
||||
|
||||
class Material:
|
||||
"""
|
||||
Material class
|
||||
"""
|
||||
def __init__(self):
|
||||
self._id = None
|
||||
self._name = None
|
||||
self._conductivity = None
|
||||
self._specific_heat = None
|
||||
self._density = None
|
||||
self._solar_absorptance = None
|
||||
self._thermal_absorptance = None
|
||||
self._visible_absorptance = None
|
||||
self._no_mass = False
|
||||
self._thermal_resistance = None
|
||||
|
||||
@property
|
||||
def id(self):
|
||||
"""
|
||||
Get material id
|
||||
:return: str
|
||||
"""
|
||||
return self._id
|
||||
|
||||
@id.setter
|
||||
def id(self, value):
|
||||
"""
|
||||
Set material id
|
||||
:param value: str
|
||||
"""
|
||||
self._id = value
|
||||
|
||||
@property
|
||||
def name(self):
|
||||
"""
|
||||
Get material name
|
||||
:return: str
|
||||
"""
|
||||
return self._name
|
||||
|
||||
@name.setter
|
||||
def name(self, value):
|
||||
"""
|
||||
Set material name
|
||||
:param value: string
|
||||
"""
|
||||
self._name = str(value)
|
||||
|
||||
@property
|
||||
def conductivity(self) -> Union[None, float]:
|
||||
"""
|
||||
Get material conductivity in W/mK
|
||||
:return: None or float
|
||||
"""
|
||||
return self._conductivity
|
||||
|
||||
@conductivity.setter
|
||||
def conductivity(self, value):
|
||||
"""
|
||||
Set material conductivity in W/mK
|
||||
:param value: float
|
||||
"""
|
||||
if value is not None:
|
||||
self._conductivity = float(value)
|
||||
|
||||
@property
|
||||
def specific_heat(self) -> Union[None, float]:
|
||||
"""
|
||||
Get material conductivity in J/kgK
|
||||
:return: None or float
|
||||
"""
|
||||
return self._specific_heat
|
||||
|
||||
@specific_heat.setter
|
||||
def specific_heat(self, value):
|
||||
"""
|
||||
Get material conductivity in J/kgK
|
||||
:param value: float
|
||||
"""
|
||||
if value is not None:
|
||||
self._specific_heat = float(value)
|
||||
|
||||
@property
|
||||
def density(self) -> Union[None, float]:
|
||||
"""
|
||||
Get material density in kg/m3
|
||||
:return: None or float
|
||||
"""
|
||||
return self._density
|
||||
|
||||
@density.setter
|
||||
def density(self, value):
|
||||
"""
|
||||
Set material density
|
||||
:param value: float
|
||||
"""
|
||||
if value is not None:
|
||||
self._density = float(value)
|
||||
|
||||
@property
|
||||
def solar_absorptance(self) -> Union[None, float]:
|
||||
"""
|
||||
Get material solar absorptance
|
||||
:return: None or float
|
||||
"""
|
||||
return self._solar_absorptance
|
||||
|
||||
@solar_absorptance.setter
|
||||
def solar_absorptance(self, value):
|
||||
"""
|
||||
Set material solar absorptance
|
||||
:param value: float
|
||||
"""
|
||||
if value is not None:
|
||||
self._solar_absorptance = float(value)
|
||||
|
||||
@property
|
||||
def thermal_absorptance(self) -> Union[None, float]:
|
||||
"""
|
||||
Get material thermal absorptance
|
||||
:return: None or float
|
||||
"""
|
||||
return self._thermal_absorptance
|
||||
|
||||
@thermal_absorptance.setter
|
||||
def thermal_absorptance(self, value):
|
||||
"""
|
||||
Set material thermal absorptance
|
||||
:param value: float
|
||||
"""
|
||||
if value is not None:
|
||||
self._thermal_absorptance = float(value)
|
||||
|
||||
@property
|
||||
def visible_absorptance(self) -> Union[None, float]:
|
||||
"""
|
||||
Get material visible absorptance
|
||||
:return: None or float
|
||||
"""
|
||||
return self._visible_absorptance
|
||||
|
||||
@visible_absorptance.setter
|
||||
def visible_absorptance(self, value):
|
||||
"""
|
||||
Set material visible absorptance
|
||||
:param value: float
|
||||
"""
|
||||
if value is not None:
|
||||
self._visible_absorptance = float(value)
|
||||
|
||||
@property
|
||||
def no_mass(self) -> Union[None, bool]:
|
||||
"""
|
||||
Get material no mass flag
|
||||
:return: None or Boolean
|
||||
"""
|
||||
return self._no_mass
|
||||
|
||||
@no_mass.setter
|
||||
def no_mass(self, value):
|
||||
"""
|
||||
Set material no mass flag
|
||||
:param value: Boolean
|
||||
"""
|
||||
if value is not None:
|
||||
self._no_mass = value
|
||||
|
||||
@property
|
||||
def thermal_resistance(self) -> Union[None, float]:
|
||||
"""
|
||||
Get material thermal resistance in m2K/W
|
||||
:return: None or float
|
||||
"""
|
||||
return self._thermal_resistance
|
||||
|
||||
@thermal_resistance.setter
|
||||
def thermal_resistance(self, value):
|
||||
"""
|
||||
Set material thermal resistance in m2K/W
|
||||
:param value: float
|
||||
"""
|
||||
if value is not None:
|
||||
self._thermal_resistance = float(value)
|
134
hub/city_model_structure/building_demand/thermal_archetype.py
Normal file
134
hub/city_model_structure/building_demand/thermal_archetype.py
Normal file
@ -0,0 +1,134 @@
|
||||
"""
|
||||
Thermal archetype module
|
||||
SPDX - License - Identifier: LGPL - 3.0 - or -later
|
||||
Copyright © 2022 Concordia CERC group
|
||||
Project Coder Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca
|
||||
"""
|
||||
|
||||
from hub.city_model_structure.building_demand.construction import Construction
|
||||
|
||||
|
||||
class ThermalArchetype:
|
||||
"""
|
||||
ThermalArchetype class
|
||||
"""
|
||||
def __init__(self):
|
||||
self._constructions = None
|
||||
self._average_storey_height = None
|
||||
self._thermal_capacity = None
|
||||
self._extra_loses_due_to_thermal_bridges = None
|
||||
self._indirect_heated_ratio = None
|
||||
self._infiltration_rate_for_ventilation_system_off = None
|
||||
self._infiltration_rate_for_ventilation_system_on = None
|
||||
|
||||
@property
|
||||
def constructions(self) -> [Construction]:
|
||||
"""
|
||||
Get archetype constructions
|
||||
:return: [Construction]
|
||||
"""
|
||||
return self._constructions
|
||||
|
||||
@constructions.setter
|
||||
def constructions(self, value):
|
||||
"""
|
||||
Set archetype constructions
|
||||
:param value: [Construction]
|
||||
"""
|
||||
self._constructions = value
|
||||
|
||||
@property
|
||||
def average_storey_height(self):
|
||||
"""
|
||||
Get average storey height in m
|
||||
:return: float
|
||||
"""
|
||||
return self._average_storey_height
|
||||
|
||||
@average_storey_height.setter
|
||||
def average_storey_height(self, value):
|
||||
"""
|
||||
Set average storey height in m
|
||||
:param value: float
|
||||
"""
|
||||
self._average_storey_height = value
|
||||
|
||||
@property
|
||||
def thermal_capacity(self):
|
||||
"""
|
||||
Get thermal capacity in J/m3K
|
||||
:return: float
|
||||
"""
|
||||
return self._thermal_capacity
|
||||
|
||||
@thermal_capacity.setter
|
||||
def thermal_capacity(self, value):
|
||||
"""
|
||||
Set thermal capacity in J/m3K
|
||||
:param value: float
|
||||
"""
|
||||
self._thermal_capacity = value
|
||||
|
||||
@property
|
||||
def extra_loses_due_to_thermal_bridges(self):
|
||||
"""
|
||||
Get extra loses due to thermal bridges in W/m2K
|
||||
:return: float
|
||||
"""
|
||||
return self._extra_loses_due_to_thermal_bridges
|
||||
|
||||
@extra_loses_due_to_thermal_bridges.setter
|
||||
def extra_loses_due_to_thermal_bridges(self, value):
|
||||
"""
|
||||
Set extra loses due to thermal bridges in W/m2K
|
||||
:param value: float
|
||||
"""
|
||||
self._extra_loses_due_to_thermal_bridges = value
|
||||
|
||||
@property
|
||||
def indirect_heated_ratio(self):
|
||||
"""
|
||||
Get indirect heated area ratio
|
||||
:return: float
|
||||
"""
|
||||
return self._indirect_heated_ratio
|
||||
|
||||
@indirect_heated_ratio.setter
|
||||
def indirect_heated_ratio(self, value):
|
||||
"""
|
||||
Set indirect heated area ratio
|
||||
:param value: float
|
||||
"""
|
||||
self._indirect_heated_ratio = value
|
||||
|
||||
@property
|
||||
def infiltration_rate_for_ventilation_system_off(self):
|
||||
"""
|
||||
Get infiltration rate for ventilation system off in ACH
|
||||
:return: float
|
||||
"""
|
||||
return self._infiltration_rate_for_ventilation_system_off
|
||||
|
||||
@infiltration_rate_for_ventilation_system_off.setter
|
||||
def infiltration_rate_for_ventilation_system_off(self, value):
|
||||
"""
|
||||
Set infiltration rate for ventilation system off in ACH
|
||||
:param value: float
|
||||
"""
|
||||
self._infiltration_rate_for_ventilation_system_off = value
|
||||
|
||||
@property
|
||||
def infiltration_rate_for_ventilation_system_on(self):
|
||||
"""
|
||||
Get infiltration rate for ventilation system on in ACH
|
||||
:return: float
|
||||
"""
|
||||
return self._infiltration_rate_for_ventilation_system_on
|
||||
|
||||
@infiltration_rate_for_ventilation_system_on.setter
|
||||
def infiltration_rate_for_ventilation_system_on(self, value):
|
||||
"""
|
||||
Set infiltration rate for ventilation system on in ACH
|
||||
:param value: float
|
||||
"""
|
||||
self._infiltration_rate_for_ventilation_system_on = value
|
@ -7,7 +7,9 @@ Code contributors: Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concord
|
||||
"""
|
||||
|
||||
import uuid
|
||||
import math
|
||||
from typing import List, Union, TypeVar
|
||||
import logging
|
||||
from hub.helpers.configuration_helper import ConfigurationHelper as ch
|
||||
import hub.helpers.constants as cte
|
||||
from hub.city_model_structure.building_demand.layer import Layer
|
||||
@ -35,7 +37,8 @@ class ThermalBoundary:
|
||||
self._construction_name = None
|
||||
self._thickness = None
|
||||
self._internal_surface = None
|
||||
self._window_ratio = None
|
||||
self._external_surface = None
|
||||
self._window_ratio = 0
|
||||
self._window_ratio_to_be_calculated = False
|
||||
if self._windows_areas is not None:
|
||||
self._window_ratio_to_be_calculated = True
|
||||
@ -53,7 +56,7 @@ class ThermalBoundary:
|
||||
@property
|
||||
def parent_surface(self) -> Surface:
|
||||
"""
|
||||
Get the surface that belongs to the thermal boundary
|
||||
Get the surface that belongs to the thermal boundary, considered the external surface of that boundary
|
||||
:return: Surface
|
||||
"""
|
||||
return self._parent_surface
|
||||
@ -92,7 +95,7 @@ class ThermalBoundary:
|
||||
self._thickness = 0.0
|
||||
if self.layers is not None:
|
||||
for layer in self.layers:
|
||||
if not layer.material.no_mass:
|
||||
if not layer.no_mass:
|
||||
self._thickness += layer.thickness
|
||||
return self._thickness
|
||||
|
||||
@ -148,24 +151,21 @@ class ThermalBoundary:
|
||||
else:
|
||||
_area = self.opaque_area * self.window_ratio / (1-self.window_ratio)
|
||||
_thermal_opening.area = _area
|
||||
self._thermal_openings = [_thermal_opening]
|
||||
for thermal_opening in self._thermal_openings:
|
||||
thermal_opening.g_value = self._construction_archetype.window_g_value
|
||||
thermal_opening.overall_u_value = self._construction_archetype.window_overall_u_value
|
||||
thermal_opening.frame_ratio = self._construction_archetype.window_frame_ratio
|
||||
thermal_opening.construction_name = self._construction_archetype.window_type
|
||||
return self._thermal_openings
|
||||
|
||||
@property
|
||||
def construction_name(self) -> Union[None, str]:
|
||||
"""
|
||||
Get construction name
|
||||
:return: None or str
|
||||
"""
|
||||
return self._construction_name
|
||||
|
||||
@construction_name.setter
|
||||
def construction_name(self, value):
|
||||
"""
|
||||
Set construction name
|
||||
:param value: str
|
||||
"""
|
||||
if value is not None:
|
||||
self._construction_name = str(value)
|
||||
def _construction_archetype(self):
|
||||
construction_archetypes = self.thermal_zones[0].parent_internal_zone.thermal_archetype.constructions
|
||||
for construction_archetype in construction_archetypes:
|
||||
if str(self.type) == str(construction_archetype.type):
|
||||
return construction_archetype
|
||||
return None
|
||||
|
||||
@property
|
||||
def layers(self) -> List[Layer]:
|
||||
@ -173,16 +173,13 @@ class ThermalBoundary:
|
||||
Get thermal boundary layers
|
||||
:return: [Layers]
|
||||
"""
|
||||
if self._construction_archetype is not None:
|
||||
self._layers = self._construction_archetype.layers
|
||||
else:
|
||||
logging.error('Layers not defined\n')
|
||||
raise ValueError('Layers not defined')
|
||||
return self._layers
|
||||
|
||||
@layers.setter
|
||||
def layers(self, value):
|
||||
"""
|
||||
Set thermal boundary layers
|
||||
:param value: [Layer]
|
||||
"""
|
||||
self._layers = value
|
||||
|
||||
@property
|
||||
def type(self):
|
||||
"""
|
||||
@ -209,18 +206,23 @@ class ThermalBoundary:
|
||||
for window_area in self.windows_areas:
|
||||
total_window_area += window_area
|
||||
self._window_ratio = total_window_area / (self.opaque_area + total_window_area)
|
||||
else:
|
||||
if self.type in (cte.WALL, cte.ROOF):
|
||||
if -math.sqrt(2) / 2 < math.sin(self.parent_surface.azimuth) < math.sqrt(2) / 2:
|
||||
if 0 < math.cos(self.parent_surface.azimuth):
|
||||
self._window_ratio = \
|
||||
float(self._construction_archetype.window_ratio['north']) / 100
|
||||
else:
|
||||
self._window_ratio = \
|
||||
float(self._construction_archetype.window_ratio['south']) / 100
|
||||
elif math.sqrt(2) / 2 <= math.sin(self._parent_surface.azimuth):
|
||||
self._window_ratio = \
|
||||
float(self._construction_archetype.window_ratio['east']) / 100
|
||||
else:
|
||||
self._window_ratio = \
|
||||
float(self._construction_archetype.window_ratio['west']) / 100
|
||||
return self._window_ratio
|
||||
|
||||
@window_ratio.setter
|
||||
def window_ratio(self, value):
|
||||
"""
|
||||
Set thermal boundary window ratio
|
||||
:param value: str
|
||||
"""
|
||||
if self._window_ratio_to_be_calculated:
|
||||
raise ValueError('Window ratio cannot be assigned when the windows are defined in the geometry.')
|
||||
self._window_ratio = float(value)
|
||||
|
||||
@property
|
||||
def windows_areas(self) -> [float]:
|
||||
"""
|
||||
@ -245,10 +247,10 @@ class ThermalBoundary:
|
||||
r_value = 1.0/h_i + 1.0/h_e
|
||||
try:
|
||||
for layer in self.layers:
|
||||
if layer.material.no_mass:
|
||||
r_value += float(layer.material.thermal_resistance)
|
||||
if layer.no_mass:
|
||||
r_value += float(layer.thermal_resistance)
|
||||
else:
|
||||
r_value += float(layer.thickness) / float(layer.material.conductivity)
|
||||
r_value += float(layer.thickness) / float(layer.conductivity)
|
||||
self._u_value = 1.0/r_value
|
||||
except TypeError:
|
||||
raise TypeError('Constructions layers are not initialized') from TypeError
|
||||
@ -305,4 +307,18 @@ class ThermalBoundary:
|
||||
"""
|
||||
if self._internal_surface is None:
|
||||
self._internal_surface = self.parent_surface.inverse
|
||||
# The agreement is that the layers are defined from outside to inside
|
||||
internal_layer = self.layers[len(self.layers) - 1]
|
||||
self._internal_surface.short_wave_reflectance = 1 - internal_layer.solar_absorptance
|
||||
self._internal_surface.long_wave_emittance = 1 - internal_layer.solar_absorptance
|
||||
|
||||
return self._internal_surface
|
||||
|
||||
@property
|
||||
def external_surface(self) -> Surface:
|
||||
if self._external_surface is None:
|
||||
# The agreement is that the layers are defined from outside to inside
|
||||
self._external_surface = self.parent_surface
|
||||
self._external_surface.short_wave_reflectance = 1 - self.layers[0].solar_absorptance
|
||||
self._external_surface.long_wave_emittance = 1 - self.layers[0].solar_absorptance
|
||||
return self._external_surface
|
||||
|
@ -29,7 +29,12 @@ class ThermalZone:
|
||||
ThermalZone class
|
||||
"""
|
||||
|
||||
def __init__(self, thermal_boundaries, parent_internal_zone, volume, footprint_area, usage_name=None):
|
||||
def __init__(self, thermal_boundaries,
|
||||
parent_internal_zone,
|
||||
volume,
|
||||
footprint_area,
|
||||
number_of_storeys,
|
||||
usage_name=None):
|
||||
self._id = None
|
||||
self._parent_internal_zone = parent_internal_zone
|
||||
self._footprint_area = footprint_area
|
||||
@ -43,6 +48,7 @@ class ThermalZone:
|
||||
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:
|
||||
@ -58,6 +64,14 @@ class ThermalZone:
|
||||
self._domestic_hot_water = None
|
||||
self._usages = None
|
||||
|
||||
@property
|
||||
def parent_internal_zone(self) -> InternalZone:
|
||||
"""
|
||||
Get the internal zone to which this thermal zone belongs
|
||||
:return: InternalZone
|
||||
"""
|
||||
return self._parent_internal_zone
|
||||
|
||||
@property
|
||||
def usages(self):
|
||||
"""
|
||||
@ -113,83 +127,45 @@ class ThermalZone:
|
||||
Get thermal zone additional thermal bridge u value per footprint area W/m2K
|
||||
:return: None or float
|
||||
"""
|
||||
self._additional_thermal_bridge_u_value = self.parent_internal_zone.thermal_archetype.extra_loses_due_to_thermal_bridges
|
||||
return self._additional_thermal_bridge_u_value
|
||||
|
||||
@additional_thermal_bridge_u_value.setter
|
||||
def additional_thermal_bridge_u_value(self, value):
|
||||
"""
|
||||
Set thermal zone additional thermal bridge u value per footprint area W/m2K
|
||||
:param value: float
|
||||
"""
|
||||
if value is not None:
|
||||
self._additional_thermal_bridge_u_value = float(value)
|
||||
|
||||
@property
|
||||
def effective_thermal_capacity(self) -> Union[None, float]:
|
||||
"""
|
||||
Get thermal zone effective thermal capacity in J/m3K
|
||||
:return: None or float
|
||||
"""
|
||||
self._effective_thermal_capacity = self._parent_internal_zone.thermal_archetype.thermal_capacity
|
||||
return self._effective_thermal_capacity
|
||||
|
||||
@effective_thermal_capacity.setter
|
||||
def effective_thermal_capacity(self, value):
|
||||
"""
|
||||
Set thermal zone effective thermal capacity in J/m3K
|
||||
:param value: float
|
||||
"""
|
||||
if value is not None:
|
||||
self._effective_thermal_capacity = float(value)
|
||||
|
||||
@property
|
||||
def indirectly_heated_area_ratio(self) -> Union[None, float]:
|
||||
"""
|
||||
Get thermal zone indirectly heated area ratio
|
||||
:return: None or float
|
||||
"""
|
||||
self._indirectly_heated_area_ratio = self._parent_internal_zone.thermal_archetype.indirect_heated_ratio
|
||||
return self._indirectly_heated_area_ratio
|
||||
|
||||
@indirectly_heated_area_ratio.setter
|
||||
def indirectly_heated_area_ratio(self, value):
|
||||
"""
|
||||
Set thermal zone indirectly heated area ratio
|
||||
:param value: float
|
||||
"""
|
||||
if value is not None:
|
||||
self._indirectly_heated_area_ratio = float(value)
|
||||
|
||||
@property
|
||||
def infiltration_rate_system_on(self):
|
||||
"""
|
||||
Get thermal zone infiltration rate system on in air changes per second (1/s)
|
||||
:return: None or float
|
||||
"""
|
||||
self._infiltration_rate_system_on = self._parent_internal_zone.thermal_archetype.infiltration_rate_for_ventilation_system_on
|
||||
return self._infiltration_rate_system_on
|
||||
|
||||
@infiltration_rate_system_on.setter
|
||||
def infiltration_rate_system_on(self, value):
|
||||
"""
|
||||
Set thermal zone infiltration rate system on in air changes per second (1/s)
|
||||
:param value: float
|
||||
"""
|
||||
self._infiltration_rate_system_on = value
|
||||
|
||||
@property
|
||||
def infiltration_rate_system_off(self):
|
||||
"""
|
||||
Get thermal zone infiltration rate system off in air changes per second (1/s)
|
||||
:return: None or float
|
||||
"""
|
||||
self._infiltration_rate_system_off = self._parent_internal_zone.thermal_archetype.infiltration_rate_for_ventilation_system_off
|
||||
return self._infiltration_rate_system_off
|
||||
|
||||
@infiltration_rate_system_off.setter
|
||||
def infiltration_rate_system_off(self, value):
|
||||
"""
|
||||
Set thermal zone infiltration rate system on in air changes per second (1/s)
|
||||
:param value: float
|
||||
"""
|
||||
self._infiltration_rate_system_off = value
|
||||
|
||||
@property
|
||||
def volume(self):
|
||||
"""
|
||||
@ -221,15 +197,43 @@ class ThermalZone:
|
||||
Get thermal zone view factors matrix
|
||||
:return: [[float]]
|
||||
"""
|
||||
return self._view_factors_matrix
|
||||
# todo: review method if windows not in window_ratio but in geometry
|
||||
if self._view_factors_matrix is None:
|
||||
total_area = 0
|
||||
for thermal_boundary in self.thermal_boundaries:
|
||||
total_area += thermal_boundary.opaque_area
|
||||
for thermal_opening in thermal_boundary.thermal_openings:
|
||||
total_area += thermal_opening.area
|
||||
|
||||
@view_factors_matrix.setter
|
||||
def view_factors_matrix(self, value):
|
||||
"""
|
||||
Set thermal zone view factors matrix
|
||||
:param value: [[float]]
|
||||
"""
|
||||
self._view_factors_matrix = value
|
||||
view_factors_matrix = []
|
||||
for thermal_boundary_1 in self.thermal_boundaries:
|
||||
values = []
|
||||
for thermal_boundary_2 in self.thermal_boundaries:
|
||||
value = 0
|
||||
if thermal_boundary_1.id != thermal_boundary_2.id:
|
||||
value = thermal_boundary_2.opaque_area / (total_area - thermal_boundary_1.opaque_area)
|
||||
values.append(value)
|
||||
for thermal_boundary in self.thermal_boundaries:
|
||||
for thermal_opening in thermal_boundary.thermal_openings:
|
||||
value = thermal_opening.area / (total_area - thermal_boundary_1.opaque_area)
|
||||
values.append(value)
|
||||
view_factors_matrix.append(values)
|
||||
|
||||
for thermal_boundary_1 in self.thermal_boundaries:
|
||||
values = []
|
||||
for thermal_opening_1 in thermal_boundary_1.thermal_openings:
|
||||
for thermal_boundary_2 in self.thermal_boundaries:
|
||||
value = thermal_boundary_2.opaque_area / (total_area - thermal_opening_1.area)
|
||||
values.append(value)
|
||||
for thermal_boundary in self.thermal_boundaries:
|
||||
for thermal_opening_2 in thermal_boundary.thermal_openings:
|
||||
value = 0
|
||||
if thermal_opening_1.id != thermal_opening_2.id:
|
||||
value = thermal_opening_2.area / (total_area - thermal_opening_1.area)
|
||||
values.append(value)
|
||||
view_factors_matrix.append(values)
|
||||
self._view_factors_matrix = view_factors_matrix
|
||||
return self._view_factors_matrix
|
||||
|
||||
@property
|
||||
def usage_name(self) -> Union[None, str]:
|
||||
@ -656,12 +660,5 @@ class ThermalZone:
|
||||
Get the total floor area of this thermal zone in m2
|
||||
:return: float
|
||||
"""
|
||||
self._total_floor_area = self.footprint_area * self._number_of_storeys
|
||||
return self._total_floor_area
|
||||
|
||||
@total_floor_area.setter
|
||||
def total_floor_area(self, value):
|
||||
"""
|
||||
Set the total floor area of this thermal zone in m2
|
||||
:param value: float
|
||||
"""
|
||||
self._total_floor_area = value
|
||||
|
@ -335,7 +335,7 @@ class EnergyAde:
|
||||
def _thermal_zones(self, building, city):
|
||||
thermal_zones = []
|
||||
for internal_zone in building.internal_zones:
|
||||
for index, thermal_zone in enumerate(internal_zone.thermal_zones):
|
||||
for index, thermal_zone in enumerate(internal_zone.thermal_zones_from_internal_zones):
|
||||
usages = []
|
||||
for usage in internal_zone.usages:
|
||||
usages.append({'@xlink:href': f'#GML_{usage.id}'})
|
||||
|
@ -512,9 +512,9 @@ class Idf:
|
||||
for building in self._city.buildings:
|
||||
print('building name', building.name)
|
||||
for internal_zone in building.internal_zones:
|
||||
if internal_zone.thermal_zones is None:
|
||||
if internal_zone.thermal_zones_from_internal_zones is None:
|
||||
continue
|
||||
for thermal_zone in internal_zone.thermal_zones:
|
||||
for thermal_zone in internal_zone.thermal_zones_from_internal_zones:
|
||||
for thermal_boundary in thermal_zone.thermal_boundaries:
|
||||
self._add_construction(thermal_boundary)
|
||||
if thermal_boundary.parent_surface.vegetation is not None:
|
||||
@ -558,7 +558,7 @@ class Idf:
|
||||
self._add_dhw(thermal_zone, building.name)
|
||||
if self._export_type == "Surfaces":
|
||||
if building.name in self._target_buildings or building.name in self._adjacent_buildings:
|
||||
if building.internal_zones[0].thermal_zones is not None:
|
||||
if building.internal_zones[0].thermal_zones_from_internal_zones is not None:
|
||||
self._add_surfaces(building, building.name)
|
||||
else:
|
||||
self._add_pure_geometry(building, building.name)
|
||||
@ -613,7 +613,7 @@ class Idf:
|
||||
num_stories=int(building.storeys_above_ground))
|
||||
|
||||
for surface in self._idf.idfobjects[self._SURFACE]:
|
||||
for thermal_zone in building.thermal_zones:
|
||||
for thermal_zone in building.thermal_zones_from_internal_zones:
|
||||
for boundary in thermal_zone.thermal_boundaries:
|
||||
if surface.Type == self.idf_surfaces[boundary.surface.type]:
|
||||
surface.Construction_Name = boundary.construction_name
|
||||
@ -666,7 +666,7 @@ class Idf:
|
||||
idf_surface.setcoords(coordinates)
|
||||
if self._lod >= 3:
|
||||
for internal_zone in building.internal_zones:
|
||||
for thermal_zone in internal_zone.thermal_zones:
|
||||
for thermal_zone in internal_zone.thermal_zones_from_internal_zones:
|
||||
for boundary in thermal_zone.thermal_boundaries:
|
||||
self._add_windows_by_vertices(boundary)
|
||||
else:
|
||||
@ -676,7 +676,7 @@ class Idf:
|
||||
|
||||
def _add_surfaces(self, building, zone_name):
|
||||
for internal_zone in building.internal_zones:
|
||||
for thermal_zone in internal_zone.thermal_zones:
|
||||
for thermal_zone in internal_zone.thermal_zones_from_internal_zones:
|
||||
for boundary in thermal_zone.thermal_boundaries:
|
||||
idf_surface_type = self.idf_surfaces[boundary.parent_surface.type]
|
||||
outside_boundary_condition = 'Outdoors'
|
||||
@ -713,7 +713,7 @@ class Idf:
|
||||
|
||||
if self._lod >= 3:
|
||||
for internal_zone in building.internal_zones:
|
||||
for thermal_zone in internal_zone.thermal_zones:
|
||||
for thermal_zone in internal_zone.thermal_zones_from_internal_zones:
|
||||
for boundary in thermal_zone.thermal_boundaries:
|
||||
self._add_windows_by_vertices(boundary)
|
||||
else:
|
||||
|
@ -42,7 +42,7 @@ class InselMonthlyEnergyBalance:
|
||||
self._insel_files_paths.append(building.name + '.insel')
|
||||
file_name_out = building.name + '.out'
|
||||
output_path = Path(self._path / file_name_out).resolve()
|
||||
if building.thermal_zones is None:
|
||||
if building.thermal_zones_from_internal_zones is None:
|
||||
logging.warning('Building %s has missing values. Monthly Energy Balance cannot be processed', building.name)
|
||||
|
||||
self._contents.append(
|
||||
@ -124,7 +124,7 @@ class InselMonthlyEnergyBalance:
|
||||
|
||||
# todo: this method and the insel model have to be reviewed for more than one internal zone
|
||||
internal_zone = building.internal_zones[0]
|
||||
thermal_zone = internal_zone.thermal_zones[0]
|
||||
thermal_zone = internal_zone.thermal_zones_from_internal_zones[0]
|
||||
parameters.append(f'{thermal_zone.indirectly_heated_area_ratio} % BP(6) Indirectly heated area ratio')
|
||||
parameters.append(f'{thermal_zone.effective_thermal_capacity / 3600 / building.average_storey_height}'
|
||||
f' % BP(7) Effective heat capacity (Wh/m2K)')
|
||||
@ -137,7 +137,7 @@ class InselMonthlyEnergyBalance:
|
||||
|
||||
for i, usage in enumerate(internal_zone.usages):
|
||||
percentage_usage = usage.percentage
|
||||
parameters.append(f'{internal_zone.thermal_zones[0].total_floor_area * percentage_usage} '
|
||||
parameters.append(f'{internal_zone.thermal_zones_from_internal_zones[0].total_floor_area * percentage_usage} '
|
||||
f'% BP(11) #1 Area of zone {i + 1} (m2)')
|
||||
total_internal_gain = 0
|
||||
for i_gain in usage.internal_gains:
|
||||
@ -167,11 +167,11 @@ class InselMonthlyEnergyBalance:
|
||||
infiltration_day = 0
|
||||
for value in schedule.values:
|
||||
if value == 0:
|
||||
infiltration_day += internal_zone.thermal_zones[0].infiltration_rate_system_off / 24 * cte.HOUR_TO_SECONDS
|
||||
infiltration_day += internal_zone.thermal_zones_from_internal_zones[0].infiltration_rate_system_off / 24 * cte.HOUR_TO_SECONDS
|
||||
ventilation_day += 0
|
||||
else:
|
||||
ventilation_value = usage.mechanical_air_change * value * cte.HOUR_TO_SECONDS
|
||||
infiltration_value = internal_zone.thermal_zones[0].infiltration_rate_system_off * value * cte.HOUR_TO_SECONDS
|
||||
infiltration_value = internal_zone.thermal_zones_from_internal_zones[0].infiltration_rate_system_off * value * cte.HOUR_TO_SECONDS
|
||||
if ventilation_value >= infiltration_value:
|
||||
ventilation_day += ventilation_value / 24
|
||||
infiltration_day += 0
|
||||
|
@ -64,7 +64,7 @@ class LoadsCalculation:
|
||||
"""
|
||||
heating_load_transmitted = 0
|
||||
for internal_zone in self._building.internal_zones:
|
||||
for thermal_zone in internal_zone.thermal_zones:
|
||||
for thermal_zone in internal_zone.thermal_zones_from_internal_zones:
|
||||
internal_temperature = thermal_zone.thermal_control.mean_heating_set_point
|
||||
heating_load_transmitted += self._get_load_transmitted(thermal_zone, internal_temperature, ambient_temperature,
|
||||
ground_temperature)
|
||||
@ -77,7 +77,7 @@ class LoadsCalculation:
|
||||
"""
|
||||
cooling_load_transmitted = 0
|
||||
for internal_zone in self._building.internal_zones:
|
||||
for thermal_zone in internal_zone.thermal_zones:
|
||||
for thermal_zone in internal_zone.thermal_zones_from_internal_zones:
|
||||
internal_temperature = thermal_zone.thermal_control.mean_cooling_set_point
|
||||
cooling_load_transmitted += self._get_load_transmitted(thermal_zone, internal_temperature, ambient_temperature,
|
||||
ground_temperature)
|
||||
@ -90,7 +90,7 @@ class LoadsCalculation:
|
||||
"""
|
||||
heating_ventilation_load = 0
|
||||
for internal_zone in self._building.internal_zones:
|
||||
for thermal_zone in internal_zone.thermal_zones:
|
||||
for thermal_zone in internal_zone.thermal_zones_from_internal_zones:
|
||||
internal_temperature = thermal_zone.thermal_control.mean_heating_set_point
|
||||
heating_ventilation_load += self._get_load_ventilation(thermal_zone, internal_temperature, ambient_temperature)
|
||||
return heating_ventilation_load
|
||||
@ -102,7 +102,7 @@ class LoadsCalculation:
|
||||
"""
|
||||
cooling_ventilation_load = 0
|
||||
for internal_zone in self._building.internal_zones:
|
||||
for thermal_zone in internal_zone.thermal_zones:
|
||||
for thermal_zone in internal_zone.thermal_zones_from_internal_zones:
|
||||
internal_temperature = thermal_zone.thermal_control.mean_cooling_set_point
|
||||
cooling_ventilation_load += self._get_load_ventilation(thermal_zone, internal_temperature, ambient_temperature)
|
||||
return cooling_ventilation_load
|
||||
@ -116,7 +116,7 @@ class LoadsCalculation:
|
||||
cooling_load_lighting = 0
|
||||
cooling_load_equipment_sensible = 0
|
||||
for internal_zone in self._building.internal_zones:
|
||||
for thermal_zone in internal_zone.thermal_zones:
|
||||
for thermal_zone in internal_zone.thermal_zones_from_internal_zones:
|
||||
cooling_load_occupancy_sensible += (thermal_zone.occupancy.sensible_convective_internal_gain
|
||||
+ thermal_zone.occupancy.sensible_radiative_internal_gain) \
|
||||
* thermal_zone.footprint_area
|
||||
@ -138,7 +138,7 @@ class LoadsCalculation:
|
||||
"""
|
||||
cooling_load_radiation = 0
|
||||
for internal_zone in self._building.internal_zones:
|
||||
for thermal_zone in internal_zone.thermal_zones:
|
||||
for thermal_zone in internal_zone.thermal_zones_from_internal_zones:
|
||||
for thermal_boundary in thermal_zone.thermal_boundaries:
|
||||
for thermal_opening in thermal_boundary.thermal_openings:
|
||||
radiation = thermal_boundary.parent_surface.global_irradiance[cte.HOUR][hour] * cte.WATTS_HOUR_TO_JULES
|
||||
|
41
hub/helpers/thermal_zones_creation.py
Normal file
41
hub/helpers/thermal_zones_creation.py
Normal file
@ -0,0 +1,41 @@
|
||||
"""
|
||||
Thermal zones creation module
|
||||
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.imports.construction.helpers.storeys_generation import StoreysGeneration
|
||||
|
||||
|
||||
class ThermalZonesCreation:
|
||||
"""
|
||||
PeakLoads class
|
||||
"""
|
||||
def __init__(self, building=None):
|
||||
self._building = building
|
||||
|
||||
# # The agreement is that the layers are defined from outside to inside
|
||||
# external_layer = catalog_construction.layers[0]
|
||||
# external_surface = thermal_boundary.parent_surface
|
||||
# external_surface.short_wave_reflectance = 1 - external_layer.material.solar_absorptance
|
||||
# external_surface.long_wave_emittance = 1 - external_layer.material.solar_absorptance
|
||||
# internal_layer = catalog_construction.layers[len(catalog_construction.layers) - 1]
|
||||
# internal_surface = thermal_boundary.internal_surface
|
||||
# internal_surface.short_wave_reflectance = 1 - internal_layer.material.solar_absorptance
|
||||
# internal_surface.long_wave_emittance = 1 - internal_layer.material.solar_absorptance
|
||||
|
||||
@property
|
||||
def thermal_zones_from_storeys(self):
|
||||
"""
|
||||
Create and get thermal zones as 1 per each storey
|
||||
:return: [ThermalZone]
|
||||
"""
|
||||
raise NotImplementedError
|
||||
|
||||
@staticmethod
|
||||
def _create_storeys(building, archetype, divide_in_storeys):
|
||||
building.average_storey_height = archetype.average_storey_height
|
||||
thermal_zones = StoreysGeneration(building, building.internal_zones[0],
|
||||
divide_in_storeys=divide_in_storeys).thermal_zones
|
||||
building.internal_zones[0].thermal_zones_from_internal_zones = thermal_zones
|
@ -6,15 +6,13 @@ Project Coder Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca
|
||||
"""
|
||||
|
||||
import logging
|
||||
import math
|
||||
|
||||
import hub.helpers.constants as cte
|
||||
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.city_model_structure.building_demand.material import Material
|
||||
from hub.helpers.dictionaries import Dictionaries
|
||||
from hub.imports.construction.helpers.construction_helper import ConstructionHelper
|
||||
from hub.imports.construction.helpers.storeys_generation import StoreysGeneration
|
||||
|
||||
|
||||
class EilatPhysicsParameters:
|
||||
@ -46,29 +44,10 @@ class EilatPhysicsParameters:
|
||||
f'[%s], building year of construction: %s and climate zone %s', building.name, function,
|
||||
building.function, building.year_of_construction, self._climate_zone)
|
||||
continue
|
||||
|
||||
# if building has no thermal zones defined from geometry, and the building will be divided in storeys,
|
||||
# one thermal zone per storey is assigned
|
||||
|
||||
if len(building.internal_zones) == 1:
|
||||
if building.internal_zones[0].thermal_zones is None:
|
||||
self._create_storeys(building, archetype, self._divide_in_storeys)
|
||||
if self._divide_in_storeys:
|
||||
thermal_archetype = ThermalArchetype()
|
||||
self._assign_values(thermal_archetype, archetype)
|
||||
for internal_zone in building.internal_zones:
|
||||
for thermal_zone in internal_zone.thermal_zones:
|
||||
thermal_zone.total_floor_area = thermal_zone.footprint_area
|
||||
else:
|
||||
number_of_storeys = int(building.eave_height / building.average_storey_height)
|
||||
thermal_zone = building.internal_zones[0].thermal_zones[0]
|
||||
thermal_zone.total_floor_area = thermal_zone.footprint_area * number_of_storeys
|
||||
else:
|
||||
for internal_zone in building.internal_zones:
|
||||
for thermal_zone in internal_zone.thermal_zones:
|
||||
thermal_zone.total_floor_area = thermal_zone.footprint_area
|
||||
for internal_zone in building.internal_zones:
|
||||
self._assign_values(internal_zone.thermal_zones, archetype)
|
||||
for thermal_zone in internal_zone.thermal_zones:
|
||||
self._calculate_view_factors(thermal_zone)
|
||||
internal_zone.thermal_archetype = thermal_archetype
|
||||
|
||||
@staticmethod
|
||||
def _search_archetype(nrcan_catalog, function, year_of_construction, climate_zone):
|
||||
@ -81,133 +60,51 @@ class EilatPhysicsParameters:
|
||||
raise KeyError('archetype not found')
|
||||
|
||||
@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, thermal_zones, archetype):
|
||||
for thermal_zone in thermal_zones:
|
||||
thermal_zone.additional_thermal_bridge_u_value = archetype.extra_loses_due_to_thermal_bridges
|
||||
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.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
|
||||
effective_thermal_capacity = 0
|
||||
thermal_zone.indirectly_heated_area_ratio = 0
|
||||
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_archetype = self._search_construction_in_archetype(archetype, thermal_boundary.type)
|
||||
thermal_boundary.construction_name = f'{thermal_boundary.type}_{construction_archetype.name}'
|
||||
try:
|
||||
thermal_boundary.window_ratio = 0
|
||||
if thermal_boundary.type in (cte.WALL, cte.ROOF):
|
||||
if construction_archetype.window is not None:
|
||||
if -math.sqrt(2) / 2 < math.sin(thermal_boundary.parent_surface.azimuth) < math.sqrt(2) / 2:
|
||||
if 0 < math.cos(thermal_boundary.parent_surface.azimuth):
|
||||
thermal_boundary.window_ratio = \
|
||||
float(construction_archetype.window_ratio['north']) / 100
|
||||
else:
|
||||
thermal_boundary.window_ratio = \
|
||||
float(construction_archetype.window_ratio['south']) / 100
|
||||
elif math.sqrt(2) / 2 <= math.sin(thermal_boundary.parent_surface.azimuth):
|
||||
thermal_boundary.window_ratio = \
|
||||
float(construction_archetype.window_ratio['east']) / 100
|
||||
else:
|
||||
thermal_boundary.window_ratio = \
|
||||
float(construction_archetype.window_ratio['west']) / 100
|
||||
except ValueError:
|
||||
# This is the normal operation way when the windows are defined in the geometry
|
||||
continue
|
||||
thermal_boundary.layers = []
|
||||
_constructions = []
|
||||
for catalog_construction in catalog_archetype.constructions:
|
||||
construction = Construction()
|
||||
construction.type = catalog_construction.type
|
||||
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 = []
|
||||
total_thickness = 0
|
||||
for layer_archetype in construction_archetype.layers:
|
||||
for layer_archetype in catalog_construction.layers:
|
||||
layer = Layer()
|
||||
layer.thickness = layer_archetype.thickness
|
||||
total_thickness += layer_archetype.thickness
|
||||
material = Material()
|
||||
archetype_material = layer_archetype.material
|
||||
material.name = archetype_material.name
|
||||
material.id = archetype_material.id
|
||||
material.no_mass = archetype_material.no_mass
|
||||
layer.name = archetype_material.name
|
||||
layer.no_mass = archetype_material.no_mass
|
||||
if archetype_material.no_mass:
|
||||
material.thermal_resistance = archetype_material.thermal_resistance
|
||||
layer.thermal_resistance = archetype_material.thermal_resistance
|
||||
else:
|
||||
material.density = archetype_material.density
|
||||
material.conductivity = archetype_material.conductivity
|
||||
material.specific_heat = archetype_material.specific_heat
|
||||
layer.density = archetype_material.density
|
||||
layer.conductivity = archetype_material.conductivity
|
||||
layer.specific_heat = archetype_material.specific_heat
|
||||
effective_thermal_capacity += archetype_material.specific_heat \
|
||||
* archetype_material.density * layer_archetype.thickness
|
||||
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)
|
||||
|
||||
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
|
||||
effective_thermal_capacity = effective_thermal_capacity / total_thickness
|
||||
# The agreement is that the layers are defined from outside to inside
|
||||
external_layer = construction_archetype.layers[0]
|
||||
external_surface = thermal_boundary.parent_surface
|
||||
external_surface.short_wave_reflectance = 1 - external_layer.material.solar_absorptance
|
||||
external_surface.long_wave_emittance = 1 - external_layer.material.solar_absorptance
|
||||
internal_layer = construction_archetype.layers[len(construction_archetype.layers) - 1]
|
||||
internal_surface = thermal_boundary.internal_surface
|
||||
internal_surface.short_wave_reflectance = 1 - internal_layer.material.solar_absorptance
|
||||
internal_surface.long_wave_emittance = 1 - internal_layer.material.solar_absorptance
|
||||
|
||||
for thermal_opening in thermal_boundary.thermal_openings:
|
||||
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
|
||||
|
||||
thermal_zone.effective_thermal_capacity = effective_thermal_capacity
|
||||
|
||||
@staticmethod
|
||||
def _calculate_view_factors(thermal_zone):
|
||||
"""
|
||||
Get thermal zone view factors matrix
|
||||
:return: [[float]]
|
||||
"""
|
||||
total_area = 0
|
||||
for thermal_boundary in thermal_zone.thermal_boundaries:
|
||||
total_area += thermal_boundary.opaque_area
|
||||
for thermal_opening in thermal_boundary.thermal_openings:
|
||||
total_area += thermal_opening.area
|
||||
|
||||
view_factors_matrix = []
|
||||
for thermal_boundary_1 in thermal_zone.thermal_boundaries:
|
||||
values = []
|
||||
for thermal_boundary_2 in thermal_zone.thermal_boundaries:
|
||||
value = 0
|
||||
if thermal_boundary_1.id != thermal_boundary_2.id:
|
||||
value = thermal_boundary_2.opaque_area / (total_area - thermal_boundary_1.opaque_area)
|
||||
values.append(value)
|
||||
for thermal_boundary in thermal_zone.thermal_boundaries:
|
||||
for thermal_opening in thermal_boundary.thermal_openings:
|
||||
value = thermal_opening.area / (total_area - thermal_boundary_1.opaque_area)
|
||||
values.append(value)
|
||||
view_factors_matrix.append(values)
|
||||
|
||||
for thermal_boundary_1 in thermal_zone.thermal_boundaries:
|
||||
values = []
|
||||
for thermal_opening_1 in thermal_boundary_1.thermal_openings:
|
||||
for thermal_boundary_2 in thermal_zone.thermal_boundaries:
|
||||
value = thermal_boundary_2.opaque_area / (total_area - thermal_opening_1.area)
|
||||
values.append(value)
|
||||
for thermal_boundary in thermal_zone.thermal_boundaries:
|
||||
for thermal_opening_2 in thermal_boundary.thermal_openings:
|
||||
value = 0
|
||||
if thermal_opening_1.id != thermal_opening_2.id:
|
||||
value = thermal_opening_2.area / (total_area - thermal_opening_1.area)
|
||||
values.append(value)
|
||||
view_factors_matrix.append(values)
|
||||
thermal_zone.view_factors_matrix = view_factors_matrix
|
||||
|
||||
@staticmethod
|
||||
def _create_storeys(building, archetype, divide_in_storeys):
|
||||
building.average_storey_height = archetype.average_storey_height
|
||||
thermal_zones = StoreysGeneration(building, building.internal_zones[0],
|
||||
divide_in_storeys=divide_in_storeys).thermal_zones
|
||||
building.internal_zones[0].thermal_zones = thermal_zones
|
||||
if catalog_construction.window is not None:
|
||||
window_archetype = catalog_construction.window
|
||||
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
|
||||
thermal_archetype.thermal_capacity = effective_thermal_capacity
|
||||
|
@ -5,8 +5,6 @@ Copyright © 2022 Concordia CERC group
|
||||
Project Coder Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca
|
||||
"""
|
||||
|
||||
from hub.helpers import constants as cte
|
||||
|
||||
|
||||
class ConstructionHelper:
|
||||
"""
|
||||
|
@ -6,15 +6,13 @@ Project Coder Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca
|
||||
"""
|
||||
|
||||
import logging
|
||||
import math
|
||||
|
||||
import hub.helpers.constants as cte
|
||||
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.city_model_structure.building_demand.material import Material
|
||||
from hub.helpers.dictionaries import Dictionaries
|
||||
from hub.imports.construction.helpers.construction_helper import ConstructionHelper
|
||||
from hub.imports.construction.helpers.storeys_generation import StoreysGeneration
|
||||
|
||||
|
||||
class NrcanPhysicsParameters:
|
||||
@ -46,29 +44,10 @@ class NrcanPhysicsParameters:
|
||||
f'[%s], building year of construction: %s and climate zone %s', building.name, function,
|
||||
building.function, building.year_of_construction, self._climate_zone)
|
||||
continue
|
||||
|
||||
# if building has no thermal zones defined from geometry, and the building will be divided in storeys,
|
||||
# one thermal zone per storey is assigned
|
||||
|
||||
if len(building.internal_zones) == 1:
|
||||
if building.internal_zones[0].thermal_zones is None:
|
||||
self._create_storeys(building, archetype, self._divide_in_storeys)
|
||||
if self._divide_in_storeys:
|
||||
thermal_archetype = ThermalArchetype()
|
||||
self._assign_values(thermal_archetype, archetype)
|
||||
for internal_zone in building.internal_zones:
|
||||
for thermal_zone in internal_zone.thermal_zones:
|
||||
thermal_zone.total_floor_area = thermal_zone.footprint_area
|
||||
else:
|
||||
number_of_storeys = int(building.eave_height / building.average_storey_height)
|
||||
thermal_zone = building.internal_zones[0].thermal_zones[0]
|
||||
thermal_zone.total_floor_area = thermal_zone.footprint_area * number_of_storeys
|
||||
else:
|
||||
for internal_zone in building.internal_zones:
|
||||
for thermal_zone in internal_zone.thermal_zones:
|
||||
thermal_zone.total_floor_area = thermal_zone.footprint_area
|
||||
for internal_zone in building.internal_zones:
|
||||
self._assign_values(internal_zone.thermal_zones, archetype)
|
||||
for thermal_zone in internal_zone.thermal_zones:
|
||||
self._calculate_view_factors(thermal_zone)
|
||||
internal_zone.thermal_archetype = thermal_archetype
|
||||
|
||||
@staticmethod
|
||||
def _search_archetype(nrcan_catalog, function, year_of_construction, climate_zone):
|
||||
@ -81,126 +60,45 @@ class NrcanPhysicsParameters:
|
||||
raise KeyError('archetype not found')
|
||||
|
||||
@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, thermal_zones, archetype):
|
||||
for thermal_zone in thermal_zones:
|
||||
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 = 0
|
||||
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_archetype = self._search_construction_in_archetype(archetype, thermal_boundary.type)
|
||||
thermal_boundary.construction_name = f'{thermal_boundary.type}_{construction_archetype.name}'
|
||||
try:
|
||||
thermal_boundary.window_ratio = 0
|
||||
if thermal_boundary.type in ( cte.WALL, cte.ROOF):
|
||||
if construction_archetype.window is not None:
|
||||
if -math.sqrt(2) / 2 < math.sin(thermal_boundary.parent_surface.azimuth) < math.sqrt(2) / 2:
|
||||
if 0 < math.cos(thermal_boundary.parent_surface.azimuth):
|
||||
thermal_boundary.window_ratio = \
|
||||
float(construction_archetype.window_ratio['north']) / 100
|
||||
else:
|
||||
thermal_boundary.window_ratio = \
|
||||
float(construction_archetype.window_ratio['south']) / 100
|
||||
elif math.sqrt(2) / 2 <= math.sin(thermal_boundary.parent_surface.azimuth):
|
||||
thermal_boundary.window_ratio = \
|
||||
float(construction_archetype.window_ratio['east']) / 100
|
||||
else:
|
||||
thermal_boundary.window_ratio = \
|
||||
float(construction_archetype.window_ratio['west']) / 100
|
||||
except ValueError:
|
||||
# This is the normal operation way when the windows are defined in the geometry
|
||||
continue
|
||||
thermal_boundary.layers = []
|
||||
for layer_archetype in construction_archetype.layers:
|
||||
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
|
||||
_constructions = []
|
||||
for catalog_construction in catalog_archetype.constructions:
|
||||
construction = Construction()
|
||||
construction.type = catalog_construction.type
|
||||
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
|
||||
material = Material()
|
||||
archetype_material = layer_archetype.material
|
||||
material.name = archetype_material.name
|
||||
material.id = archetype_material.id
|
||||
material.no_mass = archetype_material.no_mass
|
||||
layer.name = archetype_material.name
|
||||
layer.no_mass = archetype_material.no_mass
|
||||
if archetype_material.no_mass:
|
||||
material.thermal_resistance = archetype_material.thermal_resistance
|
||||
layer.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]
|
||||
external_surface = thermal_boundary.parent_surface
|
||||
external_surface.short_wave_reflectance = 1 - external_layer.material.solar_absorptance
|
||||
external_surface.long_wave_emittance = 1 - external_layer.material.solar_absorptance
|
||||
internal_layer = construction_archetype.layers[len(construction_archetype.layers) - 1]
|
||||
internal_surface = thermal_boundary.internal_surface
|
||||
internal_surface.short_wave_reflectance = 1 - internal_layer.material.solar_absorptance
|
||||
internal_surface.long_wave_emittance = 1 - internal_layer.material.solar_absorptance
|
||||
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
|
||||
|
||||
for thermal_opening in thermal_boundary.thermal_openings:
|
||||
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
|
||||
|
||||
# todo: verify windows
|
||||
@staticmethod
|
||||
def _calculate_view_factors(thermal_zone):
|
||||
"""
|
||||
Get thermal zone view factors matrix
|
||||
:return: [[float]]
|
||||
"""
|
||||
total_area = 0
|
||||
for thermal_boundary in thermal_zone.thermal_boundaries:
|
||||
total_area += thermal_boundary.opaque_area
|
||||
for thermal_opening in thermal_boundary.thermal_openings:
|
||||
total_area += thermal_opening.area
|
||||
|
||||
view_factors_matrix = []
|
||||
for thermal_boundary_1 in thermal_zone.thermal_boundaries:
|
||||
values = []
|
||||
for thermal_boundary_2 in thermal_zone.thermal_boundaries:
|
||||
value = 0
|
||||
if thermal_boundary_1.id != thermal_boundary_2.id:
|
||||
value = thermal_boundary_2.opaque_area / (total_area - thermal_boundary_1.opaque_area)
|
||||
values.append(value)
|
||||
for thermal_boundary in thermal_zone.thermal_boundaries:
|
||||
for thermal_opening in thermal_boundary.thermal_openings:
|
||||
value = thermal_opening.area / (total_area - thermal_boundary_1.opaque_area)
|
||||
values.append(value)
|
||||
view_factors_matrix.append(values)
|
||||
|
||||
for thermal_boundary_1 in thermal_zone.thermal_boundaries:
|
||||
values = []
|
||||
for thermal_opening_1 in thermal_boundary_1.thermal_openings:
|
||||
for thermal_boundary_2 in thermal_zone.thermal_boundaries:
|
||||
value = thermal_boundary_2.opaque_area / (total_area - thermal_opening_1.area)
|
||||
values.append(value)
|
||||
for thermal_boundary in thermal_zone.thermal_boundaries:
|
||||
for thermal_opening_2 in thermal_boundary.thermal_openings:
|
||||
value = 0
|
||||
if thermal_opening_1.id != thermal_opening_2.id:
|
||||
value = thermal_opening_2.area / (total_area - thermal_opening_1.area)
|
||||
values.append(value)
|
||||
view_factors_matrix.append(values)
|
||||
thermal_zone.view_factors_matrix = view_factors_matrix
|
||||
|
||||
@staticmethod
|
||||
def _create_storeys(building, archetype, divide_in_storeys):
|
||||
building.average_storey_height = archetype.average_storey_height
|
||||
thermal_zones = StoreysGeneration(building, building.internal_zones[0],
|
||||
divide_in_storeys=divide_in_storeys).thermal_zones
|
||||
building.internal_zones[0].thermal_zones = thermal_zones
|
||||
if catalog_construction.window is not None:
|
||||
window_archetype = catalog_construction.window
|
||||
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
|
||||
|
@ -8,11 +8,11 @@ Code contributors: Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concord
|
||||
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.city_model_structure.building_demand.material import Material
|
||||
from hub.helpers.dictionaries import Dictionaries
|
||||
from hub.imports.construction.helpers.construction_helper import ConstructionHelper
|
||||
from hub.imports.construction.helpers.storeys_generation import StoreysGeneration
|
||||
|
||||
|
||||
class NrelPhysicsParameters:
|
||||
@ -44,28 +44,10 @@ class NrelPhysicsParameters:
|
||||
f' and climate zone {self._climate_zone}\n')
|
||||
|
||||
continue
|
||||
# if building has no thermal zones defined from geometry, and the building will be divided in storeys,
|
||||
# one thermal zone per storey is assigned
|
||||
if len(building.internal_zones) == 1:
|
||||
if building.internal_zones[0].thermal_zones is None:
|
||||
self._create_storeys(building, archetype, self._divide_in_storeys)
|
||||
if self._divide_in_storeys:
|
||||
thermal_archetype = ThermalArchetype()
|
||||
self._assign_values(thermal_archetype, archetype)
|
||||
for internal_zone in building.internal_zones:
|
||||
for thermal_zone in internal_zone.thermal_zones:
|
||||
thermal_zone.total_floor_area = thermal_zone.footprint_area
|
||||
else:
|
||||
number_of_storeys = int(building.eave_height / building.average_storey_height)
|
||||
thermal_zone = building.internal_zones[0].thermal_zones[0]
|
||||
thermal_zone.total_floor_area = thermal_zone.footprint_area * number_of_storeys
|
||||
else:
|
||||
for internal_zone in building.internal_zones:
|
||||
for thermal_zone in internal_zone.thermal_zones:
|
||||
thermal_zone.total_floor_area = thermal_zone.footprint_area
|
||||
|
||||
for internal_zone in building.internal_zones:
|
||||
self._assign_values(internal_zone.thermal_zones, archetype)
|
||||
for thermal_zone in internal_zone.thermal_zones:
|
||||
self._calculate_view_factors(thermal_zone)
|
||||
internal_zone.thermal_archetype = thermal_archetype
|
||||
|
||||
@staticmethod
|
||||
def _search_archetype(nrel_catalog, function, year_of_construction, climate_zone):
|
||||
@ -80,111 +62,46 @@ class NrelPhysicsParameters:
|
||||
raise KeyError('archetype not found')
|
||||
|
||||
@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, thermal_zones, archetype):
|
||||
for thermal_zone in thermal_zones:
|
||||
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_archetype = self._search_construction_in_archetype(archetype, thermal_boundary.type)
|
||||
thermal_boundary.construction_name = construction_archetype.name
|
||||
try:
|
||||
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 construction_archetype.layers:
|
||||
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 = catalog_archetype.indirect_heated_ratio
|
||||
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
|
||||
_constructions = []
|
||||
for catalog_construction in catalog_archetype.constructions:
|
||||
construction = Construction()
|
||||
construction.type = catalog_construction.type
|
||||
if catalog_construction.window_ratio is not None:
|
||||
construction.window_ratio = {'north': catalog_construction.window_ratio,
|
||||
'east': catalog_construction.window_ratio,
|
||||
'south': catalog_construction.window_ratio,
|
||||
'west': catalog_construction.window_ratio
|
||||
}
|
||||
_layers = []
|
||||
for layer_archetype in catalog_construction.layers:
|
||||
layer = Layer()
|
||||
layer.thickness = layer_archetype.thickness
|
||||
material = Material()
|
||||
archetype_material = layer_archetype.material
|
||||
material.name = archetype_material.name
|
||||
material.id = archetype_material.id
|
||||
material.no_mass = archetype_material.no_mass
|
||||
layer.name = archetype_material.name
|
||||
layer.no_mass = archetype_material.no_mass
|
||||
if archetype_material.no_mass:
|
||||
material.thermal_resistance = archetype_material.thermal_resistance
|
||||
layer.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]
|
||||
external_surface = thermal_boundary.parent_surface
|
||||
external_surface.short_wave_reflectance = 1 - external_layer.material.solar_absorptance
|
||||
external_surface.long_wave_emittance = 1 - external_layer.material.solar_absorptance
|
||||
internal_layer = construction_archetype.layers[len(construction_archetype.layers) - 1]
|
||||
internal_surface = thermal_boundary.internal_surface
|
||||
internal_surface.short_wave_reflectance = 1 - internal_layer.material.solar_absorptance
|
||||
internal_surface.long_wave_emittance = 1 - internal_layer.material.solar_absorptance
|
||||
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
|
||||
|
||||
for thermal_opening in thermal_boundary.thermal_openings:
|
||||
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
|
||||
|
||||
# todo: verify windows
|
||||
@staticmethod
|
||||
def _calculate_view_factors(thermal_zone):
|
||||
"""
|
||||
Get thermal zone view factors matrix
|
||||
:return: [[float]]
|
||||
"""
|
||||
total_area = 0
|
||||
for thermal_boundary in thermal_zone.thermal_boundaries:
|
||||
total_area += thermal_boundary.opaque_area
|
||||
for thermal_opening in thermal_boundary.thermal_openings:
|
||||
total_area += thermal_opening.area
|
||||
|
||||
view_factors_matrix = []
|
||||
for thermal_boundary_1 in thermal_zone.thermal_boundaries:
|
||||
values = []
|
||||
for thermal_boundary_2 in thermal_zone.thermal_boundaries:
|
||||
value = 0
|
||||
if thermal_boundary_1.id != thermal_boundary_2.id:
|
||||
value = thermal_boundary_2.opaque_area / (total_area - thermal_boundary_1.opaque_area)
|
||||
values.append(value)
|
||||
for thermal_boundary in thermal_zone.thermal_boundaries:
|
||||
for thermal_opening in thermal_boundary.thermal_openings:
|
||||
value = thermal_opening.area / (total_area - thermal_boundary_1.opaque_area)
|
||||
values.append(value)
|
||||
view_factors_matrix.append(values)
|
||||
|
||||
for thermal_boundary_1 in thermal_zone.thermal_boundaries:
|
||||
values = []
|
||||
for thermal_opening_1 in thermal_boundary_1.thermal_openings:
|
||||
for thermal_boundary_2 in thermal_zone.thermal_boundaries:
|
||||
value = thermal_boundary_2.opaque_area / (total_area - thermal_opening_1.area)
|
||||
values.append(value)
|
||||
for thermal_boundary in thermal_zone.thermal_boundaries:
|
||||
for thermal_opening_2 in thermal_boundary.thermal_openings:
|
||||
value = 0
|
||||
if thermal_opening_1.id != thermal_opening_2.id:
|
||||
value = thermal_opening_2.area / (total_area - thermal_opening_1.area)
|
||||
values.append(value)
|
||||
view_factors_matrix.append(values)
|
||||
thermal_zone.view_factors_matrix = view_factors_matrix
|
||||
|
||||
@staticmethod
|
||||
def _create_storeys(building, archetype, divide_in_storeys):
|
||||
building.average_storey_height = archetype.average_storey_height
|
||||
thermal_zones = StoreysGeneration(building, building.internal_zones[0],
|
||||
divide_in_storeys=divide_in_storeys).thermal_zones
|
||||
building.internal_zones[0].thermal_zones = thermal_zones
|
||||
if catalog_construction.window is not None:
|
||||
window_archetype = catalog_construction.window
|
||||
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
|
@ -43,12 +43,12 @@ class InselMonthlyEnergyBalance:
|
||||
domestic_hot_water_demand = []
|
||||
lighting_demand = []
|
||||
appliances_demand = []
|
||||
if building.internal_zones[0].thermal_zones is None:
|
||||
if building.internal_zones[0].thermal_zones_from_internal_zones is None:
|
||||
domestic_hot_water_demand = [0] * 12
|
||||
lighting_demand = [0] * 12
|
||||
appliances_demand = [0] * 12
|
||||
else:
|
||||
thermal_zone = building.internal_zones[0].thermal_zones[0]
|
||||
thermal_zone = building.internal_zones[0].thermal_zones_from_internal_zones[0]
|
||||
area = thermal_zone.total_floor_area
|
||||
cold_water = building.cold_water_temperature[cte.MONTH]
|
||||
peak_flow = thermal_zone.domestic_hot_water.peak_flow
|
||||
|
@ -60,7 +60,7 @@ class CityObject(Models):
|
||||
self.wall_area = wall_area
|
||||
window_ratio = 0
|
||||
for internal_zone in building.internal_zones:
|
||||
for thermal_zone in internal_zone.thermal_zones:
|
||||
for thermal_zone in internal_zone.thermal_zones_from_internal_zones:
|
||||
for thermal_boundary in thermal_zone.thermal_boundaries:
|
||||
window_ratio = thermal_boundary.window_ratio
|
||||
break
|
||||
|
@ -106,7 +106,7 @@ class TestConstructionFactory(TestCase):
|
||||
self.assertIsNotNone(building.shell, 'building shell is none')
|
||||
|
||||
def _check_thermal_zones(self, internal_zone):
|
||||
for thermal_zone in internal_zone.thermal_zones:
|
||||
for thermal_zone in internal_zone.thermal_zones_from_internal_zones:
|
||||
self.assertIsNotNone(thermal_zone.id, 'thermal_zone id is none')
|
||||
self.assertIsNotNone(thermal_zone.footprint_area, 'thermal_zone floor area is none')
|
||||
self.assertTrue(len(thermal_zone.thermal_boundaries) > 0, 'thermal_zone thermal_boundaries not defined')
|
||||
@ -138,7 +138,6 @@ class TestConstructionFactory(TestCase):
|
||||
self.assertIsNotNone(thermal_boundary.thickness, 'thermal_boundary thickness is none')
|
||||
self.assertIsNotNone(thermal_boundary.type, 'thermal_boundary type 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')
|
||||
self.assertIsNone(thermal_boundary.windows_areas, 'windows_areas is not none')
|
||||
self.assertIsNotNone(thermal_boundary.u_value, 'u_value is none')
|
||||
@ -150,17 +149,15 @@ class TestConstructionFactory(TestCase):
|
||||
def _check_thermal_openings(self, thermal_boundary):
|
||||
for thermal_opening in thermal_boundary.thermal_openings:
|
||||
self.assertIsNotNone(thermal_opening.id, 'thermal opening id is not none')
|
||||
self.assertIsNotNone(thermal_opening.construction_name, 'thermal opening construction is none')
|
||||
self.assertIsNotNone(thermal_opening.area, 'thermal opening area 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.assertIsNotNone(thermal_opening.construction_name, 'thermal opening construction_name is none')
|
||||
|
||||
def _check_surfaces(self, thermal_boundary):
|
||||
external_surface = thermal_boundary.parent_surface
|
||||
external_surface = thermal_boundary.external_surface
|
||||
internal_surface = thermal_boundary.internal_surface
|
||||
self.assertIsNotNone(external_surface.short_wave_reflectance,
|
||||
'external surface short_wave_reflectance id is not none')
|
||||
@ -184,7 +181,7 @@ class TestConstructionFactory(TestCase):
|
||||
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:
|
||||
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')
|
||||
@ -202,25 +199,7 @@ class TestConstructionFactory(TestCase):
|
||||
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:
|
||||
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)
|
||||
|
||||
file = 'one_building_in_kelowna.gml'
|
||||
city = self._get_citygml(file)
|
||||
for building in city.buildings:
|
||||
building.year_of_construction = 2006
|
||||
building.function = self._internal_function('hft', building.function)
|
||||
ConstructionFactory('nrel', 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:
|
||||
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')
|
||||
@ -238,7 +217,7 @@ class TestConstructionFactory(TestCase):
|
||||
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:
|
||||
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')
|
||||
@ -256,7 +235,7 @@ class TestConstructionFactory(TestCase):
|
||||
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:
|
||||
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')
|
||||
@ -277,7 +256,7 @@ class TestConstructionFactory(TestCase):
|
||||
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:
|
||||
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')
|
||||
@ -299,7 +278,7 @@ class TestConstructionFactory(TestCase):
|
||||
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:
|
||||
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')
|
||||
@ -321,7 +300,7 @@ class TestConstructionFactory(TestCase):
|
||||
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:
|
||||
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')
|
||||
|
@ -101,7 +101,7 @@ class TestExports(TestCase):
|
||||
self.assertIsNotNone(building.basement_heated, f'building {building.name} basement_heated is none')
|
||||
for internal_zone in building.internal_zones:
|
||||
self.assertIsNotNone(internal_zone.area, f'internal zone {internal_zone.id} area is none')
|
||||
for thermal_zone in internal_zone.thermal_zones:
|
||||
for thermal_zone in internal_zone.thermal_zones_from_internal_zones:
|
||||
self.assertIsNotNone(thermal_zone.indirectly_heated_area_ratio, f'thermal zone {thermal_zone.id} '
|
||||
f'indirectly_heated_area_ratio is none')
|
||||
self.assertIsNotNone(thermal_zone.effective_thermal_capacity, f'thermal zone {thermal_zone.id} '
|
||||
@ -114,11 +114,12 @@ class TestExports(TestCase):
|
||||
for thermal_boundary in thermal_zone.thermal_boundaries:
|
||||
self.assertIsNotNone(thermal_boundary.type)
|
||||
self.assertIsNotNone(thermal_boundary.opaque_area)
|
||||
if thermal_boundary.type in (cte.WALL, cte.ROOF):
|
||||
self.assertIsNotNone(thermal_boundary.window_ratio)
|
||||
self.assertIsNotNone(thermal_boundary.u_value)
|
||||
self.assertIsNotNone(thermal_boundary.thermal_openings)
|
||||
if thermal_boundary.type is not cte.GROUND:
|
||||
self.assertIsNotNone(thermal_boundary.parent_surface.short_wave_reflectance)
|
||||
self.assertIsNotNone(thermal_boundary.external_surface.short_wave_reflectance)
|
||||
|
||||
for usage in internal_zone.usages:
|
||||
self.assertIsNotNone(usage.percentage, f'usage zone {usage.name} percentage is none')
|
||||
|
@ -38,7 +38,7 @@ class TestGeometryFactory(TestCase):
|
||||
self.assertIsNot(len(internal_zone.usages), 0, 'no building usages defined')
|
||||
for usage in internal_zone.usages:
|
||||
self.assertIsNotNone(usage.id, 'usage id is none')
|
||||
for thermal_zone in internal_zone.thermal_zones:
|
||||
for thermal_zone in internal_zone.thermal_zones_from_internal_zones:
|
||||
self._check_thermal_zone(thermal_zone)
|
||||
|
||||
def _check_buildings(self, city):
|
||||
@ -46,7 +46,7 @@ class TestGeometryFactory(TestCase):
|
||||
self.assertIsNotNone(building.internal_zones, 'no internal zones created')
|
||||
for internal_zone in building.internal_zones:
|
||||
self.assertIsNotNone(internal_zone.usages, 'usage zones are not defined')
|
||||
self.assertIsNotNone(internal_zone.thermal_zones, 'thermal zones are not defined')
|
||||
self.assertIsNotNone(internal_zone.thermal_zones_from_internal_zones, 'thermal zones are not defined')
|
||||
self.assertIsNone(building.basement_heated, 'building basement_heated is not none')
|
||||
self.assertIsNone(building.attic_heated, 'building attic_heated is not none')
|
||||
self.assertIsNotNone(building.average_storey_height, 'building average_storey_height is none')
|
||||
@ -105,7 +105,7 @@ class TestGeometryFactory(TestCase):
|
||||
if usage_key == 'comnet':
|
||||
for building in city.buildings:
|
||||
for internal_zone in building.internal_zones:
|
||||
for thermal_zone in internal_zone.thermal_zones:
|
||||
for thermal_zone in internal_zone.thermal_zones_from_internal_zones:
|
||||
self._check_extra_thermal_zone(thermal_zone)
|
||||
# usage factory called first
|
||||
city = self._get_citygml(file)
|
||||
@ -117,7 +117,7 @@ class TestGeometryFactory(TestCase):
|
||||
if usage_key == 'comnet':
|
||||
for building in city.buildings:
|
||||
for internal_zone in building.internal_zones:
|
||||
for thermal_zone in internal_zone.thermal_zones:
|
||||
for thermal_zone in internal_zone.thermal_zones_from_internal_zones:
|
||||
self._check_extra_thermal_zone(thermal_zone)
|
||||
|
||||
def _test_pluto(self, file):
|
||||
@ -135,7 +135,7 @@ class TestGeometryFactory(TestCase):
|
||||
if usage_key == 'comnet':
|
||||
for building in city.buildings:
|
||||
for internal_zone in building.internal_zones:
|
||||
for thermal_zone in internal_zone.thermal_zones:
|
||||
for thermal_zone in internal_zone.thermal_zones_from_internal_zones:
|
||||
self._check_extra_thermal_zone(thermal_zone)
|
||||
# usage factory called first
|
||||
city = self._get_citygml(file)
|
||||
@ -147,7 +147,7 @@ class TestGeometryFactory(TestCase):
|
||||
if usage_key == 'comnet':
|
||||
for building in city.buildings:
|
||||
for internal_zone in building.internal_zones:
|
||||
for thermal_zone in internal_zone.thermal_zones:
|
||||
for thermal_zone in internal_zone.thermal_zones_from_internal_zones:
|
||||
self._check_extra_thermal_zone(thermal_zone)
|
||||
|
||||
def test_enrichment(self):
|
||||
|
@ -120,6 +120,7 @@ class TestExports(TestCase):
|
||||
EnergyBuildingsExportsFactory('idf', city, self._output_path).export()
|
||||
UsageFactory('nrcan', city).enrich()
|
||||
WeatherFactory('epw', city).enrich()
|
||||
print(self._output_path)
|
||||
try:
|
||||
EnergyBuildingsExportsFactory('idf', city, self._output_path).export()
|
||||
except Exception:
|
||||
|
@ -62,7 +62,7 @@ class TestGeometryFactory(TestCase):
|
||||
self.assertIsNotNone(building.internal_zones, 'building internal zones is none')
|
||||
for internal_zone in building.internal_zones:
|
||||
self.assertIsNone(internal_zone.usages, 'usage zones are defined')
|
||||
self.assertIsNone(internal_zone.thermal_zones, 'thermal zones are defined')
|
||||
self.assertIsNone(internal_zone.thermal_archetype, 'thermal archetype is defined')
|
||||
self.assertIsNone(building.basement_heated, 'building basement_heated is not none')
|
||||
self.assertIsNone(building.attic_heated, 'building attic_heated is not none')
|
||||
self.assertIsNone(building.terrains, 'building terrains is not none')
|
||||
|
@ -101,7 +101,7 @@ class TestExports(TestCase):
|
||||
self.assertIsNotNone(building.basement_heated, f'building {building.name} basement_heated is none')
|
||||
for internal_zone in building.internal_zones:
|
||||
self.assertIsNotNone(internal_zone.area, f'internal zone {internal_zone.id} area is none')
|
||||
for thermal_zone in internal_zone.thermal_zones:
|
||||
for thermal_zone in internal_zone.thermal_zones_from_internal_zones:
|
||||
self.assertIsNotNone(thermal_zone.indirectly_heated_area_ratio, f'thermal zone {thermal_zone.id} '
|
||||
f'indirectly_heated_area_ratio is none')
|
||||
self.assertIsNotNone(thermal_zone.effective_thermal_capacity, f'thermal zone {thermal_zone.id} '
|
||||
@ -118,7 +118,7 @@ class TestExports(TestCase):
|
||||
self.assertIsNotNone(thermal_boundary.u_value)
|
||||
self.assertIsNotNone(thermal_boundary.thermal_openings)
|
||||
if thermal_boundary.type is not cte.GROUND:
|
||||
self.assertIsNotNone(thermal_boundary.parent_surface.short_wave_reflectance)
|
||||
self.assertIsNotNone(thermal_boundary.external_surface.short_wave_reflectance)
|
||||
|
||||
for usage in internal_zone.usages:
|
||||
self.assertIsNotNone(usage.percentage, f'usage zone {usage.name} percentage is none')
|
||||
|
Loading…
Reference in New Issue
Block a user