forked from s_ranjbar/city_retrofit
270 lines
6.7 KiB
Python
270 lines
6.7 KiB
Python
"""
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ThermalBoundary module
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SPDX - License - Identifier: LGPL - 3.0 - or -later
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Copyright © 2020 Project Author Guille Gutierrez guillermo.gutierrezmorote@concordia.ca
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Contributors Pilar Monsalvete pilar_monsalvete@yahoo.es
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"""
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from typing import List
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from city_model_structure.attributes.layer import Layer
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from city_model_structure.attributes.thermal_opening import ThermalOpening
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from city_model_structure.attributes.thermal_zone import ThermalZone
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from helpers.configuration_helper import ConfigurationHelper
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from city_model_structure.attributes.surface import Surface
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class ThermalBoundary:
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"""
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ThermalBoundary class
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"""
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def __init__(self, surface, delimits):
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self._surface = surface
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self._delimits = delimits
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# ToDo: up to at least LOD2 will be just one thermal opening per Thermal boundary, review for LOD3 and LOD4
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self._thermal_openings = [ThermalOpening()]
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self._layers = None
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self._outside_solar_absorptance = ConfigurationHelper().outside_solar_absorptance
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self._outside_thermal_absorptance = None
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self._outside_visible_absorptance = None
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self._window_ratio = None
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self._u_value = None
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self._window_area = None
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self._shortwave_reflectance = 1 - self._outside_solar_absorptance
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self._construction_name = None
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@property
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def surface(self) -> Surface:
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"""
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Get the surface that belongs to the thermal boundary
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:return: Surface
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"""
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return self._surface
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@property
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def delimits(self) -> List[ThermalZone]:
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"""
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Get the thermal zones delimited by the thermal boundary
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:return: [ThermalZone]
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"""
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return self._delimits
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@property
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def azimuth(self):
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"""
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Thermal boundary azimuth in radians
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:return: float
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"""
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return self._surface.azimuth
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@property
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def inclination(self):
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"""
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Thermal boundary inclination in radians
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:return: float
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"""
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return self._surface.inclination
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@property
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def area(self):
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"""
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Thermal boundary area in square meters
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:return: float
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"""
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return self._surface.area
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@property
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def area_above_ground(self):
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"""
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Thermal boundary area above ground in square meters
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:return: float
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"""
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return self._surface.area_above_ground
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@property
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def area_below_ground(self):
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"""
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Thermal boundary area below ground in square meters
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:return: float
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"""
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return self._surface.area_below_ground
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@property
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def outside_solar_absorptance(self):
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"""
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Get thermal boundary outside solar absorptance
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:return: float
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"""
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return self._outside_solar_absorptance
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@outside_solar_absorptance.setter
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def outside_solar_absorptance(self, value):
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"""
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Set thermal boundary outside solar absorptance
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:param value: float
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:return: None
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"""
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self._outside_solar_absorptance = value
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self._shortwave_reflectance = 1.0 - float(value)
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@property
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def outside_thermal_absorptance(self):
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"""
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Get thermal boundary outside thermal absorptance
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:return: float
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"""
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return self._outside_thermal_absorptance
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@outside_thermal_absorptance.setter
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def outside_thermal_absorptance(self, value):
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"""
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Set thermal boundary outside thermal absorptance
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:param value: float
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:return: None
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"""
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self._outside_thermal_absorptance = value
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@property
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def outside_visible_absorptance(self):
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"""
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Get thermal boundary outside visible absorptance
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:return: float
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"""
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return self._outside_visible_absorptance
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@outside_visible_absorptance.setter
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def outside_visible_absorptance(self, value):
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"""
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Set thermal boundary outside visible absorptance
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:param value: float
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:return: None
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"""
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self._outside_visible_absorptance = value
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@property
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def thermal_openings(self) -> List[ThermalOpening]:
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"""
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Get thermal boundary thermal openings
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:return: [ThermalOpening]
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"""
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return self._thermal_openings
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@thermal_openings.setter
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def thermal_openings(self, value):
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"""
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Set thermal boundary thermal openings
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:param value: [ThermalOpening]
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:return: None
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"""
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self._thermal_openings = value
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@property
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def construction_name(self):
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"""
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Get construction name
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:return:
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"""
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return self._construction_name
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@construction_name.setter
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def construction_name(self, value):
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self._construction_name = value
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@property
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def layers(self) -> List[Layer]:
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"""
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Get thermal boundary layers
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:return: [Layers]
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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 thermal boundary layers
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:param value: [Layer]
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:return: None
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"""
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self._layers = value
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@property
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def type(self):
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"""
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Thermal boundary surface type
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:return: str
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"""
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return self._surface.type
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@property
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def window_ratio(self):
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"""
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Get thermal boundary window ratio
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:return: float
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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 thermal boundary window ratio
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:param value: float
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:return: None
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"""
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self._window_ratio = value
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@property
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def window_area(self):
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"""
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Thermal boundary window area in square meters
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:return: float
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"""
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if self._window_area is None:
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try:
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self._window_area = float(self._surface.area) * float(self.window_ratio)
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except TypeError:
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raise Exception('Window ratio is not defined or invalid surface area')
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return self._window_area
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# todo: what if I just want to assign a number??
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@property
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def u_value(self):
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"""
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Thermal boundary u value in W/m2K
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internal and external convective coefficient in W/m2K values, can be configured at configuration.ini
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:return: float
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"""
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if self._u_value is None:
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h_i = ConfigurationHelper().h_i
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h_e = ConfigurationHelper().h_e
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r_value = 1.0/h_i + 1.0/h_e
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try:
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for layer in self.layers:
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if layer.material.no_mass:
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r_value += float(layer.material.thermal_resistance)
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else:
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r_value = r_value + float(layer.material.conductivity) / float(layer.thickness)
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self._u_value = 1.0/r_value
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except TypeError:
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raise Exception('Constructions layers are not initialized')
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return self._u_value
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@u_value.setter
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def u_value(self, value):
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self._u_value = value
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@property
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def shortwave_reflectance(self):
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"""
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Get thermal boundary shortwave reflectance
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:return: float
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"""
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return self._shortwave_reflectance
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@shortwave_reflectance.setter
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def shortwave_reflectance(self, value):
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"""
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Set thermal boundary shortwave reflectance
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:param value: float
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:return:
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"""
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self._shortwave_reflectance = value
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self._outside_solar_absorptance = 1.0 - float(value)
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