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df2d7a3054
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63d1e8af2d
| Author | SHA1 | Date | |
|---|---|---|---|
| 63d1e8af2d | |||
| 0012179087 |
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@ -22,7 +22,6 @@ class EilatCatalog(Catalog):
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"""
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Eilat catalog class
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"""
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def __init__(self, path):
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_path_archetypes = Path(path / 'eilat_archetypes.json').resolve()
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_path_constructions = (path / 'eilat_constructions.json').resolve()
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@ -122,10 +121,8 @@ class EilatCatalog(Catalog):
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construction_period = archetype['period_of_construction']
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average_storey_height = archetype['average_storey_height']
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extra_loses_due_to_thermal_bridges = archetype['extra_loses_due_thermal_bridges']
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infiltration_rate_for_ventilation_system_off = archetype[
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'infiltration_rate_for_ventilation_system_off'] / cte.HOUR_TO_SECONDS
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infiltration_rate_for_ventilation_system_on = archetype[
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'infiltration_rate_for_ventilation_system_on'] / cte.HOUR_TO_SECONDS
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infiltration_rate_for_ventilation_system_off = archetype['infiltration_rate_for_ventilation_system_off'] / cte.HOUR_TO_SECONDS
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infiltration_rate_for_ventilation_system_on = archetype['infiltration_rate_for_ventilation_system_on'] / cte.HOUR_TO_SECONDS
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archetype_constructions = []
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for archetype_construction in archetype['constructions']:
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@ -163,9 +160,7 @@ class EilatCatalog(Catalog):
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extra_loses_due_to_thermal_bridges,
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None,
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infiltration_rate_for_ventilation_system_off,
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infiltration_rate_for_ventilation_system_on,
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0,
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0))
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infiltration_rate_for_ventilation_system_on))
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return _catalog_archetypes
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def names(self, category=None):
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@ -128,12 +128,6 @@ class NrcanCatalog(Catalog):
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infiltration_rate_for_ventilation_system_on = (
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archetype['infiltration_rate_for_ventilation_system_on'] / cte.HOUR_TO_SECONDS
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)
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infiltration_rate_area_for_ventilation_system_off = (
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archetype['infiltration_rate_area_for_ventilation_system_off'] * 1
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)
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infiltration_rate_area_for_ventilation_system_on = (
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archetype['infiltration_rate_area_for_ventilation_system_on'] * 1
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)
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archetype_constructions = []
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for archetype_construction in archetype['constructions']:
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@ -159,6 +153,7 @@ class NrcanCatalog(Catalog):
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_window)
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archetype_constructions.append(_construction)
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break
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_catalog_archetypes.append(Archetype(archetype_id,
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name,
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function,
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@ -170,10 +165,7 @@ class NrcanCatalog(Catalog):
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extra_loses_due_to_thermal_bridges,
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None,
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infiltration_rate_for_ventilation_system_off,
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infiltration_rate_for_ventilation_system_on,
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infiltration_rate_area_for_ventilation_system_off,
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infiltration_rate_area_for_ventilation_system_on
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))
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infiltration_rate_for_ventilation_system_on))
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return _catalog_archetypes
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def names(self, category=None):
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@ -162,9 +162,7 @@ class NrelCatalog(Catalog):
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extra_loses_due_to_thermal_bridges,
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indirect_heated_ratio,
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infiltration_rate_for_ventilation_system_off,
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infiltration_rate_for_ventilation_system_on,
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0,
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0))
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infiltration_rate_for_ventilation_system_on))
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return _catalog_archetypes
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def names(self, category=None):
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@ -23,10 +23,7 @@ class Archetype:
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extra_loses_due_to_thermal_bridges,
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indirect_heated_ratio,
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infiltration_rate_for_ventilation_system_off,
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infiltration_rate_for_ventilation_system_on,
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infiltration_rate_area_for_ventilation_system_off,
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infiltration_rate_area_for_ventilation_system_on
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):
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infiltration_rate_for_ventilation_system_on):
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self._id = archetype_id
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self._name = name
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self._function = function
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@ -39,8 +36,6 @@ class Archetype:
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self._indirect_heated_ratio = indirect_heated_ratio
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self._infiltration_rate_for_ventilation_system_off = infiltration_rate_for_ventilation_system_off
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self._infiltration_rate_for_ventilation_system_on = infiltration_rate_for_ventilation_system_on
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self._infiltration_rate_area_for_ventilation_system_off = infiltration_rate_area_for_ventilation_system_off
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self._infiltration_rate_area_for_ventilation_system_on = infiltration_rate_area_for_ventilation_system_on
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@property
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def id(self):
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@ -138,22 +133,6 @@ class Archetype:
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"""
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return self._infiltration_rate_for_ventilation_system_on
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@property
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def infiltration_rate_area_for_ventilation_system_off(self):
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"""
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Get archetype infiltration rate for ventilation system off in m3/sm2
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:return: float
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"""
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return self._infiltration_rate_area_for_ventilation_system_off
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@property
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def infiltration_rate_area_for_ventilation_system_on(self):
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"""
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Get archetype infiltration rate for ventilation system on in m3/sm2
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:return: float
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"""
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return self._infiltration_rate_for_ventilation_system_on
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def to_dictionary(self):
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"""Class content to dictionary"""
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_constructions = []
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@ -170,8 +149,6 @@ class Archetype:
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'indirect heated ratio': self.indirect_heated_ratio,
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'infiltration rate for ventilation off [1/s]': self.infiltration_rate_for_ventilation_system_off,
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'infiltration rate for ventilation on [1/s]': self.infiltration_rate_for_ventilation_system_on,
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'infiltration rate area for ventilation off [m3/sm2]': self.infiltration_rate_area_for_ventilation_system_off,
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'infiltration rate area for ventilation on [m3/sm2]': self.infiltration_rate_area_for_ventilation_system_on,
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'constructions': _constructions
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}
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}
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@ -180,7 +180,7 @@ class Surface:
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@property
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def global_irradiance(self) -> dict:
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"""
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Get global irradiance on surface in W/m2
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Get global irradiance on surface in J/m2
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:return: dict
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"""
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return self._global_irradiance
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@ -188,7 +188,7 @@ class Surface:
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@global_irradiance.setter
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def global_irradiance(self, value):
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"""
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Set global irradiance on surface in W/m2
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Set global irradiance on surface in J/m2
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:param value: dict
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"""
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self._global_irradiance = value
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@ -390,7 +390,7 @@ class Surface:
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@property
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def global_irradiance_tilted(self) -> dict:
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"""
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Get global irradiance on a tilted surface in W/m2
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Get global irradiance on a tilted surface in J/m2
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:return: dict
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"""
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return self._global_irradiance_tilted
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@ -398,7 +398,7 @@ class Surface:
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@global_irradiance_tilted.setter
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def global_irradiance_tilted(self, value):
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"""
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Set global irradiance on a tilted surface in W/m2
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Set global irradiance on a tilted surface in J/m2
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:param value: dict
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"""
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self._global_irradiance_tilted = value
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@ -20,8 +20,6 @@ class ThermalArchetype:
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self._indirect_heated_ratio = None
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self._infiltration_rate_for_ventilation_system_off = None
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self._infiltration_rate_for_ventilation_system_on = None
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self._infiltration_rate_area_for_ventilation_system_off=None
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self._infiltration_rate_area_for_ventilation_system_on=None
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@property
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def constructions(self) -> [Construction]:
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@ -134,35 +132,3 @@ class ThermalArchetype:
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:param value: float
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"""
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self._infiltration_rate_for_ventilation_system_on = value
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@property
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def infiltration_rate_area_for_ventilation_system_off(self):
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"""
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Get infiltration rate for ventilation system off in l/s/m2
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:return: float
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"""
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return self._infiltration_rate_for_ventilation_system_off
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@infiltration_rate_area_for_ventilation_system_off.setter
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def infiltration_rate_area_for_ventilation_system_off(self, value):
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"""
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Set infiltration rate for ventilation system off in l/s/m2
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:param value: float
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"""
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self._infiltration_rate_for_ventilation_system_off = value
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@property
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def infiltration_rate_area_for_ventilation_system_on(self):
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"""
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Get infiltration rate for ventilation system on in l/s/m2
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:return: float
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"""
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return self._infiltration_rate_for_ventilation_system_on
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@infiltration_rate_area_for_ventilation_system_on.setter
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def infiltration_rate_area_for_ventilation_system_on(self, value):
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"""
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Set infiltration rate for ventilation system on in l/s/m2
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:param value: float
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"""
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self._infiltration_rate_for_ventilation_system_on = value
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@ -44,8 +44,6 @@ class ThermalZone:
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self._indirectly_heated_area_ratio = None
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self._infiltration_rate_system_on = None
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self._infiltration_rate_system_off = None
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self._infiltration_rate_area_system_on = None
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self._infiltration_rate_area_system_off = None
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self._volume = volume
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self._ordinate_number = None
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self._view_factors_matrix = None
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@ -168,24 +166,6 @@ class ThermalZone:
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self._infiltration_rate_system_off = self._parent_internal_zone.thermal_archetype.infiltration_rate_for_ventilation_system_off
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return self._infiltration_rate_system_off
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@property
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def infiltration_rate_area_system_on(self):
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"""
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Get thermal zone infiltration rate system on in air changes per second (1/s)
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:return: None or float
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"""
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self._infiltration_rate_area_system_on = self._parent_internal_zone.thermal_archetype.infiltration_rate_area_for_ventilation_system_on
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return self._infiltration_rate_area_system_on
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@property
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def infiltration_rate_area_system_off(self):
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"""
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Get thermal zone infiltration rate system off in air changes per second (1/s)
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:return: None or float
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"""
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self._infiltration_rate_area_system_off = self._parent_internal_zone.thermal_archetype.infiltration_rate_area_for_ventilation_system_off
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return self._infiltration_rate_area_system_off
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@property
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def volume(self):
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"""
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File diff suppressed because it is too large
Load Diff
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@ -7,9 +7,6 @@ Code contributors: Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concord
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Oriol Gavalda Torrellas oriol.gavalda@concordia.ca
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"""
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import copy
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import datetime
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import glob
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import os
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from pathlib import Path
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from geomeppy import IDF
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import hub.helpers.constants as cte
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@ -278,12 +275,11 @@ class Idf:
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_kwargs[f'Field_{counter + 2}'] = 'Until: 24:00,0.0'
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self._idf.newidfobject(self._COMPACT_SCHEDULE, **_kwargs)
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def _write_schedules_file(self, schedule, usage):
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file_name = str((Path(self._output_path) / f'{schedule.type} schedules {usage.replace("/","_")}.csv').resolve())
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if not Path(file_name).exists():
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with open(file_name, 'w', encoding='utf8') as file:
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for value in schedule.values:
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file.write(f'{str(value)},\n')
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def _write_schedules_file(self, usage, schedule):
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file_name = str((Path(self._output_path) / f'{schedule.type} schedules {usage}.csv').resolve())
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with open(file_name, 'w', encoding='utf8') as file:
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for value in schedule.values:
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file.write(f'{str(value)},\n')
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return Path(file_name).name
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def _add_file_schedule(self, usage, schedule, file_name):
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@ -308,7 +304,7 @@ class Idf:
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for schedule in self._idf.idfobjects[self._FILE_SCHEDULE]:
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if schedule.Name == f'{schedule_type} schedules {usage}':
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return
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file_name = self._write_schedules_file(new_schedules[0], usage)
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file_name = self._write_schedules_file(usage, new_schedules[0])
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self._add_file_schedule(usage, new_schedules[0], file_name)
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return
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@ -331,7 +327,6 @@ class Idf:
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for material in self._idf.idfobjects[self._MATERIAL]:
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if material.Name == "DefaultMaterial":
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return
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self._idf.set_default_constructions()
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return
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for layer in thermal_boundary.layers:
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@ -393,9 +388,9 @@ class Idf:
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thermostat = self._add_thermostat(thermal_zone)
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self._idf.newidfobject(self._IDEAL_LOAD_AIR_SYSTEM,
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Zone_Name=zone_name,
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System_Availability_Schedule_Name=f'Thermostat_availability schedules {thermal_zone.usage_name}',
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Heating_Availability_Schedule_Name=f'Thermostat_availability schedules {thermal_zone.usage_name}',
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Cooling_Availability_Schedule_Name=f'Thermostat_availability schedules {thermal_zone.usage_name}',
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System_Availability_Schedule_Name=f'HVAC AVAIL SCHEDULES {thermal_zone.usage_name}',
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Heating_Availability_Schedule_Name=f'HVAC AVAIL SCHEDULES {thermal_zone.usage_name}',
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Cooling_Availability_Schedule_Name=f'HVAC AVAIL SCHEDULES {thermal_zone.usage_name}',
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Template_Thermostat_Name=thermostat.Name)
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def _add_occupancy(self, thermal_zone, zone_name):
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@ -455,7 +450,7 @@ class Idf:
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)
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def _add_infiltration(self, thermal_zone, zone_name):
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schedule = f'INF_CONST schedules {thermal_zone.usage_name}'
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schedule = f'Infiltration schedules {thermal_zone.usage_name}'
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_infiltration = thermal_zone.infiltration_rate_system_off * cte.HOUR_TO_SECONDS
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self._idf.newidfobject(self._INFILTRATION,
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Name=f'{zone_name}_infiltration',
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@ -465,17 +460,6 @@ class Idf:
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Air_Changes_per_Hour=_infiltration
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)
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def _add_infiltration_surface(self, thermal_zone, zone_name):
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schedule = f'INF_CONST schedules {thermal_zone.usage_name}'
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_infiltration = thermal_zone.infiltration_rate_area_system_off*1
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self._idf.newidfobject(self._INFILTRATION,
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Name=f'{zone_name}_infiltration',
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Zone_or_ZoneList_or_Space_or_SpaceList_Name=zone_name,
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Schedule_Name=schedule,
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Design_Flow_Rate_Calculation_Method='Flow/ExteriorWallArea',
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Flow_Rate_per_Exterior_Surface_Area=_infiltration
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)
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def _add_ventilation(self, thermal_zone, zone_name):
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schedule = f'Ventilation schedules {thermal_zone.usage_name}'
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_air_change = thermal_zone.mechanical_air_change * cte.HOUR_TO_SECONDS
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@ -487,7 +471,7 @@ class Idf:
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Air_Changes_per_Hour=_air_change
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)
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def _add_dhw(self, thermal_zone, zone_name, usage):
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def _add_dhw(self, thermal_zone, zone_name):
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peak_flow_rate = thermal_zone.domestic_hot_water.peak_flow * thermal_zone.total_floor_area
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self._idf.newidfobject(self._DHW,
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Name=f'DHW {zone_name}',
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@ -495,7 +479,7 @@ class Idf:
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Flow_Rate_Fraction_Schedule_Name=f'DHW_prof schedules {thermal_zone.usage_name}',
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Target_Temperature_Schedule_Name=f'DHW_temp schedules {thermal_zone.usage_name}',
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Hot_Water_Supply_Temperature_Schedule_Name=f'DHW_temp schedules {thermal_zone.usage_name}',
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Cold_Water_Supply_Temperature_Schedule_Name=f'cold_temp schedules {usage}',
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Cold_Water_Supply_Temperature_Schedule_Name=f'cold_temp schedules {zone_name}',
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EndUse_Subcategory=f'DHW {zone_name}',
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Zone_Name=zone_name
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)
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@ -529,25 +513,19 @@ class Idf:
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self._rename_building(self._city.name)
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self._lod = self._city.level_of_detail.geometry
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for building in self._city.buildings:
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is_target = building.name in self._target_buildings or building.name in self._adjacent_buildings
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for internal_zone in building.internal_zones:
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if internal_zone.thermal_zones_from_internal_zones is None:
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self._target_buildings.remoidf_surface_typeve(building.name)
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is_target = False
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self._target_buildings.remove(building.name)
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continue
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for thermal_zone in internal_zone.thermal_zones_from_internal_zones:
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for thermal_boundary in thermal_zone.thermal_boundaries:
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self._add_construction(thermal_boundary)
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if thermal_boundary.parent_surface.vegetation is not None:
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self._add_vegetation_material(thermal_boundary.parent_surface.vegetation)
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for thermal_opening in thermal_boundary.thermal_openings:
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self._add_window_construction_and_material(thermal_opening)
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if is_target:
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start = datetime.datetime.now()
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service_temperature = thermal_zone.domestic_hot_water.service_temperature
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usage = thermal_zone.usage_name
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usage = thermal_zone.usage_name
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if building.name in self._target_buildings or building.name in self._adjacent_buildings:
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_new_schedules = self._create_infiltration_schedules(thermal_zone)
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self._add_schedules(usage, 'Infiltration', _new_schedules)
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_new_schedules = self._create_ventilation_schedules(thermal_zone)
|
||||
|
|
@ -559,14 +537,12 @@ class Idf:
|
|||
self._add_schedules(usage, 'Lighting', thermal_zone.lighting.schedules)
|
||||
self._add_schedules(usage, 'Appliance', thermal_zone.appliances.schedules)
|
||||
self._add_schedules(usage, 'DHW_prof', thermal_zone.domestic_hot_water.schedules)
|
||||
_new_schedules = self._create_yearly_values_schedules('cold_temp', building.cold_water_temperature[cte.HOUR])
|
||||
self._add_schedules(usage, 'cold_temp', _new_schedules)
|
||||
_new_schedules = self._create_constant_value_schedules('DHW_temp', service_temperature)
|
||||
_new_schedules = self._create_yearly_values_schedules('cold_temp',
|
||||
building.cold_water_temperature[cte.HOUR])
|
||||
self._add_schedules(building.name, 'cold_temp', _new_schedules)
|
||||
value = thermal_zone.domestic_hot_water.service_temperature
|
||||
_new_schedules = self._create_constant_value_schedules('DHW_temp', value)
|
||||
self._add_schedules(usage, 'DHW_temp', _new_schedules)
|
||||
_new_schedules = self._create_constant_value_schedules('INF_CONST', 1)
|
||||
self._add_schedules(usage, 'INF_CONST', _new_schedules)
|
||||
_new_schedules = self._create_constant_value_schedules('Thermostat_availability', 1)
|
||||
self._add_schedules(usage, 'Thermostat_availability', _new_schedules)
|
||||
_occ = thermal_zone.occupancy
|
||||
if _occ.occupancy_density == 0:
|
||||
_total_heat = 0
|
||||
|
|
@ -577,18 +553,16 @@ class Idf:
|
|||
self._add_schedules(usage, 'Activity Level', _new_schedules)
|
||||
self._add_zone(thermal_zone, building.name)
|
||||
self._add_heating_system(thermal_zone, building.name)
|
||||
self._add_infiltration_surface(thermal_zone, building.name)
|
||||
self._add_infiltration(thermal_zone, building.name)
|
||||
self._add_ventilation(thermal_zone, building.name)
|
||||
self._add_occupancy(thermal_zone, building.name)
|
||||
self._add_lighting(thermal_zone, building.name)
|
||||
self._add_appliances(thermal_zone, building.name)
|
||||
self._add_dhw(thermal_zone, building.name, usage)
|
||||
self._add_dhw(thermal_zone, building.name)
|
||||
if self._export_type == "Surfaces":
|
||||
if is_target:
|
||||
if building.name in self._target_buildings or building.name in self._adjacent_buildings:
|
||||
if building.thermal_zones_from_internal_zones is not None:
|
||||
start = datetime.datetime.now()
|
||||
self._add_surfaces(building, building.name)
|
||||
print(f'add surfaces {datetime.datetime.now() - start}')
|
||||
else:
|
||||
self._add_pure_geometry(building, building.name)
|
||||
else:
|
||||
|
|
@ -626,18 +600,6 @@ class Idf:
|
|||
Reporting_Frequency="Hourly",
|
||||
)
|
||||
|
||||
self._idf.newidfobject(
|
||||
"OUTPUT:VARIABLE",
|
||||
Variable_Name="Zone Air Temperature",
|
||||
Reporting_Frequency="Hourly",
|
||||
)
|
||||
|
||||
self._idf.newidfobject(
|
||||
"OUTPUT:VARIABLE",
|
||||
Variable_Name="Zone Air Relative Humidity",
|
||||
Reporting_Frequency="Hourly",
|
||||
)
|
||||
|
||||
# post-process to erase windows associated to adiabatic walls
|
||||
windows_list = []
|
||||
for window in self._idf.idfobjects[self._WINDOW]:
|
||||
|
|
|
|||
|
|
@ -20,10 +20,9 @@ class EnergyBuildingsExportsFactory:
|
|||
"""
|
||||
Energy Buildings exports factory class
|
||||
"""
|
||||
def __init__(self, handler, city, path, custom_insel_block='d18599', target_buildings=None, weather_file=None):
|
||||
def __init__(self, handler, city, path, custom_insel_block='d18599', target_buildings=None):
|
||||
self._city = city
|
||||
self._export_type = '_' + handler.lower()
|
||||
self._weather_file = weather_file
|
||||
validate_import_export_type(EnergyBuildingsExportsFactory, handler)
|
||||
if isinstance(path, str):
|
||||
path = Path(path)
|
||||
|
|
@ -54,13 +53,12 @@ class EnergyBuildingsExportsFactory:
|
|||
"""
|
||||
idf_data_path = (Path(__file__).parent / './building_energy/idf_files/').resolve()
|
||||
url = wh().epw_file(self._city.region_code)
|
||||
if self._weather_file is None:
|
||||
self._weather_file = (Path(__file__).parent.parent / f'data/weather/epw/{url.rsplit("/", 1)[1]}').resolve()
|
||||
if not self._weather_file.exists():
|
||||
with open(self._weather_file, 'wb') as epw_file:
|
||||
weather_path = (Path(__file__).parent.parent / f'data/weather/epw/{url.rsplit("/", 1)[1]}').resolve()
|
||||
if not weather_path.exists():
|
||||
with open(weather_path, 'wb') as epw_file:
|
||||
epw_file.write(requests.get(url, allow_redirects=True).content)
|
||||
return Idf(self._city, self._path, (idf_data_path / 'Minimal.idf'), (idf_data_path / 'Energy+.idd'),
|
||||
self._weather_file, target_buildings=self._target_buildings)
|
||||
return Idf(self._city, self._path, (idf_data_path / 'Minimal.idf'), (idf_data_path / 'Energy+.idd'), weather_path,
|
||||
target_buildings=self._target_buildings)
|
||||
|
||||
@property
|
||||
def _insel_monthly_energy_balance(self):
|
||||
|
|
|
|||
|
|
@ -25,7 +25,6 @@ KILO_WATTS_HOUR_TO_JULES = 3600000
|
|||
WATTS_HOUR_TO_JULES = 3600
|
||||
GALLONS_TO_QUBIC_METERS = 0.0037854117954011185
|
||||
|
||||
|
||||
# time
|
||||
SECOND = 'second'
|
||||
MINUTE = 'minute'
|
||||
|
|
|
|||
|
|
@ -79,8 +79,6 @@ class NrcanPhysicsParameters:
|
|||
thermal_archetype.indirect_heated_ratio = 0
|
||||
thermal_archetype.infiltration_rate_for_ventilation_system_on = catalog_archetype.infiltration_rate_for_ventilation_system_on
|
||||
thermal_archetype.infiltration_rate_for_ventilation_system_off = catalog_archetype.infiltration_rate_for_ventilation_system_off
|
||||
thermal_archetype.infiltration_rate_area_for_ventilation_system_on = catalog_archetype.infiltration_rate_area_for_ventilation_system_on
|
||||
thermal_archetype.infiltration_rate_area_for_ventilation_system_off = catalog_archetype.infiltration_rate_area_for_ventilation_system_off
|
||||
_constructions = []
|
||||
for catalog_construction in catalog_archetype.constructions:
|
||||
construction = Construction()
|
||||
|
|
|
|||
|
|
@ -24,7 +24,7 @@ class EnergyPlusMultipleBuildings:
|
|||
csv_output = list(csv.DictReader(csv_file))
|
||||
|
||||
for building in self._city.buildings:
|
||||
building_name = building.name.upper()
|
||||
building_name = building.name
|
||||
buildings_energy_demands[f'Building {building_name} Heating Demand (J)'] = [
|
||||
float(
|
||||
row[f"{building_name} IDEAL LOADS AIR SYSTEM:Zone Ideal Loads Supply Air Total Heating Energy [J](Hourly)"])
|
||||
|
|
@ -36,7 +36,7 @@ class EnergyPlusMultipleBuildings:
|
|||
for row in csv_output
|
||||
]
|
||||
buildings_energy_demands[f'Building {building_name} DHW Demand (W)'] = [
|
||||
float(row[f"DHW {building_name}:Water Use Equipment Heating Rate [W](Hourly)"])
|
||||
float(row[f"DHW {building.name}:Water Use Equipment Heating Rate [W](Hourly)"])
|
||||
for row in csv_output
|
||||
]
|
||||
buildings_energy_demands[f'Building {building_name} Appliances (W)'] = [
|
||||
|
|
@ -58,15 +58,14 @@ class EnergyPlusMultipleBuildings:
|
|||
if energy_plus_output_file_path.is_file():
|
||||
building_energy_demands = self._building_energy_demands(energy_plus_output_file_path)
|
||||
for building in self._city.buildings:
|
||||
building_name = building.name.upper()
|
||||
building.heating_demand[cte.HOUR] = building_energy_demands[f'Building {building_name} Heating Demand (J)']
|
||||
building.cooling_demand[cte.HOUR] = building_energy_demands[f'Building {building_name} Cooling Demand (J)']
|
||||
building.heating_demand[cte.HOUR] = building_energy_demands[f'Building {building.name} Heating Demand (J)']
|
||||
building.cooling_demand[cte.HOUR] = building_energy_demands[f'Building {building.name} Cooling Demand (J)']
|
||||
building.domestic_hot_water_heat_demand[cte.HOUR] = \
|
||||
[x * cte.WATTS_HOUR_TO_JULES for x in building_energy_demands[f'Building {building_name} DHW Demand (W)']]
|
||||
[x * cte.WATTS_HOUR_TO_JULES for x in building_energy_demands[f'Building {building.name} DHW Demand (W)']]
|
||||
building.appliances_electrical_demand[cte.HOUR] = \
|
||||
[x * cte.WATTS_HOUR_TO_JULES for x in building_energy_demands[f'Building {building_name} Appliances (W)']]
|
||||
[x * cte.WATTS_HOUR_TO_JULES for x in building_energy_demands[f'Building {building.name} Appliances (W)']]
|
||||
building.lighting_electrical_demand[cte.HOUR] = \
|
||||
[x * cte.WATTS_HOUR_TO_JULES for x in building_energy_demands[f'Building {building_name} Lighting (W)']]
|
||||
[x * cte.WATTS_HOUR_TO_JULES for x in building_energy_demands[f'Building {building.name} Lighting (W)']]
|
||||
building.heating_demand[cte.MONTH] = MonthlyValues.get_total_month(building.heating_demand[cte.HOUR])
|
||||
building.cooling_demand[cte.MONTH] = MonthlyValues.get_total_month(building.cooling_demand[cte.HOUR])
|
||||
building.domestic_hot_water_heat_demand[cte.MONTH] = (
|
||||
|
|
|
|||
|
|
@ -34,7 +34,7 @@ class SimplifiedRadiosityAlgorithm:
|
|||
for key in self._results:
|
||||
_irradiance = {}
|
||||
header_name = key.split(':')
|
||||
result = [x for x in self._results[key]]
|
||||
result = [x * cte.WATTS_HOUR_TO_JULES for x in self._results[key]]
|
||||
city_object_name = header_name[1]
|
||||
building = self._city.city_object(city_object_name)
|
||||
surface_id = header_name[2]
|
||||
|
|
|
|||
|
|
@ -1,4 +1,4 @@
|
|||
"""
|
||||
Hub version number
|
||||
"""
|
||||
__version__ = '0.2.0.10'
|
||||
__version__ = '0.2.0.8'
|
||||
|
|
|
|||
|
|
@ -1,5 +1,5 @@
|
|||
xmltodict
|
||||
numpy==1.26.4
|
||||
numpy
|
||||
trimesh[all]
|
||||
pyproj
|
||||
pandas
|
||||
|
|
@ -24,5 +24,4 @@ triangle
|
|||
psycopg2-binary
|
||||
Pillow
|
||||
pathlib
|
||||
sqlalchemy_utils
|
||||
build
|
||||
sqlalchemy_utils
|
||||
142
texttest
Normal file
142
texttest
Normal file
|
|
@ -0,0 +1,142 @@
|
|||
ZoneControl:Thermostat,
|
||||
Room_180_7ad8616b Thermostat, !- Name
|
||||
Room_180_7ad8616b, !- Zone or ZoneList Name
|
||||
Room_180_7ad8616b Thermostat Schedule, !- Control Type Schedule Name
|
||||
ThermostatSetpoint:DualSetpoint, !- Control 1 Object Type
|
||||
LargeOffice Building_Setpoint 26, !- Control 1 Name
|
||||
, !- Control 2 Object Type
|
||||
, !- Control 2 Name
|
||||
, !- Control 3 Object Type
|
||||
, !- Control 3 Name
|
||||
, !- Control 4 Object Type
|
||||
, !- Control 4 Name
|
||||
0; !- Temperature Difference Between Cutout And Setpoint {deltaC}
|
||||
|
||||
Schedule:Compact,
|
||||
Room_180_7ad8616b Thermostat Schedule, !- Name
|
||||
Room_180_7ad8616b Thermostat Schedule Type Limits, !- Schedule Type Limits Name
|
||||
Through: 12/31, !- Field 1
|
||||
For: AllDays, !- Field 2
|
||||
Until: 24:00, !- Field 3
|
||||
4; !- Field 4
|
||||
|
||||
ScheduleTypeLimits,
|
||||
Room_180_7ad8616b Thermostat Schedule Type Limits, !- Name
|
||||
0, !- Lower Limit Value {BasedOnField A3}
|
||||
4, !- Upper Limit Value {BasedOnField A3}
|
||||
DISCRETE; !- Numeric Type
|
||||
|
||||
ThermostatSetpoint:DualSetpoint,
|
||||
LargeOffice Building_Setpoint 26, !- Name
|
||||
LargeOffice Building_Setpoint_HtgSetp Schedule, !- Heating Setpoint Temperature Schedule Name
|
||||
LargeOffice Building_Setpoint_ClgSetp Schedule; !- Cooling Setpoint Temperature Schedule Name
|
||||
|
||||
ZoneHVAC:EquipmentConnections,
|
||||
Room_180_7ad8616b, !- Zone Name
|
||||
Room_180_7ad8616b Equipment List, !- Zone Conditioning Equipment List Name
|
||||
Room_180_7ad8616b Inlet Node List, !- Zone Air Inlet Node or NodeList Name
|
||||
, !- Zone Air Exhaust Node or NodeList Name
|
||||
Node 27, !- Zone Air Node Name
|
||||
Room_180_7ad8616b Return Node List; !- Zone Return Air Node or NodeList Name
|
||||
|
||||
NodeList,
|
||||
Room_180_7ad8616b Inlet Node List, !- Name
|
||||
Node 305; !- Node Name 1
|
||||
|
||||
NodeList,
|
||||
Room_180_7ad8616b Return Node List, !- Name
|
||||
Node 308; !- Node Name 1
|
||||
|
||||
ZoneHVAC:Baseboard:Convective:Electric,
|
||||
Elec Baseboard 1, !- Name
|
||||
Always On Discrete hvac_library, !- Availability Schedule Name
|
||||
, !- Heating Design Capacity Method
|
||||
Autosize, !- Heating Design Capacity {W}
|
||||
, !- Heating Design Capacity Per Floor Area {W/m2}
|
||||
, !- Fraction of Autosized Heating Design Capacity
|
||||
1; !- Efficiency
|
||||
|
||||
AirTerminal:SingleDuct:ConstantVolume:NoReheat,
|
||||
Diffuser 21, !- Name
|
||||
Always On Discrete hvac_library, !- Availability Schedule Name
|
||||
Node 307, !- Air Inlet Node Name
|
||||
Node 305, !- Air Outlet Node Name
|
||||
AutoSize; !- Maximum Air Flow Rate {m3/s}
|
||||
|
||||
ZoneHVAC:AirDistributionUnit,
|
||||
ADU Diffuser 21, !- Name
|
||||
Node 305, !- Air Distribution Unit Outlet Node Name
|
||||
AirTerminal:SingleDuct:ConstantVolume:NoReheat, !- Air Terminal Object Type
|
||||
Diffuser 21; !- Air Terminal Name
|
||||
|
||||
ZoneHVAC:EquipmentList,
|
||||
Room_180_7ad8616b Equipment List, !- Name
|
||||
SequentialLoad, !- Load Distribution Scheme
|
||||
ZoneHVAC:Baseboard:Convective:Electric, !- Zone Equipment Object Type 1
|
||||
Elec Baseboard 1, !- Zone Equipment Name 1
|
||||
1, !- Zone Equipment Cooling Sequence 1
|
||||
1, !- Zone Equipment Heating or No-Load Sequence 1
|
||||
, !- Zone Equipment Sequential Cooling Fraction Schedule Name 1
|
||||
, !- Zone Equipment Sequential Heating Fraction Schedule Name 1
|
||||
ZoneHVAC:AirDistributionUnit, !- Zone Equipment Object Type 2
|
||||
ADU Diffuser 21, !- Zone Equipment Name 2
|
||||
2, !- Zone Equipment Cooling Sequence 2
|
||||
2, !- Zone Equipment Heating or No-Load Sequence 2
|
||||
, !- Zone Equipment Sequential Cooling Fraction Schedule Name 2
|
||||
; !- Zone Equipment Sequential Heating Fraction Schedule Name 2
|
||||
|
||||
Sizing:Zone,
|
||||
Room_180_7ad8616b, !- Zone or ZoneList Name
|
||||
SupplyAirTemperature, !- Zone Cooling Design Supply Air Temperature Input Method
|
||||
14, !- Zone Cooling Design Supply Air Temperature {C}
|
||||
11.11, !- Zone Cooling Design Supply Air Temperature Difference {deltaC}
|
||||
SupplyAirTemperature, !- Zone Heating Design Supply Air Temperature Input Method
|
||||
40, !- Zone Heating Design Supply Air Temperature {C}
|
||||
11.11, !- Zone Heating Design Supply Air Temperature Difference {deltaC}
|
||||
0.0085, !- Zone Cooling Design Supply Air Humidity Ratio {kgWater/kgDryAir}
|
||||
0.008, !- Zone Heating Design Supply Air Humidity Ratio {kgWater/kgDryAir}
|
||||
Room_180_7ad8616b DSOA Space List, !- Design Specification Outdoor Air Object Name
|
||||
, !- Zone Heating Sizing Factor
|
||||
, !- Zone Cooling Sizing Factor
|
||||
DesignDay, !- Cooling Design Air Flow Method
|
||||
0, !- Cooling Design Air Flow Rate {m3/s}
|
||||
0.000762, !- Cooling Minimum Air Flow per Zone Floor Area {m3/s-m2}
|
||||
0, !- Cooling Minimum Air Flow {m3/s}
|
||||
0, !- Cooling Minimum Air Flow Fraction
|
||||
DesignDay, !- Heating Design Air Flow Method
|
||||
0, !- Heating Design Air Flow Rate {m3/s}
|
||||
0.002032, !- Heating Maximum Air Flow per Zone Floor Area {m3/s-m2}
|
||||
0.1415762, !- Heating Maximum Air Flow {m3/s}
|
||||
0.3, !- Heating Maximum Air Flow Fraction
|
||||
, !- Design Specification Zone Air Distribution Object Name
|
||||
No, !- Account for Dedicated Outdoor Air System
|
||||
, !- Dedicated Outdoor Air System Control Strategy
|
||||
, !- Dedicated Outdoor Air Low Setpoint Temperature for Design {C}
|
||||
, !- Dedicated Outdoor Air High Setpoint Temperature for Design {C}
|
||||
Sensible Load Only No Latent Load, !- Zone Load Sizing Method
|
||||
HumidityRatioDifference, !- Zone Latent Cooling Design Supply Air Humidity Ratio Input Method
|
||||
, !- Zone Dehumidification Design Supply Air Humidity Ratio {kgWater/kgDryAir}
|
||||
0.005, !- Zone Cooling Design Supply Air Humidity Ratio Difference {kgWater/kgDryAir}
|
||||
HumidityRatioDifference, !- Zone Latent Heating Design Supply Air Humidity Ratio Input Method
|
||||
, !- Zone Humidification Design Supply Air Humidity Ratio {kgWater/kgDryAir}
|
||||
0.005; !- Zone Humidification Design Supply Air Humidity Ratio Difference {kgWater/kgDryAir}
|
||||
|
||||
DesignSpecification:OutdoorAir:SpaceList,
|
||||
Room_180_7ad8616b DSOA Space List, !- Name
|
||||
Room_180_7ad8616b_Space, !- Space Name 1
|
||||
MidriseApartment Apartment Ventilation; !- Space Design Specification Outdoor Air Object Name 1
|
||||
|
||||
Zone,
|
||||
Room_181_3a411b5d, !- Name
|
||||
, !- Direction of Relative North {deg}
|
||||
0, !- X Origin {m}
|
||||
0, !- Y Origin {m}
|
||||
0, !- Z Origin {m}
|
||||
, !- Type
|
||||
1, !- Multiplier
|
||||
4, !- Ceiling Height {m}
|
||||
291.62935408288, !- Volume {m3}
|
||||
, !- Floor Area {m2}
|
||||
, !- Zone Inside Convection Algorithm
|
||||
, !- Zone Outside Convection Algorithm
|
||||
Yes; !- Part of Total Floor Area
|
||||
Loading…
Reference in New Issue
Block a user