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energy_sys
Author | SHA1 | Date | |
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78795acdcf | |||
3a7f9173c7 | |||
f2d78c381e | |||
1801aa6f00 | |||
0c7371787b |
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@ -15,10 +15,11 @@ class Archetype:
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"""
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Archetype class
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"""
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def __init__(self, lod, name, systems):
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def __init__(self, lod, name, schema, systems):
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self._lod = lod
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self._name = name
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self._schema = schema
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self._systems = systems
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@property
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@ -37,6 +38,14 @@ class Archetype:
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"""
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return self._name
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@property
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def schema(self):
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"""
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Get schema path
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:return: string
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"""
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return self._schema
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@property
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def systems(self) -> List[System]:
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"""
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@ -53,6 +62,7 @@ class Archetype:
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content = {
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'Archetype': {
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'name': self.name,
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'schema': self.schema,
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'level of detail': self.lod,
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'systems': _systems
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}
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@ -6,6 +6,7 @@ Project Coder Saeed Ranjbar saeed.ranjbar@concordia.ca
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Code contributors: Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca
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"""
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from pathlib import Path
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import xmltodict
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from hub.catalog_factories.catalog import Catalog
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from hub.catalog_factories.data_models.energy_systems.system import System
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@ -366,17 +367,19 @@ class NorthAmericaEnergySystemCatalog(Catalog):
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return _catalog_systems
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def _load_archetypes(self):
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base_path = Path(Path(__file__).parent.parent.parent / 'data/energy_systems')
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_system_archetypes = []
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system_clusters = self._archetypes['EnergySystemCatalog']['system_archetypes']['system_archetype']
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for system_cluster in system_clusters:
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name = system_cluster['name']
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schema_path = Path(base_path / system_cluster['schema'])
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systems = system_cluster['systems']['system_id']
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integer_system_ids = [int(item) for item in systems]
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_systems = []
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for system_archetype in self._systems:
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if int(system_archetype.id) in integer_system_ids:
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_systems.append(system_archetype)
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_system_archetypes.append(Archetype(None, name, _systems))
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_system_archetypes.append(Archetype(None, name, schema_path, _systems))
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return _system_archetypes
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def _load_materials(self):
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@ -27,6 +27,7 @@ class Building(CityObject):
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"""
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Building(CityObject) class
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"""
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def __init__(self, name, surfaces, year_of_construction, function, terrains=None, city=None):
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super().__init__(name, surfaces)
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self._city = city
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@ -715,31 +716,35 @@ class Building(CityObject):
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if self.energy_systems is None:
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return self._distribution_systems_electrical_consumption
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for energy_system in self.energy_systems:
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emission_system = energy_system.emission_systems.generic_emission_system
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parasitic_energy_consumption = 0
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if emission_system is not None:
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parasitic_energy_consumption = emission_system.parasitic_energy_consumption
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distribution_system = energy_system.distribution_systems.generic_distribution_system
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consumption_variable_flow = distribution_system.distribution_consumption_variable_flow
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for demand_type in energy_system.demand_types:
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if demand_type.lower() == cte.HEATING.lower():
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if _peak_load_type == cte.HEATING.lower():
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_consumption_fix_flow = distribution_system.distribution_consumption_fix_flow
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for heating_demand_key in self.heating_demand:
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_consumption = [0]*len(self.heating_demand[heating_demand_key])
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_demand = self.heating_demand[heating_demand_key]
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for i, _ in enumerate(_consumption):
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_consumption[i] += (parasitic_energy_consumption + consumption_variable_flow) * _demand[i]
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self._distribution_systems_electrical_consumption[heating_demand_key] = _consumption
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if demand_type.lower() == cte.COOLING.lower():
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if _peak_load_type == cte.COOLING.lower():
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_consumption_fix_flow = distribution_system.distribution_consumption_fix_flow
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for demand_key in self.cooling_demand:
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_consumption = self._distribution_systems_electrical_consumption[demand_key]
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_demand = self.cooling_demand[demand_key]
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for i, _ in enumerate(_consumption):
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_consumption[i] += (parasitic_energy_consumption + consumption_variable_flow) * _demand[i]
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self._distribution_systems_electrical_consumption[demand_key] = _consumption
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energy_emission_systems = energy_system.emission_systems
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energy_distribution_systems = energy_system.distribution_systems
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for energy_emission_system in energy_distribution_systems:
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emission_system = energy_emission_system.generic_emission_system
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parasitic_energy_consumption = 0
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if emission_system is not None:
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parasitic_energy_consumption = emission_system.parasitic_energy_consumption
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for energy_distribution_system in energy_emission_systems:
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distribution_system = energy_distribution_system.generic_distribution_system
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consumption_variable_flow = distribution_system.distribution_consumption_variable_flow
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for demand_type in energy_system.demand_types:
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if demand_type.lower() == cte.HEATING.lower():
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if _peak_load_type == cte.HEATING.lower():
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_consumption_fix_flow = distribution_system.distribution_consumption_fix_flow
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for heating_demand_key in self.heating_demand:
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_consumption = [0] * len(self.heating_demand[heating_demand_key])
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_demand = self.heating_demand[heating_demand_key]
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for i, _ in enumerate(_consumption):
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_consumption[i] += (parasitic_energy_consumption + consumption_variable_flow) * _demand[i]
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self._distribution_systems_electrical_consumption[heating_demand_key] = _consumption
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if demand_type.lower() == cte.COOLING.lower():
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if _peak_load_type == cte.COOLING.lower():
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_consumption_fix_flow = distribution_system.distribution_consumption_fix_flow
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for demand_key in self.cooling_demand:
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_consumption = self._distribution_systems_electrical_consumption[demand_key]
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_demand = self.cooling_demand[demand_key]
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for i, _ in enumerate(_consumption):
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_consumption[i] += (parasitic_energy_consumption + consumption_variable_flow) * _demand[i]
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self._distribution_systems_electrical_consumption[demand_key] = _consumption
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for key, item in self._distribution_systems_electrical_consumption.items():
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for i in range(0, len(item)):
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@ -753,27 +758,26 @@ class Building(CityObject):
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if self.energy_systems is None:
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return None
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for energy_system in self.energy_systems:
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generation_systems = energy_system.generation_systems
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print(generation_systems)
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print(type(generation_systems))
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energy_system_generation_systems = energy_system.generation_systems
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for demand_type in energy_system.demand_types:
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if demand_type.lower() == consumption_type.lower():
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if consumption_type in (cte.HEATING, cte.DOMESTIC_HOT_WATER):
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for generation_system in generation_systems:
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for generation_system in energy_system_generation_systems:
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coefficient_of_performance = generation_system.generic_generation_system.heat_efficiency
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elif consumption_type == cte.COOLING:
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for generation_system in generation_systems:
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for generation_system in energy_system_generation_systems:
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coefficient_of_performance = generation_system.generic_generation_system.cooling_efficiency
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elif consumption_type == cte.ELECTRICITY:
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for generation_system in generation_systems:
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coefficient_of_performance = generation_system.generic_generation_system.electricity_efficiency
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for generation_system in energy_system_generation_systems:
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coefficient_of_performance = \
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generation_system.generic_generation_system.electricity_efficiency
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if coefficient_of_performance == 0:
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values = [0]*len(demand)
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values = [0] * len(demand)
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final_energy_consumed = values
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else:
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final_energy_consumed = []
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for demand_value in demand:
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final_energy_consumed.append(demand_value / coefficient_of_performance)
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final_energy_consumed.append(demand_value / float(coefficient_of_performance))
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return final_energy_consumed
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@property
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@ -797,16 +801,18 @@ class Building(CityObject):
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if self.energy_systems is None:
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return self._onsite_electrical_production
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for energy_system in self.energy_systems:
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if energy_system.generation_systems.generic_generation_system.type == cte.PHOTOVOLTAIC:
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_efficiency = energy_system.generation_systems.generic_generation_system.electricity_efficiency
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self._onsite_electrical_production = {}
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for _key in self.roofs[0].global_irradiance.keys():
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_results = [0 for _ in range(0, len(self.roofs[0].global_irradiance[_key]))]
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for surface in self.roofs:
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if _key in orientation_losses_factor:
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_results = [x + y * _efficiency * surface.perimeter_area
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* surface.solar_collectors_area_reduction_factor * z
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for x, y, z in zip(_results, surface.global_irradiance[_key],
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orientation_losses_factor[_key]['south'])]
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self._onsite_electrical_production[_key] = _results
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energy_system_generation_systems = energy_system.generation_systems
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for generation_system in energy_system_generation_systems:
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if generation_system.generic_generation_system.type == cte.PHOTOVOLTAIC:
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_efficiency = generation_system.generic_generation_system.electricity_efficiency
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self._onsite_electrical_production = {}
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for _key in self.roofs[0].global_irradiance.keys():
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_results = [0 for _ in range(0, len(self.roofs[0].global_irradiance[_key]))]
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for surface in self.roofs:
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if _key in orientation_losses_factor:
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_results = [x + y * _efficiency * surface.perimeter_area
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* surface.solar_collectors_area_reduction_factor * z
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for x, y, z in zip(_results, surface.global_irradiance[_key],
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orientation_losses_factor[_key]['south'])]
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self._onsite_electrical_production[_key] = _results
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return self._onsite_electrical_production
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@ -1,6 +1,5 @@
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<?xml version="1.0" encoding="UTF-8"?>
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<EnergySystemCatalog>
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<schemas_path>./schemas/</schemas_path>
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<medias>
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<media media_id="1" media_name="Water" density="981.0" heatCapacity="4180.0" evaporationTemperature="100.0"/>
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</medias>
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@ -177,6 +176,7 @@
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<system_archetypes>
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<system_archetype id="1">
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<name>PV+ASHP+GasBoiler+TES</name>
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<schema>schemas/PV+ASHP+GasBoiler+TES.jpg</schema>
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<systems>
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<system_id>7</system_id>
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<system_id>1</system_id>
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@ -184,6 +184,7 @@
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</system_archetype>
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<system_archetype id="2">
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<name>PV+ASHP+ElectricBoiler+TES</name>
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<schema>schemas/PV+ASHP+ElectricBoiler+TES.jpg</schema>
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<systems>
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<system_id>7</system_id>
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<system_id>2</system_id>
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@ -191,6 +192,7 @@
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</system_archetype>
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<system_archetype id="3">
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<name>PV+GSHP+GasBoiler+TES</name>
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<schema>schemas/PV+GSHP+GasBoiler+TES.jpg</schema>
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<systems>
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<system_id>7</system_id>
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<system_id>3</system_id>
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@ -198,6 +200,7 @@
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</system_archetype>
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<system_archetype id="4">
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<name>PV+GSHP+ElectricBoiler+TES</name>
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<schema>schemas/PV+GSHP+ElectricBoiler+TES.jpg</schema>
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<systems>
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<system_id>7</system_id>
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<system_id>4</system_id>
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@ -205,6 +208,7 @@
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</system_archetype>
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<system_archetype id="5">
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<name>PV+WSHP+GasBoiler+TES</name>
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<schema>schemas/PV+WSHP+GasBoiler+TES.jpg</schema>
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<systems>
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<system_id>7</system_id>
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<system_id>5</system_id>
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@ -212,6 +216,7 @@
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</system_archetype>
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<system_archetype id="6">
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<name>PV+WSHP+ElectricBoiler+TES</name>
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<schema>schemas/PV+WSHP+ElectricBoiler+TES.jpg</schema>
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<systems>
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<system_id>7</system_id>
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<system_id>6</system_id>
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BIN
hub/data/energy_systems/schemas/PV+ASHP+ElectricBoiler+TES.jpg
Normal file
BIN
hub/data/energy_systems/schemas/PV+ASHP+ElectricBoiler+TES.jpg
Normal file
Binary file not shown.
After Width: | Height: | Size: 64 KiB |
BIN
hub/data/energy_systems/schemas/PV+ASHP+GasBoiler+TES.jpg
Normal file
BIN
hub/data/energy_systems/schemas/PV+ASHP+GasBoiler+TES.jpg
Normal file
Binary file not shown.
After Width: | Height: | Size: 64 KiB |
BIN
hub/data/energy_systems/schemas/PV+GSHP+ElectricBoiler+TES.jpg
Normal file
BIN
hub/data/energy_systems/schemas/PV+GSHP+ElectricBoiler+TES.jpg
Normal file
Binary file not shown.
After Width: | Height: | Size: 64 KiB |
BIN
hub/data/energy_systems/schemas/PV+GSHP+GasBoiler+TES.jpg
Normal file
BIN
hub/data/energy_systems/schemas/PV+GSHP+GasBoiler+TES.jpg
Normal file
Binary file not shown.
After Width: | Height: | Size: 64 KiB |
BIN
hub/data/energy_systems/schemas/PV+WSHP+ElectricBoiler+TES.jpg
Normal file
BIN
hub/data/energy_systems/schemas/PV+WSHP+ElectricBoiler+TES.jpg
Normal file
Binary file not shown.
After Width: | Height: | Size: 64 KiB |
BIN
hub/data/energy_systems/schemas/PV+WSHP+GasBoiler+TES.jpg
Normal file
BIN
hub/data/energy_systems/schemas/PV+WSHP+GasBoiler+TES.jpg
Normal file
Binary file not shown.
After Width: | Height: | Size: 64 KiB |
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@ -158,12 +158,12 @@ class NorthAmericaCustomEnergySystemParameters:
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copy.deepcopy(_generic_building_generation_system)
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_generation_systems.append(_building_generation_system)
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_building_energy_equipment.generation_systems = _generation_systems
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_building_storage_system = ThermalStorageSystem()
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_building_storage_system.generic_storage_system = \
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copy.deepcopy(_generic_building_energy_system.energy_storage_systems)
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_building_energy_equipment.energy_storage_systems = _building_storage_system
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# _building_storage_system = ThermalStorageSystem()
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# _building_storage_system.generic_storage_system = \
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# copy.deepcopy(_generic_building_energy_system.energy_storage_systems)
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#
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#
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# _building_energy_equipment.energy_storage_systems = _building_storage_system
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_building_energy_systems.append(_building_energy_equipment)
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building.energy_systems = _building_energy_systems
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@ -40,4 +40,24 @@ class TestSystemsCatalog(TestCase):
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def test_north_america_systems_catalog(self):
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catalog = EnergySystemsCatalogFactory('north_america').catalog
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catalog_categories = catalog.names()
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archetypes = catalog.names('archetypes')
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self.assertEqual(6, len(archetypes['archetypes']))
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systems = catalog.names('systems')
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self.assertEqual(7, len(systems['systems']))
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generation_equipments = catalog.names('generation_equipments')
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self.assertEqual(21, len(generation_equipments['generation_equipments']))
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storage_equipments = catalog.names('storage_equipments')
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self.assertEqual(6, len(storage_equipments['storage_equipments']))
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with self.assertRaises(ValueError):
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catalog.names('unknown')
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# retrieving all the entries should not raise any exceptions
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for category in catalog_categories:
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for value in catalog_categories[category]:
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catalog.get_entry(value)
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print(catalog.entries())
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with self.assertRaises(IndexError):
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catalog.get_entry('unknown')
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@ -26,10 +26,12 @@ from hub.city_model_structure.energy_systems.distribution_system import Distribu
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from hub.city_model_structure.energy_systems.emission_system import EmissionSystem
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from hub.city_model_structure.energy_systems.thermal_storage_system import ThermalStorageSystem
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class TestSystemsFactory(TestCase):
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"""
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TestSystemsFactory TestCase
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"""
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def setUp(self) -> None:
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"""
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Test setup
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@ -160,36 +162,32 @@ class TestSystemsFactory(TestCase):
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for _generic_building_energy_system in _generic_building_energy_systems:
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_building_energy_equipment = EnergySystem()
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_building_energy_equipment.demand_types = _generic_building_energy_system.demand_types
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_building_distribution_system = DistributionSystem()
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_building_distribution_system.generic_distribution_system = (
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copy.deepcopy(_generic_building_energy_system.distribution_systems)
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)
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_building_emission_system = EmissionSystem()
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_building_emission_system.generic_emission_system = (
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copy.deepcopy(_generic_building_energy_system.emission_systems)
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)
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_building_generation_system = GenerationSystem()
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_building_generation_system.generic_generation_system = (
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copy.deepcopy(_generic_building_energy_system.generation_systems)
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)
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_building_generation_systems = _generic_building_energy_system.generation_systems
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_generic_system_generation_systems = []
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for _building_generation_system in _building_generation_systems:
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_generation_system = GenerationSystem()
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_generation_system.generic_generation_system = (
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copy.deepcopy(_building_generation_system)
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)
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if cte.HEATING in _building_energy_equipment.demand_types:
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_generation_system.heat_power = building.heating_peak_load[cte.YEAR][0]
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if cte.COOLING in _building_energy_equipment.demand_types:
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_generation_system.cooling_power = building.cooling_peak_load[cte.YEAR][0]
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_generic_system_generation_systems.append(_generation_system)
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print(_generic_system_generation_systems)
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_building_energy_equipment.generation_systems = _generic_system_generation_systems
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_building_storage_system = ThermalStorageSystem()
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_building_storage_system.generic_storage_system = \
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copy.deepcopy(_generic_building_energy_system.energy_storage_systems)
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if cte.HEATING in _building_energy_equipment.demand_types:
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_building_generation_system.heat_power = building.heating_peak_load[cte.YEAR][0]
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if cte.COOLING in _building_energy_equipment.demand_types:
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_building_generation_system.cooling_power = building.cooling_peak_load[cte.YEAR][0]
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_building_energy_equipment.generation_systems = _building_generation_system
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_building_energy_equipment.distribution_systems = _building_distribution_system
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_building_energy_equipment.emission_systems = _building_emission_system
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_building_energy_systems.append(_building_energy_equipment)
|
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building.energy_systems = _building_energy_systems
|
||||
|
||||
for building in self._city.buildings:
|
||||
print(building.heating_consumption[cte.YEAR][0])
|
||||
print(building.cooling_consumption[cte.YEAR][0])
|
||||
print(building.domestic_hot_water_consumption[cte.YEAR][0])
|
||||
print(building.onsite_electrical_production[cte.YEAR][0])
|
||||
self.assertLess(0, building.heating_consumption[cte.YEAR][0])
|
||||
self.assertLess(0, building.cooling_consumption[cte.YEAR][0])
|
||||
self.assertEqual(0, building.cooling_consumption[cte.YEAR][0])
|
||||
self.assertLess(0, building.domestic_hot_water_consumption[cte.YEAR][0])
|
||||
self.assertLess(0, building.onsite_electrical_production[cte.YEAR][0])
|
||||
self.assertLess(0, building.onsite_electrical_production[cte.YEAR][0])
|
||||
|
|
Loading…
Reference in New Issue
Block a user