migrate_to_mongo/building.py

"""
Mockup Building module
SPDX - License - Identifier: LGPL - 3.0 - or -later
Copyright © 2023 Concordia CERC group
Project Coder Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca
"""

import hub.helpers.constants as cte
from hub.helpers.dictionaries import Dictionaries


from properties import *


class Building:
  """
  Building class
  """
  def __init__(self, building_info, results, catalog_archetype):
    self._function = building_info.function
    self._area = building_info.area
    self._volume = building_info.volume
    self._total_heating_area = building_info.total_heating_area
    self._wall_area = building_info.wall_area
    self._windows_area = building_info.windows_area
    self._roof_area = building_info.roof_area
    self._total_pv_area = building_info.total_pv_area
    self._energy_systems_archetype_name = building_info.system_name
    self._heating_consumption = {
      cte.YEAR: results['insel meb']['yearly_heating_consumption'],
      cte.MONTH: results['insel meb']['monthly_heating_consumption']
    }
    self._cooling_consumption = {
      cte.YEAR: results['insel meb']['yearly_cooling_consumption'],
      cte.MONTH: results['insel meb']['monthly_cooling_consumption']
    }
    self._domestic_hot_water_consumption = {
      cte.YEAR: results['insel meb']['yearly_domestic_hot_water_consumption'],
      cte.MONTH: results['insel meb']['monthly_domestic_hot_water_consumption']
    }
    self._lighting_electrical_demand = {
      cte.YEAR: results['insel meb']['yearly_lighting_electrical_demand'],
      cte.MONTH: results['insel meb']['monthly_lighting_electrical_demand']
    }
    self._appliances_electrical_demand = {
      cte.YEAR: results['insel meb']['yearly_appliances_electrical_demand'],
      cte.MONTH: results['insel meb']['monthly_appliances_electrical_demand']
    }
    self._heating_peak_load = {
      cte.YEAR: results['insel meb']['yearly_heating_peak_load'],
      cte.MONTH: results['insel meb']['monthly_heating_peak_load']
    }
    self._cooling_peak_load = {
      cte.YEAR: results['insel meb']['yearly_cooling_peak_load'],
      cte.MONTH: results['insel meb']['monthly_cooling_peak_load']
    }
    self._lighting_peak_load = {
      cte.YEAR: results['insel meb']['yearly_lighting_peak_load'],
      cte.MONTH: results['insel meb']['monthly_lighting_peak_load']
    }
    self._appliances_peak_load = {
      cte.YEAR: results['insel meb']['yearly_appliances_peak_load'],
      cte.MONTH: results['insel meb']['monthly_appliances_peak_load']
    }
    self._onsite_electrical_production = {
      cte.YEAR: results['insel meb']['yearly_on_site_electrical_production'],
      cte.MONTH: results['insel meb']['monthly_on_site_electrical_production']
    }
    self._catalog_archetype = catalog_archetype

  @property
  def function(self):
    """
    Get building function
    :return: str
    """
    return self._function

  @property
  def volume(self):
    """
    Get building volume in m3
    :return: float
    """
    return self._volume

  @property
  def thermal_zones_from_internal_zones(self) -> [ThermalZone]:
    """
    Get building thermal zones
    :return: [ThermalZone]
    """
    ground = ThermalBoundary()
    ground.type = 'Ground'
    ground.opaque_area = self._area
    roof = ThermalBoundary()
    roof.type = 'Roof'
    roof.opaque_area = self._roof_area
    wall = ThermalBoundary()
    wall.type = 'Wall'
    wall.opaque_area = self._wall_area
    wall.window_ratio = self._windows_area / (self._windows_area + self._wall_area)
    thermal_zone = ThermalZone()
    thermal_zone.total_floor_area = self._total_heating_area
    thermal_zone.thermal_boundaries = [roof, wall, ground]
    return [thermal_zone]

  @property
  def roofs(self) -> [Roof]:
    """
    Get building roofs
    :return: [Roof]
    """
    polygon = Polygon()
    polygon.area = self._roof_area
    roof = Roof()
    roof.solid_polygon = polygon
    roof.solar_collectors_area_reduction_factor = self._total_pv_area / self._roof_area
    return [roof]

  @property
  def heating_consumption(self):
    """
    Get building heating consumption in J
    :return: dict
    """
    return self._heating_consumption

  @property
  def cooling_consumption(self):
    """
    Get building cooling consumption in J
    :return: dict
    """
    return self._cooling_consumption

  @property
  def domestic_hot_water_consumption(self):
    """
    Get building domestic hot water consumption in J
    :return: dict
    """
    return self._domestic_hot_water_consumption

  @property
  def lighting_electrical_demand(self):
    """
    Get building lighting demand in J
    :return: dict
    """
    return self._lighting_electrical_demand

  @property
  def appliances_electrical_demand(self):
    """
    Get building appliances electrical demand in J
    :return: dict
    """
    return self._appliances_electrical_demand

  @property
  def heating_peak_load(self):
    """
    Get building heating peak load in W
    :return: dict
    """
    return self._heating_peak_load

  @property
  def cooling_peak_load(self):
    """
    Get building cooling peak load in W
    :return: dict
    """
    return self._cooling_peak_load

  @property
  def lighting_peak_load(self):
    """
    Get building lighting peak load in W
    :return: dict
    """
    return self._lighting_peak_load

  @property
  def appliances_peak_load(self):
    """
    Get building appliances peak load in W
    :return: dict
    """
    return self._appliances_peak_load

  @property
  def onsite_electrical_production(self):
    """
    Get building onsite electrical production in J
    :return: dict
    """
    return self._onsite_electrical_production

  @property
  def energy_systems_archetype_name(self):
    """
    Get energy systems archetype name
    :return: dict
    """
    return self._energy_systems_archetype_name

  @property
  def energy_systems(self) -> [EnergySystem]:
    """
    Get building energy systems
    :return: [EnergySystem]
    """
    _energy_systems = []
    for system in self._catalog_archetype.systems:
      _hub_demand_types = []
      for demand_type in system.demand_types:
        # todo: generalize this when we have more catalogs
        _hub_demand_types.append(Dictionaries().montreal_demand_type_to_hub_energy_demand_type[demand_type])
      demands = _hub_demand_types
      fuel_type = Dictionaries().montreal_custom_fuel_to_hub_fuel[system.generation_systems[0].fuel_type]
      generic_generation_system = GenericGenerationSystem()
      generic_generation_system.fuel_type = fuel_type
      generation_system = GenerationSystem()
      generation_system.generic_generation_system = generic_generation_system
      energy_system = EnergySystem()
      energy_system.generation_system = generation_system
      energy_system.demand_types = demands
      _energy_systems.append(energy_system)
    return _energy_systems
Add missing files 2024-06-22 11:25:20 -04:00			`"""`
			`Mockup Building module`
			`SPDX - License - Identifier: LGPL - 3.0 - or -later`
			`Copyright © 2023 Concordia CERC group`
			`Project Coder Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca`
			`"""`

			`import hub.helpers.constants as cte`
			`from hub.helpers.dictionaries import Dictionaries`


			`from properties import *`


			`class Building:`
			`"""`
			`Building class`
			`"""`
			`def __init__(self, building_info, results, catalog_archetype):`
			`self._function = building_info.function`
			`self._area = building_info.area`
			`self._volume = building_info.volume`
			`self._total_heating_area = building_info.total_heating_area`
			`self._wall_area = building_info.wall_area`
			`self._windows_area = building_info.windows_area`
			`self._roof_area = building_info.roof_area`
			`self._total_pv_area = building_info.total_pv_area`
			`self._energy_systems_archetype_name = building_info.system_name`
			`self._heating_consumption = {`
			`cte.YEAR: results['insel meb']['yearly_heating_consumption'],`
			`cte.MONTH: results['insel meb']['monthly_heating_consumption']`
			`}`
			`self._cooling_consumption = {`
			`cte.YEAR: results['insel meb']['yearly_cooling_consumption'],`
			`cte.MONTH: results['insel meb']['monthly_cooling_consumption']`
			`}`
			`self._domestic_hot_water_consumption = {`
			`cte.YEAR: results['insel meb']['yearly_domestic_hot_water_consumption'],`
			`cte.MONTH: results['insel meb']['monthly_domestic_hot_water_consumption']`
			`}`
			`self._lighting_electrical_demand = {`
			`cte.YEAR: results['insel meb']['yearly_lighting_electrical_demand'],`
			`cte.MONTH: results['insel meb']['monthly_lighting_electrical_demand']`
			`}`
			`self._appliances_electrical_demand = {`
			`cte.YEAR: results['insel meb']['yearly_appliances_electrical_demand'],`
			`cte.MONTH: results['insel meb']['monthly_appliances_electrical_demand']`
			`}`
			`self._heating_peak_load = {`
			`cte.YEAR: results['insel meb']['yearly_heating_peak_load'],`
			`cte.MONTH: results['insel meb']['monthly_heating_peak_load']`
			`}`
			`self._cooling_peak_load = {`
			`cte.YEAR: results['insel meb']['yearly_cooling_peak_load'],`
			`cte.MONTH: results['insel meb']['monthly_cooling_peak_load']`
			`}`
			`self._lighting_peak_load = {`
			`cte.YEAR: results['insel meb']['yearly_lighting_peak_load'],`
			`cte.MONTH: results['insel meb']['monthly_lighting_peak_load']`
			`}`
			`self._appliances_peak_load = {`
			`cte.YEAR: results['insel meb']['yearly_appliances_peak_load'],`
			`cte.MONTH: results['insel meb']['monthly_appliances_peak_load']`
			`}`
			`self._onsite_electrical_production = {`
			`cte.YEAR: results['insel meb']['yearly_on_site_electrical_production'],`
			`cte.MONTH: results['insel meb']['monthly_on_site_electrical_production']`
			`}`
			`self._catalog_archetype = catalog_archetype`

			`@property`
			`def function(self):`
			`"""`
			`Get building function`
			`:return: str`
			`"""`
			`return self._function`

			`@property`
			`def volume(self):`
			`"""`
			`Get building volume in m3`
			`:return: float`
			`"""`
			`return self._volume`

			`@property`
			`def thermal_zones_from_internal_zones(self) -> [ThermalZone]:`
			`"""`
			`Get building thermal zones`
			`:return: [ThermalZone]`
			`"""`
			`ground = ThermalBoundary()`
			`ground.type = 'Ground'`
			`ground.opaque_area = self._area`
			`roof = ThermalBoundary()`
			`roof.type = 'Roof'`
			`roof.opaque_area = self._roof_area`
			`wall = ThermalBoundary()`
			`wall.type = 'Wall'`
			`wall.opaque_area = self._wall_area`
			`wall.window_ratio = self._windows_area / (self._windows_area + self._wall_area)`
			`thermal_zone = ThermalZone()`
			`thermal_zone.total_floor_area = self._total_heating_area`
			`thermal_zone.thermal_boundaries = [roof, wall, ground]`
			`return [thermal_zone]`

			`@property`
			`def roofs(self) -> [Roof]:`
			`"""`
			`Get building roofs`
			`:return: [Roof]`
			`"""`
			`polygon = Polygon()`
			`polygon.area = self._roof_area`
			`roof = Roof()`
			`roof.solid_polygon = polygon`
			`roof.solar_collectors_area_reduction_factor = self._total_pv_area / self._roof_area`
			`return [roof]`

			`@property`
			`def heating_consumption(self):`
			`"""`
			`Get building heating consumption in J`
			`:return: dict`
			`"""`
			`return self._heating_consumption`

			`@property`
			`def cooling_consumption(self):`
			`"""`
			`Get building cooling consumption in J`
			`:return: dict`
			`"""`
			`return self._cooling_consumption`

			`@property`
			`def domestic_hot_water_consumption(self):`
			`"""`
			`Get building domestic hot water consumption in J`
			`:return: dict`
			`"""`
			`return self._domestic_hot_water_consumption`

			`@property`
			`def lighting_electrical_demand(self):`
			`"""`
			`Get building lighting demand in J`
			`:return: dict`
			`"""`
			`return self._lighting_electrical_demand`

			`@property`
			`def appliances_electrical_demand(self):`
			`"""`
			`Get building appliances electrical demand in J`
			`:return: dict`
			`"""`
			`return self._appliances_electrical_demand`

			`@property`
			`def heating_peak_load(self):`
			`"""`
			`Get building heating peak load in W`
			`:return: dict`
			`"""`
			`return self._heating_peak_load`

			`@property`
			`def cooling_peak_load(self):`
			`"""`
			`Get building cooling peak load in W`
			`:return: dict`
			`"""`
			`return self._cooling_peak_load`

			`@property`
			`def lighting_peak_load(self):`
			`"""`
			`Get building lighting peak load in W`
			`:return: dict`
			`"""`
			`return self._lighting_peak_load`

			`@property`
			`def appliances_peak_load(self):`
			`"""`
			`Get building appliances peak load in W`
			`:return: dict`
			`"""`
			`return self._appliances_peak_load`

			`@property`
			`def onsite_electrical_production(self):`
			`"""`
			`Get building onsite electrical production in J`
			`:return: dict`
			`"""`
			`return self._onsite_electrical_production`

			`@property`
			`def energy_systems_archetype_name(self):`
			`"""`
			`Get energy systems archetype name`
			`:return: dict`
			`"""`
			`return self._energy_systems_archetype_name`

			`@property`
			`def energy_systems(self) -> [EnergySystem]:`
			`"""`
			`Get building energy systems`
			`:return: [EnergySystem]`
			`"""`
			`_energy_systems = []`
			`for system in self._catalog_archetype.systems:`
			`_hub_demand_types = []`
			`for demand_type in system.demand_types:`
			`# todo: generalize this when we have more catalogs`
			`_hub_demand_types.append(Dictionaries().montreal_demand_type_to_hub_energy_demand_type[demand_type])`
			`demands = _hub_demand_types`
			`fuel_type = Dictionaries().montreal_custom_fuel_to_hub_fuel[system.generation_systems[0].fuel_type]`
			`generic_generation_system = GenericGenerationSystem()`
			`generic_generation_system.fuel_type = fuel_type`
			`generation_system = GenerationSystem()`
			`generation_system.generic_generation_system = generic_generation_system`
			`energy_system = EnergySystem()`
			`energy_system.generation_system = generation_system`
			`energy_system.demand_types = demands`
			`_energy_systems.append(energy_system)`
			`return _energy_systems`