""" RetrofitFactory retrieve the specific construction module for the given region SPDX - License - Identifier: LGPL - 3.0 - or -later Copyright © 2024 Concordia CERC group Project Coder mohamed Osman mohamed.osman@mail.concordia.ca """ from hub.city_model_structure.building import Building from hub.city_model_structure.city import City import hub.helpers.constants as cte # from hub.data.retrofit_data import retrofit_data class RetrofitFactory: def __init__(self, retrofit_data, city): """ :param retrofit_data: Dictionary mapping building IDs to their retrofit data. :param city: The City object containing the buildings to retrofit. """ self._retrofit_data = retrofit_data self._city = city def enrich(self): for building in self._city.buildings: building_id = str(building.name) # Convert ID to string to match JSON keys if building_id in self._retrofit_data: print(f"Applying retrofits to building ID {building_id}") building_retrofit_data = self._retrofit_data[building_id] retrofit_types = building_retrofit_data.get('retrofit_types', []) self._apply_retrofits_to_building(building, retrofit_types, building_retrofit_data) else: print(f"No retrofit data for building ID {building_id}") def _apply_retrofits_to_building(self, building, retrofit_types, retrofit_params): if 'construction' in retrofit_types: self._apply_construction_retrofit_to_building(building, retrofit_params) if 'infiltration' in retrofit_types: self._reduce_infiltration_rate_by_percentage(building, retrofit_params) if 'windows' in retrofit_types: self._apply_window_retrofit_to_building(building, retrofit_params) def _apply_construction_retrofit_to_building(self, building: Building, retrofit_params): wall_u_value = retrofit_params.get('wall_u_value') roof_u_value = retrofit_params.get('roof_u_value') ground_u_value = retrofit_params.get('ground_u_value') for thermal_zone in building.thermal_zones_from_internal_zones: for thermal_boundary in thermal_zone.thermal_boundaries: if wall_u_value is not None and thermal_boundary.type == cte.WALL and thermal_boundary.u_value > wall_u_value: self._change_thermal_resistance(thermal_boundary, wall_u_value) thermal_boundary.u_value = wall_u_value print(f"Updated wall U-value to {wall_u_value} in building {building.name}") elif roof_u_value is not None and thermal_boundary.type == cte.ROOF and thermal_boundary.u_value > roof_u_value: self._change_thermal_resistance(thermal_boundary, roof_u_value) thermal_boundary.u_value = roof_u_value print(f"Updated roof U-value to {roof_u_value} in building {building.name}") elif ground_u_value is not None and thermal_boundary.type == cte.GROUND and thermal_boundary.u_value > ground_u_value: self._change_thermal_resistance(thermal_boundary, ground_u_value) thermal_boundary.u_value = ground_u_value print(f"Updated ground U-value to {ground_u_value} in building {building.name}") def _change_thermal_resistance(self, thermal_boundary, new_u_value): old_u_value = thermal_boundary.u_value if new_u_value < old_u_value: delta_r = (1 / new_u_value) - (1 / old_u_value) for layer in thermal_boundary.layers: if "virtual_no_mass" in layer.material_name.lower(): new_thermal_resistance = layer.thermal_resistance + delta_r layer.thermal_resistance = new_thermal_resistance print(f"Increased thermal resistance by {delta_r} in layer {layer.material_name}") else: print(f"New U-value {new_u_value} is not less than old U-value {old_u_value} for thermal boundary type {thermal_boundary.type}") def _reduce_infiltration_rate_by_percentage(self, building: Building, retrofit_params): percentage = retrofit_params.get('infiltration_reduction') if percentage is None: return for thermal_zone in building.thermal_zones_from_internal_zones: thermal_archetype = thermal_zone.parent_internal_zone.thermal_archetype old_rate = thermal_archetype.infiltration_rate_for_ventilation_system_off new_rate = old_rate * (1 - percentage / 100) thermal_archetype.infiltration_rate_for_ventilation_system_off = new_rate print(f"Reduced infiltration rate from {old_rate} to {new_rate} in building {building.name}") def _apply_window_retrofit_to_building(self, building: Building, retrofit_params): overall_u_value = retrofit_params.get('window_u_value') g_value = retrofit_params.get('window_g_value') for thermal_zone in building.thermal_zones_from_internal_zones: for thermal_boundary in thermal_zone.thermal_boundaries: if thermal_boundary.type == cte.WALL: construction_archetype = thermal_boundary._construction_archetype construction_archetype.window_overall_u_value = overall_u_value construction_archetype.window_g_value = g_value if hasattr(thermal_boundary, 'thermal_openings') and thermal_boundary.thermal_openings: for opening in thermal_boundary.thermal_openings: if overall_u_value is not None and overall_u_value != 0: old_u_value = opening.overall_u_value opening.overall_u_value = overall_u_value print(f"Changed window U-value from {old_u_value} to {opening.overall_u_value} in building {building.name}") if g_value is not None and g_value != 0: old_g_value = opening.g_value opening.g_value = g_value print(f"Changed window g-value from {old_g_value} to {opening.g_value} in building {building.name}") else: print(f"No thermal openings in thermal boundary {thermal_boundary} of type {thermal_boundary.type} in building {building.name}") else: # Skip thermal boundaries that are not walls continue