Include oriol's infiltration changes into cerc_idf and remove empty file
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@ -61,6 +61,7 @@ class CercIdf(IdfBase):
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self._add_lighting = IdfLighting.add
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self._add_lighting = IdfLighting.add
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self._add_appliance = IdfAppliance.add
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self._add_appliance = IdfAppliance.add
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self._add_infiltration = IdfInfiltration.add
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self._add_infiltration = IdfInfiltration.add
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self._add_infiltration_surface = IdfInfiltration.add_surface
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self._add_ventilation = IdfVentilation.add
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self._add_ventilation = IdfVentilation.add
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self._add_zone = IdfZone.add
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self._add_zone = IdfZone.add
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self._add_thermostat = IdfThermostat.add
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self._add_thermostat = IdfThermostat.add
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@ -210,6 +211,9 @@ class CercIdf(IdfBase):
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self._add_occupancy(self, thermal_zone, building.name)
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self._add_occupancy(self, thermal_zone, building.name)
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self._add_lighting(self, thermal_zone, building.name)
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self._add_lighting(self, thermal_zone, building.name)
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self._add_appliance(self, thermal_zone, building.name)
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self._add_appliance(self, thermal_zone, building.name)
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if self._calculate_with_new_infiltration: # ToDo: Check with oriol if we want to keep the old method too
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self._add_infiltration_surface(self, thermal_zone, building.name)
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else:
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self._add_infiltration(self, thermal_zone, building.name)
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self._add_infiltration(self, thermal_zone, building.name)
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self._add_ventilation(self, thermal_zone, building.name)
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self._add_ventilation(self, thermal_zone, building.name)
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self._add_thermostat(self, thermal_zone)
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self._add_thermostat(self, thermal_zone)
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@ -47,6 +47,16 @@ OUTPUT:VARIABLE,
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Other Equipment Electricity Rate, !- Variable Name
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Other Equipment Electricity Rate, !- Variable Name
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Hourly; !- Reporting Frequency
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Hourly; !- Reporting Frequency
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OUTPUT:VARIABLE,
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*, !- Key Value
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Zone Air Temperature, !- Variable Name
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Hourly; !- Reporting Frequency
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OUTPUT:VARIABLE,
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*, !- Key Value
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Zone Air Relative Humidity, !- Variable Name
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Hourly; !- Reporting Frequency
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Output:Meter,
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Output:Meter,
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DISTRICTHEATING:Facility, !- Key Name
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DISTRICTHEATING:Facility, !- Key Name
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hourly; !- Reporting Frequency
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hourly; !- Reporting Frequency
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@ -5,7 +5,8 @@ import hub.exports.building_energy.idf_helper as idf_cte
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class IdfBase:
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class IdfBase:
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def __init__(self, city, output_path, idf_file_path, idd_file_path, epw_file_path, target_buildings=None):
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def __init__(self, city, output_path, idf_file_path, idd_file_path, epw_file_path, target_buildings=None,
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_calculate_with_new_infiltration=True):
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self._city = city
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self._city = city
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self._output_path = str(output_path.resolve())
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self._output_path = str(output_path.resolve())
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self._output_file_path = str((output_path / f'{city.name}.idf').resolve())
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self._output_file_path = str((output_path / f'{city.name}.idf').resolve())
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@ -49,6 +50,7 @@ class IdfBase:
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building = city.city_object(building_name)
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building = city.city_object(building_name)
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if building.neighbours is not None:
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if building.neighbours is not None:
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self._adjacent_buildings += building.neighbours
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self._adjacent_buildings += building.neighbours
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self._calculate_with_new_infiltration = _calculate_with_new_infiltration
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def _create_output_control_lighting(self):
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def _create_output_control_lighting(self):
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file = self._files['appliances']
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file = self._files['appliances']
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@ -6,14 +6,22 @@ from hub.exports.building_energy.idf_helper.idf_base import IdfBase
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class IdfInfiltration(IdfBase):
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class IdfInfiltration(IdfBase):
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@staticmethod
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@staticmethod
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def add(self, thermal_zone, zone_name):
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def add(self, thermal_zone, zone_name):
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IdfInfiltration._add_infiltration(self, thermal_zone, zone_name, 'AirChanges/Hour', cte.HOUR_TO_SECONDS)
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@staticmethod
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def add_surface(self, thermal_zone, zone_name):
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IdfInfiltration._add_infiltration(self, thermal_zone, zone_name, 'Flow/ExteriorWallArea', 1)
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@staticmethod
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def _add_infiltration(self, thermal_zone, zone_name, calculation_method, multiplier):
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schedule_name = f'Infiltration schedules {thermal_zone.usage_name}'
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schedule_name = 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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infiltration = thermal_zone.infiltration_rate_system_off * multiplier
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file = self._files['infiltration']
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file = self._files['infiltration']
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self._write_to_idf_format(file, idf_cte.INFILTRATION)
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self._write_to_idf_format(file, idf_cte.INFILTRATION)
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self._write_to_idf_format(file, f'{zone_name}_infiltration', 'Name')
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self._write_to_idf_format(file, f'{zone_name}_infiltration', 'Name')
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self._write_to_idf_format(file, zone_name, 'Zone or ZoneList or Space or SpaceList Name')
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self._write_to_idf_format(file, zone_name, 'Zone or ZoneList or Space or SpaceList Name')
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self._write_to_idf_format(file, schedule_name, 'Schedule Name')
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self._write_to_idf_format(file, schedule_name, 'Schedule Name')
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self._write_to_idf_format(file, 'AirChanges/Hour', 'Design Flow Rate Calculation Method')
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self._write_to_idf_format(file, calculation_method, 'Design Flow Rate Calculation Method')
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self._write_to_idf_format(file, idf_cte.EMPTY, 'Design Flow Rate')
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self._write_to_idf_format(file, idf_cte.EMPTY, 'Design Flow Rate')
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self._write_to_idf_format(file, idf_cte.EMPTY, 'Flow Rate per Floor Area')
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self._write_to_idf_format(file, idf_cte.EMPTY, 'Flow Rate per Floor Area')
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self._write_to_idf_format(file, idf_cte.EMPTY, 'Flow Rate per Exterior Surface Area')
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self._write_to_idf_format(file, idf_cte.EMPTY, 'Flow Rate per Exterior Surface Area')
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@ -1,5 +1,4 @@
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import logging
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import logging
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from copy import copy
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import hub.exports.building_energy.idf_helper as idf_cte
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import hub.exports.building_energy.idf_helper as idf_cte
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import hub.helpers.constants as cte
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import hub.helpers.constants as cte
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@ -7,6 +6,7 @@ from hub.exports.building_energy.idf_helper.idf_base import IdfBase
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class IdfWindow(IdfBase):
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class IdfWindow(IdfBase):
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@staticmethod
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@staticmethod
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def _to_window_surface(self, surface):
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def _to_window_surface(self, surface):
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window_ratio = surface.associated_thermal_boundaries[0].window_ratio
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window_ratio = surface.associated_thermal_boundaries[0].window_ratio
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@ -20,18 +20,14 @@ class IdfWindow(IdfBase):
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distance = (max_z - min_z) * window_ratio
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distance = (max_z - min_z) * window_ratio
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new_max_z = middle + distance / 2
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new_max_z = middle + distance / 2
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new_min_z = middle - distance / 2
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new_min_z = middle - distance / 2
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window_coordinates = []
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for index, coordinate in enumerate(coordinates):
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for index, coordinate in enumerate(coordinates):
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if coordinate[z] == max_z:
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if coordinate[z] == max_z:
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new_coordinate = (coordinate[x], coordinate[y], new_max_z)
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coordinates[index] = (coordinate[x], coordinate[y], new_max_z)
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elif coordinate[z] == min_z:
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elif coordinate[z] == min_z:
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new_coordinate = (coordinate[x], coordinate[y], new_min_z)
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coordinates[index] = (coordinate[x], coordinate[y], new_min_z)
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else:
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else:
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new_coordinate = (coordinate[x], coordinate[y], coordinate[z])
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logging.warning('Z coordinate not in top or bottom during window creation')
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logging.info('error')
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return coordinates
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window_coordinates.insert(0, new_coordinate) # store in inverted order
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return window_coordinates
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@staticmethod
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@staticmethod
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def add(self, building):
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def add(self, building):
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