forked from s_ranjbar/city_retrofit
257 lines
13 KiB
Python
257 lines
13 KiB
Python
"""
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TestOccupancyFactory test and validate the city model structure occupancy parameters
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SPDX - License - Identifier: LGPL - 3.0 - or -later
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Copyright © 2020 Project Author Soroush Samareh Abolhassani - soroush.samarehabolhassani@mail.concordia.ca
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"""
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from geomeppy import IDF
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import os
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import esoreader
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from pathlib import Path
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import helpers.constants as cte
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class IdfHelper:
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_THERMOSTAT = 'HVACTEMPLATE:THERMOSTAT'
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_IDEAL_LOAD_AIR_SYSTEM = 'HVACTEMPLATE:ZONE:IDEALLOADSAIRSYSTEM'
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_SURFACE = 'BUILDINGSURFACE:DETAILED'
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_CONSTRUCTION = 'CONSTRUCTION'
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_MATERIAL = 'MATERIAL'
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_MATERIAL_NOMASS = 'MATERIAL:NOMASS'
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idf_surfaces = {
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'Wall': 'wall',
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'Ground': 'floor',
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'Roof': 'roof'
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}
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idf_usage = {
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'residential': 'residential_building'
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}
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def __init__(self, idf_file_path, idd_file_path, epw_file_path):
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self._idd_file_path = str(idd_file_path)
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self._idf_file_path = str(idf_file_path)
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self._epw_file_path = str(epw_file_path)
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IDF.setiddname(self._idd_file_path)
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self._idf = IDF(self._idf_file_path, self._epw_file_path)
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self._idf.epw = self._epw_file_path
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def _add_material(self, layer):
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for material in self._idf.idfobjects[self._MATERIAL]:
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if material.Name == layer.material.name:
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return
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for material in self._idf.idfobjects[self._MATERIAL_NOMASS]:
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if material.Name == layer.material.name:
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return
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if layer.material.no_mass:
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self._idf.newidfobject(self._MATERIAL_NOMASS,
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Name=layer.material.name,
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Roughness=cte.roughness,
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Thermal_Resistance=layer.material.thermal_resistance,
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Thermal_Absorptance=layer.material.thermal_absorptance,
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Solar_Absorptance=layer.material.solar_absorptance,
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Visible_Absorptance=layer.material.visible_absorptance
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)
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else:
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self._idf.newidfobject(self._MATERIAL,
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Name=layer.material.name,
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Roughness=cte.roughness,
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Thickness=layer.thickness,
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Conductivity=layer.material.conductivity,
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Density=layer.material.density,
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Specific_Heat=layer.material.specific_heat,
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Thermal_Absorptance=layer.material.thermal_absorptance,
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Solar_Absorptance=layer.material.solar_absorptance,
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Visible_Absorptance=layer.material.visible_absorptance
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)
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def add_schedule(self, building):
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schedule_occupancy = self._idf.newidfobject("SCHEDULE:DAY:HOURLY".upper())
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schedule_occupancy.Name = 'occupant schedule'
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schedule_occupancy.Hour_1 = building.usage_zones[0].occupancy.occupant_schedule[0]
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schedule_occupancy.Hour_2 = building.usage_zones[0].occupancy.occupant_schedule[1]
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schedule_occupancy.Hour_3 = building.usage_zones[0].occupancy.occupant_schedule[2]
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schedule_occupancy.Hour_4 = building.usage_zones[0].occupancy.occupant_schedule[3]
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schedule_occupancy.Hour_5 = building.usage_zones[0].occupancy.occupant_schedule[4]
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schedule_occupancy.Hour_6 = building.usage_zones[0].occupancy.occupant_schedule[5]
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schedule_occupancy.Hour_7 = building.usage_zones[0].occupancy.occupant_schedule[6]
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schedule_occupancy.Hour_8 = building.usage_zones[0].occupancy.occupant_schedule[7]
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schedule_occupancy.Hour_9 = building.usage_zones[0].occupancy.occupant_schedule[8]
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schedule_occupancy.Hour_10 = building.usage_zones[0].occupancy.occupant_schedule[9]
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schedule_occupancy.Hour_11 = building.usage_zones[0].occupancy.occupant_schedule[10]
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schedule_occupancy.Hour_12 = building.usage_zones[0].occupancy.occupant_schedule[11]
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schedule_occupancy.Hour_13 = building.usage_zones[0].occupancy.occupant_schedule[12]
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schedule_occupancy.Hour_14 = building.usage_zones[0].occupancy.occupant_schedule[13]
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schedule_occupancy.Hour_15 = building.usage_zones[0].occupancy.occupant_schedule[14]
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schedule_occupancy.Hour_16 = building.usage_zones[0].occupancy.occupant_schedule[15]
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schedule_occupancy.Hour_17 = building.usage_zones[0].occupancy.occupant_schedule[16]
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schedule_occupancy.Hour_18 = building.usage_zones[0].occupancy.occupant_schedule[17]
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schedule_occupancy.Hour_19 = building.usage_zones[0].occupancy.occupant_schedule[18]
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schedule_occupancy.Hour_20 = building.usage_zones[0].occupancy.occupant_schedule[19]
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schedule_occupancy.Hour_21 = building.usage_zones[0].occupancy.occupant_schedule[20]
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schedule_occupancy.Hour_22 = building.usage_zones[0].occupancy.occupant_schedule[21]
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schedule_occupancy.Hour_23 = building.usage_zones[0].occupancy.occupant_schedule[22]
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schedule_occupancy.Hour_24 = building.usage_zones[0].occupancy.occupant_schedule[23]
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def _add_construction(self, thermal_boundary):
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for construction in self._idf.idfobjects[self._CONSTRUCTION]:
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if construction.Name == thermal_boundary.construction_name:
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return
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for layer in thermal_boundary.layers:
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self._add_material(layer)
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layers = thermal_boundary.layers
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if len(layers) == 2:
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self._idf.newidfobject(self._CONSTRUCTION, Name=thermal_boundary.construction_name,
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Outside_Layer=layers[0].material.name, Layer_2=layers[1].material.name)
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elif len(thermal_boundary.layers) == 3:
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self._idf.newidfobject(self._CONSTRUCTION, Name=thermal_boundary.construction_name,
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Outside_Layer=layers[0].material.name, Layer_2=layers[1].material.name,
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Layer_3=layers[2].material.name)
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elif len(thermal_boundary.layers) == 4:
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self._idf.newidfobject(self._CONSTRUCTION, Name=thermal_boundary.construction_name,
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Outside_Layer=layers[0].material.name, Layer_2=layers[1].material.name,
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Layer_3=layers[2].material.name, Layer_4=layers[3].material.name)
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else:
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raise Exception("This libs version cannot handle more than 4 layers")
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def _add_heating_system(self, building):
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for usage_zone in building.usage_zones:
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thermostat_name = f'Thermostat {building.name}'
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# todo: this will fail for more than one usage zone
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static_thermostat = self._idf.newidfobject(self._THERMOSTAT,
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Name=thermostat_name,
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Constant_Heating_Setpoint=usage_zone.heating_setpoint,
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Constant_Cooling_Setpoint=usage_zone.cooling_setpoint,
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)
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for zone in self._idf.idfobjects['ZONE']:
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if zone.Name.find(building.name) != -1:
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self._idf.newidfobject(self._IDEAL_LOAD_AIR_SYSTEM,
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Zone_Name=zone.Name,
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Template_Thermostat_Name=static_thermostat.Name, )
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@staticmethod
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def _matrix_to_list(points):
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points_list = []
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for point in points:
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point_tuple = (point[0], point[1], point[2])
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points_list.append(point_tuple)
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return points_list
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@staticmethod
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def _matrix_to_2d_list(points):
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points_list = []
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for point in points:
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point_tuple = (point[0], point[1])
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points_list.append(point_tuple)
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return points_list
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def add_block(self, building):
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_points = IdfHelper._matrix_to_2d_list(building.foot_print.points)
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self._idf.add_block(name=building.name, coordinates=_points, height=building.max_height,
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num_stories=int(building.storeys_above_ground))
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self._add_heating_system(building)
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self._idf.intersect_match()
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def add_surfaces(self, building):
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index = 0
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for zone in building.thermal_zones:
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zone_name = f'Building {building.name} usage zone {index}'
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self._idf.newidfobject('ZONE', Name=zone_name)
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for boundary in zone.bounded:
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self._add_construction(boundary)
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idf_surface = self.idf_surfaces[boundary.surface.type]
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wall = self._idf.newidfobject(self._SURFACE, Name=f'{building.name}-{boundary.surface.name}',
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Surface_Type=idf_surface, Zone_Name=zone_name,
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Construction_Name=boundary.construction_name)
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coordinates = IdfHelper._matrix_to_list(boundary.surface.points)
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wall.setcoords(coordinates)
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index += 1
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self._add_heating_system(building)
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self._idf.intersect_match()
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def add_lighting(self):
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for zone in self._idf.idfobjects["ZONE"]:
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self._idf.newidfobject("LIGHTS",
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Name=zone.Name + "_" + "lighting",
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Zone_or_ZoneList_Name=zone.Name,
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Schedule_Name="Lighting_Weekday",
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Design_Level_Calculation_Method='Watts/Area',
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Watts_per_Zone_Floor_Area=15,
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Return_Air_Fraction=0,
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Fraction_Radiant=0.7,
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Fraction_Visible=0.2,
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Fraction_Replaceable=1,
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# Lights.End-Use_Subcategory='LightsWired',
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Return_Air_Fraction_Calculated_from_Plenum_Temperature='No'
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)
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def add_occupancy(self):
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for zone in self._idf.idfobjects["ZONE"]:
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self._idf.newidfobject("PEOPLE",
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Name=zone.Name + "_" + "occupancy",
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Zone_or_ZoneList_Name=zone.Name,
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Number_of_People_Schedule_Name='occupant schedule',
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Number_of_People_Calculation_Method="People",
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Number_of_People=500,
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# Zone_Floor_Area_per_Person=31.41,
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# People_per_Zone_Floor_Area=17*0.05,
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# Zone_Floor_Area_per_Person=1.65880764E+01,
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Fraction_Radiant=0.3,
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Activity_Level_Schedule_Name='occupant schedule'
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)
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def add_equipment(self):
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for zone in self._idf.idfobjects["ZONE"]:
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self._idf.newidfobject("ELECTRICEQUIPMENT",
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Name=zone.Name + "_" + 'electricload',
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Zone_or_ZoneList_Name=zone.Name,
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Schedule_Name='ElectricalEquipment',
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Design_Level_Calculation_Method='EquipmentLevel',
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Design_Level=566000
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)
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def add_infiltration(self):
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for zone in self._idf.idfobjects["ZONE"]:
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self._idf.newidfobject("ZONEINFILTRATION:DESIGNFLOWRATE",
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Name=zone.Name + "_" + "infiltration",
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Zone_or_ZoneList_Name=zone.Name,
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Schedule_Name='Infiltration_schedule',
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Design_Flow_Rate_Calculation_Method='AirChanges/Hour',
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Air_Changes_per_Hour=0.35,
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Constant_Term_Coefficient=0.606,
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Temperature_Term_Coefficient=3.6359996E-02,
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Velocity_Term_Coefficient=0.1177165,
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Velocity_Squared_Term_Coefficient=0.0000000E+00
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)
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def run(self, output_directory, window_ratio=0.35, display_render=False, output_prefix=None, keep_file=None):
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self._idf.set_default_constructions()
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self._idf.set_wwr(window_ratio, construction="Project External Window")
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self._idf.translate_to_origin()
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if display_render:
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self._idf.view_model()
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# Run
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self._idf.newidfobject("OUTPUT:METER", Key_Name="Heating:DistrictHeating", Reporting_Frequency="hourly")
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self._idf.newidfobject("OUTPUT:METER", Key_Name="Cooling:DistrictCooling", Reporting_Frequency="hourly")
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idf_path = None
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if keep_file is not None:
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idf_path = (keep_file / 'in.idf').resolve()
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self._idf.saveas(str(idf_path))
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if idf_path is None:
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idf_path = (Path(__file__).parent / 'in.idf').resolve()
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# There is a bug in the IDF class, when called, it return an error, as a work around we call call energy+ directly
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run_command = f"C:\EnergyPlusV9-4-0\energyplus.exe --weather {self._epw_file_path} --output-directory {output_directory} --idd " \
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f"{self._idd_file_path} --expandobjects --output-prefix {output_prefix} {idf_path}"
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os.system(run_command)
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if keep_file is None:
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os.remove(idf_path)
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return
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@staticmethod
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def read_eso(eso_file_path):
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dd, data = esoreader.read(eso_file_path)
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list_values = [v for v in data.values()]
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heating = [(float(x)) / 3600000.0 for x in list_values[0]]
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cooling = [(float(x)) / 3600000.0 for x in list_values[1]]
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return heating, cooling
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