def with_ahu(self, value):
if value is True and self.central_ahu is None:
self.central_ahu = BuildingAHU(self)
self._with_ahu = True
elif value is False and self.central_ahu:
self.central_ahu = None
self._with_ahu = False
def __init__(
self,
parent=None,
name=None,
year_of_construction=None,
net_leased_area=None,
with_ahu=False,
internal_gains_mode=1,
):
"""Constructor of Building Class
"""
self.parent = parent
self.name = name
self.year_of_construction = year_of_construction
self.net_leased_area = net_leased_area
self._with_ahu = with_ahu
if with_ahu is True:
self.central_ahu = BuildingAHU(self)
else:
self._central_ahu = None
self.internal_gains_mode = internal_gains_mode
self.number_of_floors = None
self.height_of_floors = None
self.internal_id = random.random()
self._year_of_retrofit = None
self.type_of_building = type(self).__name__
self.building_id = None
self.street_name = ""
self.city = ""
self.longitude = 6.05
self.latitude = 50.79
self._thermal_zones = []
self._outer_area = {}
self._window_area = {}
self.bldg_height = None
self.volume = 0
self.sum_heat_load = 0
self.sum_cooling_load = 0
self._number_of_elements_calc = 2
self._merge_windows_calc = False
self._used_library_calc = "AixLib"
self.library_attr = None
def _load_building(prj, pyxb_bld, type, project_bind):
if type == "Building":
bldg = Building(prj)
elif type == "Office":
bldg = Office(prj)
elif type == "Institute":
bldg = Institute(prj)
elif type == "Institute4":
bldg = Institute4(prj)
elif type == "Institute8":
bldg = Institute8(prj)
elif type == "Residential":
bldg = SingleFamilyDwelling(prj)
bldg.name = pyxb_bld.name
bldg.street_name = pyxb_bld.street_name
bldg.city = pyxb_bld.city
bldg.type_of_building = pyxb_bld.type_of_building
bldg.year_of_construction = pyxb_bld.year_of_construction
bldg.year_of_retrofit = pyxb_bld.year_of_retrofit
bldg.number_of_floors = pyxb_bld.number_of_floors
bldg.height_of_floors = pyxb_bld.height_of_floors
if not pyxb_bld.ThermalZone:
bldg.net_leased_area = pyxb_bld.net_leased_area
if pyxb_bld.CentralAHU:
pyxb_ahu = pyxb_bld.CentralAHU
bldg.central_ahu = BuildingAHU(bldg)
bldg.central_ahu.heating = pyxb_ahu.heating
bldg.central_ahu.cooling = pyxb_ahu.cooling
bldg.central_ahu.dehumidification = pyxb_ahu.dehumidification
bldg.central_ahu.humidification = pyxb_ahu.humidification
bldg.central_ahu.heat_recovery = pyxb_ahu.heat_recovery
bldg.central_ahu.by_pass_dehumidification = \
pyxb_ahu.by_pass_dehumidification
bldg.central_ahu.efficiency_recovery = pyxb_ahu.efficiency_recovery
try:
if float(project_bind.version) >= 0.5:
bldg.central_ahu.efficiency_recovery_false = \
pyxb_ahu.efficiency_recovery_false
else:
bldg.central_ahu.efficiency_recovery_false = \
pyxb_ahu.efficiency_revocery_false
except AttributeError:
bldg.central_ahu.efficiency_recovery_false = \
pyxb_ahu.efficiency_revocery_false
bldg.central_ahu.profile_min_relative_humidity = \
pyxb_ahu.profile_min_relative_humidity
bldg.central_ahu.profile_max_relative_humidity = \
pyxb_ahu.profile_max_relative_humidity
bldg.central_ahu.profile_v_flow = \
pyxb_ahu.profile_v_flow
bldg.central_ahu.profile_temperature = \
pyxb_ahu.profile_temperature
for pyxb_zone in pyxb_bld.ThermalZone:
zone = ThermalZone(bldg)
zone.name = pyxb_zone.name
zone.area = pyxb_zone.area
zone.volume = pyxb_zone.volume
zone.infiltration_rate = pyxb_zone.infiltration_rate
zone.use_conditions = BoundaryConditions(zone)
pyxb_use = pyxb_zone.UseCondition.BoundaryConditions
zone.use_conditions.typical_length = pyxb_zone.typical_length
zone.use_conditions.typical_width = pyxb_zone.typical_width
zone.use_conditions.usage = \
pyxb_use.usage
zone.use_conditions.usage_time = \
pyxb_use.UsageOperationTime.usage_time
zone.use_conditions.daily_usage_hours = \
pyxb_use.UsageOperationTime.daily_usage_hours
zone.use_conditions.yearly_usage_days = \
pyxb_use.UsageOperationTime.yearly_usage_days
zone.use_conditions.yearly_usage_hours_day = \
pyxb_use.UsageOperationTime.yearly_usage_hours_day
zone.use_conditions.yearly_usage_hours_night = \
pyxb_use.UsageOperationTime.yearly_usage_hours_night
zone.use_conditions.daily_operation_ahu_cooling = \
pyxb_use.UsageOperationTime.daily_operation_ahu_cooling
zone.use_conditions.yearly_heating_days = \
pyxb_use.UsageOperationTime.yearly_heating_days
zone.use_conditions.yearly_ahu_days = \
pyxb_use.UsageOperationTime.yearly_ahu_days
zone.use_conditions.yearly_cooling_days = \
pyxb_use.UsageOperationTime.yearly_cooling_days
zone.use_conditions.daily_operation_heating = \
pyxb_use.UsageOperationTime.daily_operation_heating
try:
if float(project_bind.version) >= 0.4:
zone.use_conditions.maintained_illuminance = \
pyxb_use.Lighting.maintained_illuminance
else:
zone.use_conditions.maintained_illuminance = \
pyxb_use.Lighting.maintained_illuminace
except AttributeError:
zone.use_conditions.maintained_illuminance = \
pyxb_use.Lighting.maintained_illuminace
zone.use_conditions.usage_level_height = \
pyxb_use.Lighting.usage_level_height
zone.use_conditions.red_factor_visual = \
pyxb_use.Lighting.red_factor_visual
zone.use_conditions.rel_absence = \
pyxb_use.Lighting.rel_absence
zone.use_conditions.room_index = \
pyxb_use.Lighting.room_index
zone.use_conditions.part_load_factor_lighting = \
pyxb_use.Lighting.part_load_factor_lighting
zone.use_conditions.ratio_conv_rad_lighting = \
pyxb_use.Lighting.ratio_conv_rad_lighting
zone.use_conditions.set_temp_heat = \
pyxb_use.RoomClimate.set_temp_heat
zone.use_conditions.set_temp_cool = \
pyxb_use.RoomClimate.set_temp_cool
zone.use_conditions.temp_set_back = \
pyxb_use.RoomClimate.temp_set_back
zone.use_conditions.min_temp_heat = \
pyxb_use.RoomClimate.min_temp_heat
zone.use_conditions.max_temp_cool = \
pyxb_use.RoomClimate.max_temp_cool
zone.use_conditions.rel_humidity = \
pyxb_use.RoomClimate.rel_humidity
zone.use_conditions.cooling_time = \
pyxb_use.RoomClimate.cooling_time
zone.use_conditions.heating_time = \
pyxb_use.RoomClimate.heating_time
zone.use_conditions.min_air_exchange = \
pyxb_use.RoomClimate.min_air_exchange
zone.use_conditions.rel_absence_ahu = \
pyxb_use.RoomClimate.rel_absence_ahu
zone.use_conditions.part_load_factor_ahu = \
pyxb_use.RoomClimate.part_load_factor_ahu
zone.use_conditions.persons = \
pyxb_use.InternalGains.persons
zone.use_conditions.profile_persons = \
pyxb_use.InternalGains.profile_persons
zone.use_conditions.machines = \
pyxb_use.InternalGains.machines
zone.use_conditions.profile_machines = \
pyxb_use.InternalGains.profile_machines
zone.use_conditions.lighting_power = \
pyxb_use.InternalGains.lighting_power
zone.use_conditions.profile_lighting = \
pyxb_use.InternalGains.profile_lighting
zone.use_conditions.min_ahu = \
pyxb_use.AHU.min_ahu
zone.use_conditions.max_ahu = \
pyxb_use.AHU.max_ahu
zone.use_conditions.with_ahu = \
pyxb_use.AHU.with_ahu
zone.use_constant_ach_rate = \
pyxb_use.AHU.use_constant_ach_rate
zone.base_ach = \
pyxb_use.AHU.base_ach
zone.max_user_ach = \
pyxb_use.AHU.max_user_ach
zone.max_overheating_ach = \
pyxb_use.AHU.max_overheating_ach
zone.max_summer_ach = \
pyxb_use.AHU.max_summer_ach
zone.winter_reduction = \
pyxb_use.AHU.winter_reduction
for pyxb_wall in pyxb_zone.OuterWall:
out_wall = OuterWall(zone)
set_basic_data_teaser(pyxb_wall, out_wall)
set_layer_data_teaser(pyxb_wall, out_wall)
try:
if float(project_bind.version) >= 0.6:
for pyxb_wall in pyxb_zone.Door:
out_wall = Door(zone)
set_basic_data_teaser(pyxb_wall, out_wall)
set_layer_data_teaser(pyxb_wall, out_wall)
except AttributeError:
pass
for pyxb_wall in pyxb_zone.Rooftop:
roof = Rooftop(zone)
set_basic_data_teaser(pyxb_wall, roof)
set_layer_data_teaser(pyxb_wall, roof)
# zone.outer_walls.append(roof)
for pyxb_wall in pyxb_zone.GroundFloor:
gr_floor = GroundFloor(zone)
set_basic_data_teaser(pyxb_wall, gr_floor)
set_layer_data_teaser(pyxb_wall, gr_floor)
# zone.outer_walls.append(gr_floor)
for pyxb_wall in pyxb_zone.InnerWall:
in_wall = InnerWall(zone)
set_basic_data_teaser(pyxb_wall, in_wall)
set_layer_data_teaser(pyxb_wall, in_wall)
# zone.inner_walls.append(in_wall)
for pyxb_wall in pyxb_zone.Ceiling:
ceiling = Ceiling(zone)
set_basic_data_teaser(pyxb_wall, ceiling)
set_layer_data_teaser(pyxb_wall, ceiling)
# zone.inner_walls.append(ceiling)
for pyxb_wall in pyxb_zone.Floor:
floor = Floor(zone)
set_basic_data_teaser(pyxb_wall, floor)
set_layer_data_teaser(pyxb_wall, floor)
# zone.inner_walls.append(floor)
for pyxb_win in pyxb_zone.Window:
win = Window(zone)
set_basic_data_teaser(pyxb_win, win)
set_layer_data_teaser(pyxb_win, win)
def load_teaser_json(path, project):
"""Load a project from json.
TEASERs internal file format to store information.
Parameters
----------
path: string
path of teaserjson file
project: Project()
Teaser instance of Project()
"""
__building_class = {
"Office": {
"method": "bmvbs",
"teaser_class": Office
},
"Institute": {
"method": "bmvbs",
"teaser_class": Institute
},
"Institute4": {
"method": "bmvbs",
"teaser_class": Institute4
},
"Institute8": {
"method": "bmvbs",
"teaser_class": Institute8
},
"Building": {
"method": "undefined",
"teaser_class": Building
},
"SingleFamilyDwelling": {
"method": "iwu",
"teaser_class": SingleFamilyDwelling
},
"SingleFamilyHouse": {
"method": "tabula_de",
"teaser_class": SingleFamilyHouse
},
"TerracedHouse": {
"method": "tabula_de",
"teaser_class": TerracedHouse
},
"MultiFamilyHouse": {
"method": "tabula_de",
"teaser_class": MultiFamilyHouse
},
"ApartmentBlock": {
"method": "tabula_de",
"teaser_class": ApartmentBlock
},
}
with open(path, "r+") as f:
prj_in = json.load(f, object_pairs_hook=collections.OrderedDict)
project.name = prj_in["project"]["name"]
project.weather_file_path = prj_in["project"]["weather_file_path"]
project.number_of_elements_calc = prj_in["project"][
"number_of_elements_calc"]
project.merge_windows_calc = prj_in["project"]["merge_windows_calc"]
project.used_library_calc = prj_in["project"]["used_library_calc"]
project.modelica_info.start_time = prj_in["project"]["modelica_info"][
"start_time"]
project.modelica_info.stop_time = prj_in["project"]["modelica_info"][
"stop_time"]
project.modelica_info.interval_output = prj_in["project"]["modelica_info"][
"interval_output"]
project.modelica_info.current_solver = prj_in["project"]["modelica_info"][
"current_solver"]
project.modelica_info.equidistant_output = prj_in["project"][
"modelica_info"]["equidistant_output"]
project.modelica_info.results_at_events = prj_in["project"][
"modelica_info"]["results_at_events"]
project.modelica_info.version = prj_in["project"]["modelica_info"][
"version"]
for bldg_name, bldg_in in prj_in["project"]["buildings"].items():
bl_class = __building_class[bldg_in["classification"]
["class"]]["teaser_class"]
bldg = bl_class(parent=project)
bldg.name = bldg_name
bldg.street_name = bldg_in["street_name"]
bldg.city = bldg_in["city"]
bldg.year_of_construction = bldg_in["year_of_construction"]
bldg.year_of_retrofit = bldg_in["year_of_retrofit"]
bldg.number_of_floors = bldg_in["number_of_floors"]
bldg.height_of_floors = bldg_in["height_of_floors"]
# bldg.net_leased_area = bldg_in["net_leased_area"]
bldg.outer_area = bldg_in["outer_area"]
bldg.window_area = bldg_in["window_area"]
try:
bldg.central_ahu = BuildingAHU(parent=bldg)
bldg.central_ahu.heating = bldg_in["central_ahu"]["heating"]
bldg.central_ahu.cooling = bldg_in["central_ahu"]["cooling"]
bldg.central_ahu.dehumidification = bldg_in["central_ahu"][
"dehumidification"]
bldg.central_ahu.humidification = bldg_in["central_ahu"][
"humidification"]
bldg.central_ahu.heat_recovery = bldg_in["central_ahu"][
"heat_recovery"]
bldg.central_ahu.by_pass_dehumidification = bldg_in["central_ahu"][
"by_pass_dehumidification"]
bldg.central_ahu.efficiency_recovery = bldg_in["central_ahu"][
"efficiency_recovery"]
bldg.central_ahu.efficiency_recovery_false = bldg_in[
"central_ahu"]["efficiency_recovery_false"]
bldg.central_ahu.min_relative_humidity_profile = bldg_in[
"central_ahu"]["min_relative_humidity_profile"]
bldg.central_ahu.max_relative_humidity_profile = bldg_in[
"central_ahu"]["max_relative_humidity_profile"]
bldg.central_ahu.v_flow_profile = bldg_in["central_ahu"][
"v_flow_profile"]
bldg.central_ahu.temperature_profile = bldg_in["central_ahu"][
"temperature_profile"]
except KeyError:
pass
for tz_name, zone_in in bldg_in["thermal_zones"].items():
tz = ThermalZone(parent=bldg)
tz.name = tz_name
tz.area = zone_in["area"]
tz.volume = zone_in["volume"]
tz.use_conditions = UseConditions(parent=tz)
tz.use_conditions.usage = zone_in["use_conditions"]["usage"]
tz.use_conditions.typical_length = zone_in["use_conditions"][
"typical_length"]
tz.use_conditions.typical_width = zone_in["use_conditions"][
"typical_width"]
tz.use_conditions.with_heating = zone_in["use_conditions"][
"with_heating"]
tz.use_conditions.with_cooling = zone_in["use_conditions"][
"with_cooling"]
tz.use_conditions.with_ideal_thresholds = zone_in[
"use_conditions"]["with_ideal_thresholds"]
tz.use_conditions.T_threshold_heating = zone_in["use_conditions"][
"T_threshold_heating"]
tz.use_conditions.T_threshold_cooling = zone_in["use_conditions"][
"T_threshold_cooling"]
tz.use_conditions.fixed_heat_flow_rate_persons = zone_in[
"use_conditions"]["fixed_heat_flow_rate_persons"]
tz.use_conditions.activity_degree_persons = zone_in[
"use_conditions"]["activity_degree_persons"]
tz.use_conditions.persons = zone_in["use_conditions"]["persons"]
tz.use_conditions.internal_gains_moisture_no_people = zone_in[
"use_conditions"]["internal_gains_moisture_no_people"]
tz.use_conditions.ratio_conv_rad_persons = zone_in[
"use_conditions"]["ratio_conv_rad_persons"]
tz.use_conditions.machines = zone_in["use_conditions"]["machines"]
tz.use_conditions.ratio_conv_rad_machines = zone_in[
"use_conditions"]["ratio_conv_rad_machines"]
tz.use_conditions.lighting_power = zone_in["use_conditions"][
"lighting_power"]
tz.use_conditions.ratio_conv_rad_lighting = zone_in[
"use_conditions"]["ratio_conv_rad_lighting"]
tz.use_conditions.use_constant_infiltration = zone_in[
"use_conditions"]["use_constant_infiltration"]
tz.use_conditions.infiltration_rate = zone_in["use_conditions"][
"infiltration_rate"]
tz.use_conditions.max_user_infiltration = zone_in[
"use_conditions"]["max_user_infiltration"]
tz.use_conditions.max_overheating_infiltration = zone_in[
"use_conditions"]["max_overheating_infiltration"]
tz.use_conditions.max_summer_infiltration = zone_in[
"use_conditions"]["max_summer_infiltration"]
tz.use_conditions.winter_reduction_infiltration = zone_in[
"use_conditions"]["winter_reduction_infiltration"]
tz.use_conditions.min_ahu = zone_in["use_conditions"]["min_ahu"]
tz.use_conditions.max_ahu = zone_in["use_conditions"]["max_ahu"]
tz.use_conditions.with_ahu = zone_in["use_conditions"]["with_ahu"]
tz.use_conditions.heating_profile = zone_in["use_conditions"][
"heating_profile"]
tz.use_conditions.cooling_profile = zone_in["use_conditions"][
"cooling_profile"]
tz.use_conditions.persons_profile = zone_in["use_conditions"][
"persons_profile"]
tz.use_conditions.machines_profile = zone_in["use_conditions"][
"machines_profile"]
tz.use_conditions.lighting_profile = zone_in["use_conditions"][
"lighting_profile"]
for wall_name, wall_in in zone_in["outer_walls"].items():
out_wall = OuterWall(parent=tz)
out_wall.name = wall_name
set_basic_data_teaser(wall_in, out_wall)
set_layer_data_teaser(wall_in, out_wall)
for door_name, door_in in zone_in["doors"].items():
door = Door(parent=tz)
door.name = door_name
set_basic_data_teaser(door_in, door)
set_layer_data_teaser(door_in, door)
for roof_name, roof_in in zone_in["rooftops"].items():
roof = Rooftop(parent=tz)
roof.name = roof_name
set_basic_data_teaser(roof_in, roof)
set_layer_data_teaser(roof_in, roof)
for gf_name, gf_in in zone_in["ground_floors"].items():
gf = GroundFloor(parent=tz)
gf.name = gf_name
set_basic_data_teaser(gf_in, gf)
set_layer_data_teaser(gf_in, gf)
for win_name, win_in in zone_in["windows"].items():
win = Window(parent=tz)
win.name = win_name
set_basic_data_teaser(win_in, win)
set_layer_data_teaser(win_in, win)
for iw_name, iw_in in zone_in["inner_walls"].items():
in_wall = InnerWall(parent=tz)
in_wall.name = iw_name
set_basic_data_teaser(iw_in, in_wall)
set_layer_data_teaser(iw_in, in_wall)
for fl_name, fl_in in zone_in["floors"].items():
floor = Floor(parent=tz)
floor.name = fl_name
set_basic_data_teaser(fl_in, floor)
set_layer_data_teaser(fl_in, floor)
for cl_name, cl_in in zone_in["ceilings"].items():
ceil = Ceiling(parent=tz)
ceil.name = cl_name
set_basic_data_teaser(cl_in, ceil)
set_layer_data_teaser(cl_in, ceil)