added nrcan importer

usage importer now reads from catalogs
This commit is contained in:
Pilar 2022-12-07 10:54:28 -05:00
parent 09bbe07ccb
commit b34b07b161
13 changed files with 341 additions and 572 deletions

View File

@ -22,7 +22,7 @@ class Usage:
lighting,
appliances,
thermal_control):
self._usage = usage
self._name = usage
self._hours_day = hours_day
self._days_year = days_year
self._mechanical_air_change = mechanical_air_change
@ -34,12 +34,12 @@ class Usage:
self._thermal_control = thermal_control
@property
def usage(self) -> Union[None, str]:
def name(self) -> Union[None, str]:
"""
Get usage zone usage
Get usage zone usage name
:return: None or str
"""
return self._usage
return self._name
@property
def hours_day(self) -> Union[None, float]:

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@ -32,10 +32,6 @@ class NrcanCatalog(Catalog):
self._load_schedules()
self._content = Content(self._load_archetypes())
def _calculate_hours_day(self, function):
# todo: pilar need to check how to calculate this value
return 24
@staticmethod
def _extract_schedule(raw):
nrcan_schedule_type = raw['category']
@ -69,8 +65,8 @@ class NrcanCatalog(Catalog):
def _load_archetypes(self):
usages = []
usage = self._metadata['nrcan']['standards']['usage']
url = f'{self._base_url}{usage["space_types_location"]}'
name = self._metadata['nrcan']['standards']['usage']
url = f'{self._base_url}{name["space_types_location"]}'
with urllib.request.urlopen(url) as json_file:
space_types = json.load(json_file)['tables']['space_types']['table']
space_types = [st for st in space_types if st['building_type'] == 'Space Function']
@ -80,8 +76,6 @@ class NrcanCatalog(Catalog):
ventilation_rate = space_type['ventilation_per_area']
if ventilation_rate == 0:
ventilation_rate = space_type['ventilation_per_person']
hours_day = self._calculate_hours_day(usage_type)
days_year = 365
occupancy_schedule_name = space_type['occupancy_schedule']
lighting_schedule_name = space_type['lighting_schedule']
appliance_schedule_name = space_type['electric_equipment_schedule']
@ -97,11 +91,13 @@ class NrcanCatalog(Catalog):
occupancy_density = space_type['occupancy_per_area']
lighting_density = space_type['lighting_per_area']
lighting_radiative_fraction = space_type['lighting_fraction_radiant']
lighting_convective_fraction = 0
if lighting_radiative_fraction is not None:
lighting_convective_fraction = 1 - lighting_radiative_fraction
lighting_latent_fraction = 0
appliances_density = space_type['electric_equipment_per_area']
appliances_radiative_fraction = space_type['electric_equipment_fraction_radiant']
appliances_convective_fraction = 0
if appliances_radiative_fraction is not None:
appliances_convective_fraction = 1 - appliances_radiative_fraction
appliances_latent_fraction = space_type['electric_equipment_fraction_latent']
@ -131,6 +127,8 @@ class NrcanCatalog(Catalog):
None,
None,
None)
hours_day = None
days_year = None
usages.append(Usage(usage_type,
hours_day,
days_year,
@ -149,7 +147,7 @@ class NrcanCatalog(Catalog):
"""
_names = {'usages': []}
for usage in self._content.usages:
_names['usages'].append(usage.usage)
_names['usages'].append(usage.name)
return _names
def entries(self, category=None):
@ -165,6 +163,6 @@ class NrcanCatalog(Catalog):
:parm: entry name
"""
for usage in self._content.usages:
if usage.usage.lower() == name.lower():
if usage.name.lower() == name.lower():
return usage
raise IndexError(f"{name} doesn't exists in the catalog")

View File

@ -26,7 +26,7 @@ class ThermalZone:
"""
ThermalZone class
"""
def __init__(self, thermal_boundaries, parent_internal_zone, volume, footprint_area, usage=None):
def __init__(self, thermal_boundaries, parent_internal_zone, volume, footprint_area, usage_name=None):
self._id = None
self._parent_internal_zone = parent_internal_zone
self._footprint_area = footprint_area
@ -40,9 +40,9 @@ class ThermalZone:
self._ordinate_number = None
self._view_factors_matrix = None
self._total_floor_area = None
self._usage = usage
self._usage_name = usage_name
self._usage_from_parent = False
if usage is None:
if usage_name is None:
self._usage_from_parent = True
self._hours_day = None
self._days_year = None
@ -60,14 +60,14 @@ class ThermalZone:
if self._usage_from_parent:
self._usages = copy.deepcopy(self._parent_internal_zone.usages)
else:
values = self._usage.split('_')
values = self._usage_name.split('_')
usages = []
for value in values:
usages.append(value.split('-'))
self._usages = []
for parent_usage in self._parent_internal_zone.usages:
for value in usages:
if parent_usage.usage == value[1]:
if parent_usage.name == value[1]:
new_usage = copy.deepcopy(parent_usage)
new_usage.percentage = float(value[0])/100
self._usages.append(new_usage)
@ -224,19 +224,19 @@ class ThermalZone:
self._view_factors_matrix = value
@property
def usage(self) -> Union[None, str]:
def usage_name(self) -> Union[None, str]:
"""
Get thermal zone usage
Get thermal zone usage name
:return: None or str
"""
if self._usage_from_parent:
if self._parent_internal_zone.usages is None:
return None
self._usage = ''
self._usage_name = ''
for usage_zone in self._parent_internal_zone.usages:
self._usage += str(round(usage_zone.percentage * 100)) + '-' + usage_zone.name + '_'
self._usage = self._usage[:-1]
return self._usage
self._usage_name += str(round(usage_zone.percentage * 100)) + '-' + usage_zone.name + '_'
self._usage_name = self._usage_name[:-1]
return self._usage_name
@staticmethod
def _get_schedule_of_day(requested_day_type, schedules):
@ -322,7 +322,13 @@ class ThermalZone:
if _occupancy_reference.occupancy_schedules is not None:
_schedules = []
for i_schedule in range(0, len(_occupancy_reference.occupancy_schedules)):
schedule = copy.deepcopy(_occupancy_reference.occupancy_schedules[i_schedule])
schedule = Schedule()
schedule.type = _occupancy_reference.occupancy_schedules[i_schedule].type
schedule.day_types = _occupancy_reference.occupancy_schedules[i_schedule].day_types
schedule.data_type = _occupancy_reference.occupancy_schedules[i_schedule].data_type
schedule.time_step = _occupancy_reference.occupancy_schedules[i_schedule].time_step
schedule.time_range = _occupancy_reference.occupancy_schedules[i_schedule].time_range
new_values = []
for i_value in range(0, len(_occupancy_reference.occupancy_schedules[i_schedule].values)):
_new_value = 0
@ -374,7 +380,13 @@ class ThermalZone:
if _lighting_reference.schedules is not None:
_schedules = []
for i_schedule in range(0, len(_lighting_reference.schedules)):
schedule = copy.deepcopy(_lighting_reference.schedules[i_schedule])
schedule = Schedule()
schedule.type = _lighting_reference.schedules[i_schedule].type
schedule.day_types = _lighting_reference.schedules[i_schedule].day_types
schedule.data_type = _lighting_reference.schedules[i_schedule].data_type
schedule.time_step = _lighting_reference.schedules[i_schedule].time_step
schedule.time_range = _lighting_reference.schedules[i_schedule].time_range
new_values = []
for i_value in range(0, len(_lighting_reference.schedules[i_schedule].values)):
_new_value = 0
@ -426,7 +438,13 @@ class ThermalZone:
if _appliances_reference.schedules is not None:
_schedules = []
for i_schedule in range(0, len(_appliances_reference.schedules)):
schedule = copy.deepcopy(_appliances_reference.schedules[i_schedule])
schedule = Schedule()
schedule.type = _appliances_reference.schedules[i_schedule].type
schedule.day_types = _appliances_reference.schedules[i_schedule].day_types
schedule.data_type = _appliances_reference.schedules[i_schedule].data_type
schedule.time_step = _appliances_reference.schedules[i_schedule].time_step
schedule.time_range = _appliances_reference.schedules[i_schedule].time_range
new_values = []
for i_value in range(0, len(_appliances_reference.schedules[i_schedule].values)):
_new_value = 0
@ -535,7 +553,13 @@ class ThermalZone:
_schedules = []
_schedule_type = _types_reference[i_type][1]
for i_schedule in range(0, len(_schedule_type)):
schedule = copy.deepcopy(_schedule_type[i_schedule])
schedule = Schedule()
schedule.type = _schedule_type[i_schedule].type
schedule.day_types = _schedule_type[i_schedule].day_types
schedule.data_type = _schedule_type[i_schedule].data_type
schedule.time_step = _schedule_type[i_schedule].time_step
schedule.time_range = _schedule_type[i_schedule].time_range
new_values = []
for i_value in range(0, len(_schedule_type[i_schedule].values)):
_new_value = 0

View File

@ -207,9 +207,9 @@ class Idf:
_schedule.values = _infiltration_values
_infiltration_schedules.append(_schedule)
for schedule in self._idf.idfobjects[self._HOURLY_SCHEDULE]:
if schedule.Name == f'Infiltration schedules {thermal_zone.usage}':
if schedule.Name == f'Infiltration schedules {thermal_zone.usage_name}':
return
return self._add_standard_compact_hourly_schedule(thermal_zone.usage, 'Infiltration', _infiltration_schedules)
return self._add_standard_compact_hourly_schedule(thermal_zone.usage_name, 'Infiltration', _infiltration_schedules)
def _add_people_activity_level_schedules(self, thermal_zone):
_occ = thermal_zone.occupancy
@ -219,9 +219,9 @@ class Idf:
_total_heat = (_occ.sensible_convective_internal_gain + _occ.sensible_radiative_internal_gain
+ _occ.latent_internal_gain) / _occ.occupancy_density
for schedule in self._idf.idfobjects[self._COMPACT_SCHEDULE]:
if schedule.Name == f'Activity Level schedules {thermal_zone.usage}':
if schedule.Name == f'Activity Level schedules {thermal_zone.usage_name}':
return
_kwargs = {'Name': f'Activity Level schedules {thermal_zone.usage}',
_kwargs = {'Name': f'Activity Level schedules {thermal_zone.usage_name}',
'Schedule_Type_Limits_Name': self.idf_type_limits[cte.ANY_NUMBER],
'Field_1': 'Through: 12/31',
'Field_2': 'For AllDays',
@ -300,15 +300,15 @@ class Idf:
self._add_heating_system(thermal_zone, name)
def _add_thermostat(self, thermal_zone):
thermostat_name = f'Thermostat {thermal_zone.usage}'
thermostat_name = f'Thermostat {thermal_zone.usage_name}'
for thermostat in self._idf.idfobjects[self._THERMOSTAT]:
if thermostat.Name == thermostat_name:
return thermostat
# todo: change schedules to schedule name and create schedules using the add_schedule function
return self._idf.newidfobject(self._THERMOSTAT,
Name=thermostat_name,
Heating_Setpoint_Schedule_Name=f'Heating thermostat schedules {thermal_zone.usage}',
Cooling_Setpoint_Schedule_Name=f'Cooling thermostat schedules {thermal_zone.usage}')
Heating_Setpoint_Schedule_Name=f'Heating thermostat schedules {thermal_zone.usage_name}',
Cooling_Setpoint_Schedule_Name=f'Cooling thermostat schedules {thermal_zone.usage_name}')
def _add_heating_system(self, thermal_zone, zone_name):
for air_system in self._idf.idfobjects[self._IDEAL_LOAD_AIR_SYSTEM]:
@ -317,9 +317,9 @@ class Idf:
thermostat = self._add_thermostat(thermal_zone)
self._idf.newidfobject(self._IDEAL_LOAD_AIR_SYSTEM,
Zone_Name=zone_name,
System_Availability_Schedule_Name=f'HVAC AVAIL SCHEDULES {thermal_zone.usage}',
Heating_Availability_Schedule_Name=f'HVAC AVAIL SCHEDULES {thermal_zone.usage}',
Cooling_Availability_Schedule_Name=f'HVAC AVAIL SCHEDULES {thermal_zone.usage}',
System_Availability_Schedule_Name=f'HVAC AVAIL SCHEDULES {thermal_zone.usage_name}',
Heating_Availability_Schedule_Name=f'HVAC AVAIL SCHEDULES {thermal_zone.usage_name}',
Cooling_Availability_Schedule_Name=f'HVAC AVAIL SCHEDULES {thermal_zone.usage_name}',
Template_Thermostat_Name=thermostat.Name)
def _add_occupancy(self, thermal_zone, zone_name):
@ -330,11 +330,11 @@ class Idf:
self._idf.newidfobject(self._PEOPLE,
Name=f'{zone_name}_occupancy',
Zone_or_ZoneList_Name=zone_name,
Number_of_People_Schedule_Name=f'Occupancy schedules {thermal_zone.usage}',
Number_of_People_Schedule_Name=f'Occupancy schedules {thermal_zone.usage_name}',
Number_of_People_Calculation_Method="People",
Number_of_People=number_of_people,
Fraction_Radiant=fraction_radiant,
Activity_Level_Schedule_Name=f'Activity Level schedules {thermal_zone.usage}'
Activity_Level_Schedule_Name=f'Activity Level schedules {thermal_zone.usage_name}'
)
def _add_infiltration(self, thermal_zone, zone_name):
@ -344,7 +344,7 @@ class Idf:
self._idf.newidfobject(self._INFILTRATION,
Name=f'{zone_name}_infiltration',
Zone_or_ZoneList_Name=zone_name,
Schedule_Name=f'Infiltration schedules {thermal_zone.usage}',
Schedule_Name=f'Infiltration schedules {thermal_zone.usage_name}',
Design_Flow_Rate_Calculation_Method='AirChanges/Hour',
Air_Changes_per_Hour=thermal_zone.mechanical_air_change
)
@ -387,7 +387,7 @@ class Idf:
self._add_vegetation_material(thermal_boundary.parent_surface.vegetation)
for thermal_opening in thermal_boundary.thermal_openings:
self._add_window_construction_and_material(thermal_opening)
usage = thermal_zone.usage
usage = thermal_zone.usage_name
if building.name in self._target_buildings or building.name in self._adjacent_buildings:
self._add_infiltration_schedules(thermal_zone)
self._add_schedules(usage, 'Occupancy', thermal_zone.occupancy.occupancy_schedules)

View File

@ -29,12 +29,14 @@ class NrelPhysicsParameters:
Returns the city with the construction parameters assigned to the buildings
"""
city = self._city
nrel_catalog = ConstructionCatalogFactory('nrel').catalog
for building in city.buildings:
try:
archetype = self._search_archetype(building.function, building.year_of_construction, self._climate_zone)
archetype = self._search_archetype(nrel_catalog, building.function, building.year_of_construction,
self._climate_zone)
except KeyError:
sys.stderr.write(f'Building {building.name} has unknown archetype for building function: {building.function} '
f'and building year of construction: {building.year_of_construction} '
sys.stderr.write(f'Building {building.name} has unknown construction archetype for building function: '
f'{building.function} and building year of construction: {building.year_of_construction} '
f'and climate zone reference norm {self._climate_zone}\n')
return
@ -62,8 +64,7 @@ class NrelPhysicsParameters:
self._calculate_view_factors(thermal_zone)
@staticmethod
def _search_archetype(function, year_of_construction, climate_zone):
nrel_catalog = ConstructionCatalogFactory('nrel').catalog
def _search_archetype(nrel_catalog, function, year_of_construction, climate_zone):
nrel_archetypes = nrel_catalog.entries('archetypes')
for building_archetype in nrel_archetypes:
construction_period_limits = building_archetype.construction_period.split(' - ')

View File

@ -1,20 +1,15 @@
"""
ComnetUsageParameters model the usage properties
ComnetUsageParameters extracts the usage properties from Comnet catalog and assigns to each building
SPDX - License - Identifier: LGPL - 3.0 - or -later
Copyright © 2022 Concordia CERC group
Project Coder Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca
"""
import copy
import sys
from typing import Dict
import pandas as pd
import numpy
import helpers.constants as cte
from helpers.configuration_helper import ConfigurationHelper as ch
from imports.geometry.helpers.geometry_helper import GeometryHelper
from imports.usage.helpers.usage_helper import UsageHelper
from imports.usage.helpers.schedules_helper import SchedulesHelper
from city_model_structure.building_demand.usage import Usage
from city_model_structure.building_demand.lighting import Lighting
from city_model_structure.building_demand.occupancy import Occupancy
@ -22,6 +17,7 @@ from city_model_structure.building_demand.appliances import Appliances
from city_model_structure.building_demand.thermal_control import ThermalControl
from city_model_structure.attributes.schedule import Schedule
from city_model_structure.building_demand.internal_gain import InternalGain
from catalog_factories.usage_catalog_factory import UsageCatalogFactory
class ComnetUsageParameters:
@ -30,162 +26,7 @@ class ComnetUsageParameters:
"""
def __init__(self, city, base_path):
self._city = city
self._base_path = str(base_path / 'comnet_archetypes.xlsx')
self._data = self._read_file()
self._comnet_schedules_path = str(base_path / 'comnet_schedules_archetypes.xlsx')
self._xls = pd.ExcelFile(self._comnet_schedules_path)
def _read_file(self) -> Dict:
"""
reads xlsx files containing usage information into a dictionary
:return : Dict
"""
number_usage_types = 33
xl_file = pd.ExcelFile(self._base_path)
file_data = pd.read_excel(xl_file, sheet_name="Modeling Data", usecols="A:AB", skiprows=[0, 1, 2],
nrows=number_usage_types)
lighting_data = {}
plug_loads_data = {}
occupancy_data = {}
ventilation_rate = {}
water_heating = {}
process_data = {}
schedules_key = {}
for j in range(0, number_usage_types):
usage_parameters = file_data.iloc[j]
usage_type = usage_parameters[0]
lighting_data[usage_type] = usage_parameters[1:6].values.tolist()
plug_loads_data[usage_type] = usage_parameters[8:13].values.tolist()
occupancy_data[usage_type] = usage_parameters[17:20].values.tolist()
ventilation_rate[usage_type] = usage_parameters[20:21].values.tolist()
water_heating[usage_type] = usage_parameters[23:24].values.tolist()
process_data[usage_type] = usage_parameters[24:26].values.tolist()
schedules_key[usage_type] = usage_parameters[27:28].values.tolist()
return {'lighting': lighting_data,
'plug loads': plug_loads_data,
'occupancy': occupancy_data,
'ventilation rate': ventilation_rate,
'water heating': water_heating,
'process': process_data,
'schedules_key': schedules_key}
@staticmethod
def _parse_usage_type(comnet_usage, data, schedules_data):
_usage = Usage()
# lighting
_lighting = Lighting()
_lighting.latent_fraction = ch().comnet_lighting_latent
_lighting.convective_fraction = ch().comnet_lighting_convective
_lighting.radiative_fraction = ch().comnet_lighting_radiant
_lighting.density = data['lighting'][comnet_usage][4]
# plug loads
_appliances = None
if data['plug loads'][comnet_usage][0] != 'n.a.':
_appliances = Appliances()
_appliances.latent_fraction = ch().comnet_plugs_latent
_appliances.convective_fraction = ch().comnet_plugs_convective
_appliances.radiative_fraction = ch().comnet_plugs_radiant
_appliances.density = data['plug loads'][comnet_usage][0]
# occupancy
_occupancy = Occupancy()
value = data['occupancy'][comnet_usage][0]
_occupancy.occupancy_density = 0
if value != 0:
_occupancy.occupancy_density = 1 / value
_occupancy.sensible_convective_internal_gain = data['occupancy'][comnet_usage][1] \
* ch().comnet_occupancy_sensible_convective
_occupancy.sensible_radiative_internal_gain = data['occupancy'][comnet_usage][1] \
* ch().comnet_occupancy_sensible_radiant
_occupancy.latent_internal_gain = data['occupancy'][comnet_usage][2]
_usage.mechanical_air_change = data['ventilation rate'][comnet_usage][0]
schedules_usage = UsageHelper.schedules_key(data['schedules_key'][comnet_usage][0])
_extracted_data = pd.read_excel(schedules_data, sheet_name=schedules_usage, usecols="A:AA", skiprows=[0, 1, 2, 3],
nrows=39)
schedules = []
number_of_schedule_types = 13
schedules_per_schedule_type = 3
day_types = dict({'week_day': 0, 'saturday': 1, 'sunday': 2})
for schedule_types in range(0, number_of_schedule_types):
name = ''
data_type = ''
for schedule_day in range(0, schedules_per_schedule_type):
_schedule = Schedule()
_schedule.time_step = cte.HOUR
_schedule.time_range = cte.DAY
row_cells = _extracted_data.iloc[schedules_per_schedule_type * schedule_types + schedule_day]
if schedule_day == day_types['week_day']:
name = row_cells[0]
data_type = row_cells[1]
_schedule.day_types = [cte.MONDAY, cte.TUESDAY, cte.WEDNESDAY, cte.THURSDAY, cte.FRIDAY]
elif schedule_day == day_types['saturday']:
_schedule.day_types = [cte.SATURDAY]
else:
_schedule.day_types = [cte.SUNDAY, cte.HOLIDAY]
_schedule.type = name
_schedule.data_type = SchedulesHelper.data_type_from_comnet(data_type)
if _schedule.data_type == cte.ANY_NUMBER:
values = []
for cell in row_cells[schedules_per_schedule_type:].to_numpy():
values.append((float(cell) - 32.) * 5 / 9)
_schedule.values = values
else:
_schedule.values = row_cells[schedules_per_schedule_type:].to_numpy()
schedules.append(_schedule)
schedules_types = dict({'Occupancy': 0, 'Lights': 3, 'Receptacle': 6, 'Infiltration': 9, 'HVAC Avail': 12,
'ClgSetPt': 15, 'HtgSetPt': 18})
_schedules = []
for pointer in range(0, 3):
_schedules.append(schedules[schedules_types['Occupancy']+pointer])
_occupancy.occupancy_schedules = _schedules
_schedules = []
for pointer in range(0, 3):
_schedules.append(schedules[schedules_types['Lights']+pointer])
_lighting.schedules = _schedules
_schedules = []
for pointer in range(0, 3):
_schedules.append(schedules[schedules_types['Receptacle']+pointer])
_appliances.schedules = _schedules
_usage.occupancy = _occupancy
_usage.lighting = _lighting
_usage.appliances = _appliances
_control = ThermalControl()
_schedules = []
for pointer in range(0, 3):
_schedules.append(schedules[schedules_types['HtgSetPt']+pointer])
_control.heating_set_point_schedules = _schedules
_schedules = []
for pointer in range(0, 3):
_schedules.append(schedules[schedules_types['ClgSetPt']+pointer])
_control.cooling_set_point_schedules = _schedules
_schedules = []
for pointer in range(0, 3):
_schedules.append(schedules[schedules_types['HVAC Avail']+pointer])
_control.hvac_availability_schedules = _schedules
_usage.thermal_control = _control
return _usage
def _search_archetypes(self, libs_usage):
for item in self._data['lighting']:
comnet_usage = UsageHelper.comnet_from_libs_usage(libs_usage)
if comnet_usage == item:
usage_archetype = self._parse_usage_type(comnet_usage, self._data, self._xls)
return usage_archetype
return None
self._path = base_path
def enrich_buildings(self):
"""
@ -193,14 +34,14 @@ class ComnetUsageParameters:
:return:
"""
city = self._city
comnet_catalog = UsageCatalogFactory('comnet').catalog
for building in city.buildings:
usage = GeometryHelper.libs_usage_from_libs_function(building.function)
usage_name = UsageHelper.comnet_from_hub_usage(building.function)
try:
archetype_usage = self._search_archetypes(usage)
archetype_usage = self._search_archetypes(comnet_catalog, usage_name)
except KeyError:
sys.stderr.write(f'Building {building.name} has unknown archetype for building function:'
f' {building.function}, that assigns building usage as '
f'{GeometryHelper.libs_usage_from_libs_function(building.function)}\n')
sys.stderr.write(f'Building {building.name} has unknown usage archetype for building function:'
f' {building.function}')
return
for internal_zone in building.internal_zones:
@ -210,46 +51,46 @@ class ComnetUsageParameters:
raise Exception('Internal zone volume not defined, ACH cannot be calculated')
if internal_zone.area <= 0:
raise Exception('Internal zone area is zero, ACH cannot be calculated')
if internal_zone.volume <= 0:
raise Exception('Internal zone volume is zero, ACH cannot be calculated')
volume_per_area = internal_zone.volume / internal_zone.area
usage_zone = Usage()
usage_zone.name = usage
self._assign_values_usage_zone(usage_zone, archetype_usage, volume_per_area)
usage_zone.name = usage_name
self._assign_values(usage_zone, archetype_usage, volume_per_area)
usage_zone.percentage = 1
self._calculate_reduced_values_from_extended_library(usage_zone, archetype_usage)
internal_zone.usages = [usage_zone]
@staticmethod
def _assign_values_usage_zone(usage_zone, archetype, volume_per_area):
def _search_archetypes(comnet_catalog, usage_name):
comnet_archetypes = comnet_catalog.entries('archetypes').usages
for building_archetype in comnet_archetypes:
if str(usage_name) == str(building_archetype.name):
return building_archetype
raise KeyError('archetype not found')
@staticmethod
def _assign_values(usage_zone, archetype, volume_per_area):
# Due to the fact that python is not a typed language, the wrong object type is assigned to
# usage_zone.occupancy when writing usage_zone.occupancy = archetype.occupancy.
# Same happens for lighting and appliances. Therefore, this walk around has been done.
usage_zone.mechanical_air_change = archetype.mechanical_air_change * cte.METERS_TO_FEET ** 2 \
* cte.HOUR_TO_MINUTES / cte.METERS_TO_FEET ** 3 / volume_per_area
usage_zone.mechanical_air_change = archetype.ventilation_rate / volume_per_area \
* cte.HOUR_TO_MINUTES * cte.MINUTES_TO_SECONDS
_occupancy = Occupancy()
_occupancy.occupancy_density = archetype.occupancy.occupancy_density * cte.METERS_TO_FEET**2
_occupancy.sensible_radiative_internal_gain = archetype.occupancy.sensible_radiative_internal_gain \
* archetype.occupancy.occupancy_density \
* cte.METERS_TO_FEET**2 * cte.BTU_H_TO_WATTS
_occupancy.latent_internal_gain = archetype.occupancy.latent_internal_gain \
* archetype.occupancy.occupancy_density \
* cte.METERS_TO_FEET**2 * cte.BTU_H_TO_WATTS
_occupancy.sensible_convective_internal_gain = archetype.occupancy.sensible_convective_internal_gain \
* archetype.occupancy.occupancy_density \
* cte.METERS_TO_FEET**2 * cte.BTU_H_TO_WATTS
_occupancy.occupancy_schedules = archetype.occupancy.occupancy_schedules
_occupancy.occupancy_density = archetype.occupancy.occupancy_density
_occupancy.sensible_radiative_internal_gain = archetype.occupancy.sensible_radiative_internal_gain
_occupancy.latent_internal_gain = archetype.occupancy.latent_internal_gain
_occupancy.sensible_convective_internal_gain = archetype.occupancy.sensible_convective_internal_gain
_occupancy.occupancy_schedules = archetype.occupancy.schedules
usage_zone.occupancy = _occupancy
_lighting = Lighting()
_lighting.density = archetype.lighting.density / cte.METERS_TO_FEET ** 2
_lighting.density = archetype.lighting.density
_lighting.convective_fraction = archetype.lighting.convective_fraction
_lighting.radiative_fraction = archetype.lighting.radiative_fraction
_lighting.latent_fraction = archetype.lighting.latent_fraction
_lighting.schedules = archetype.lighting.schedules
usage_zone.lighting = _lighting
_appliances = Appliances()
_appliances.density = archetype.appliances.density / cte.METERS_TO_FEET ** 2
_appliances.density = archetype.appliances.density
_appliances.convective_fraction = archetype.appliances.convective_fraction
_appliances.radiative_fraction = archetype.appliances.radiative_fraction
_appliances.latent_fraction = archetype.appliances.latent_fraction

View File

@ -106,7 +106,7 @@ class UsageHelper:
'C-14 Gymnasium': 'C-14 Gymnasium'}
@staticmethod
def comnet_from_libs_usage(usage):
def comnet_from_hub_usage(usage):
"""
Get Comnet usage from the given internal usage key
:param usage: str
@ -115,7 +115,7 @@ class UsageHelper:
try:
return UsageHelper._usage_to_comnet[usage]
except KeyError:
sys.stderr.write('Error: keyword not found to translate from libs_usage to comnet usage.\n')
sys.stderr.write('Error: keyword not found to translate from hub_usage to comnet usage.\n')
@staticmethod
def schedules_key(usage):
@ -129,3 +129,41 @@ class UsageHelper:
except KeyError:
sys.stderr.write('Error: Comnet keyword not found. An update of the Comnet files might have been '
'done changing the keywords.\n')
_usage_to_nrcan = {
cte.RESIDENTIAL: 'Multi-unit residential',
cte.SINGLE_FAMILY_HOUSE: 'Multi-unit residential',
cte.MULTI_FAMILY_HOUSE: 'Multi-unit residential',
cte.EDUCATION: 'School/university',
cte.SCHOOL_WITHOUT_SHOWER: 'School/university',
cte.SCHOOL_WITH_SHOWER: 'School/university',
cte.RETAIL_SHOP_WITHOUT_REFRIGERATED_FOOD: 'Retail',
cte.RETAIL_SHOP_WITH_REFRIGERATED_FOOD: 'Retail',
cte.HOTEL: 'Hotel',
cte.HOTEL_MEDIUM_CLASS: 'Hotel',
cte.DORMITORY: 'Dormitory',
cte.INDUSTRY: 'Manufacturing Facility',
cte.RESTAURANT: 'Dining - family',
cte.HEALTH_CARE: 'Hospital',
cte.RETIREMENT_HOME_OR_ORPHANAGE: 'Multi-unit residential',
cte.OFFICE_AND_ADMINISTRATION: 'Office',
cte.EVENT_LOCATION: 'Convention centre',
cte.HALL: 'Convention centre',
cte.SPORTS_LOCATION: 'Gymnasium',
cte.LABOR: 'Gymnasium',
cte.GREEN_HOUSE: cte.GREEN_HOUSE,
cte.NON_HEATED: cte.NON_HEATED
}
@staticmethod
def nrcan_from_hub_usage(usage):
"""
Get Nrcan usage from the given internal usage key
:param usage: str
:return: str
"""
try:
return UsageHelper._usage_to_nrcan[usage]
except KeyError:
sys.stderr.write('Error: keyword not found to translate from hub_usage to nrcan usage.\n')

View File

@ -1,280 +0,0 @@
"""
Hft-based interface, it reads format defined within the CERC team (based on that one used in SimStadt and developed by
the IAF team at hft-Stuttgart)
SPDX - License - Identifier: LGPL - 3.0 - or -later
Copyright © 2022 Concordia CERC group
Project Coder Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca
"""
import xmltodict
import copy
from city_model_structure.building_demand.usage import Usage
from city_model_structure.building_demand.internal_gain import InternalGain
from city_model_structure.building_demand.occupancy import Occupancy
from city_model_structure.building_demand.appliances import Appliances
from city_model_structure.building_demand.thermal_control import ThermalControl
from city_model_structure.attributes.schedule import Schedule
import helpers.constants as cte
from imports.usage.helpers.usage_helper import UsageHelper
class HftUsageInterface:
"""
HftUsageInterface abstract class
"""
def __init__(self, base_path, usage_file='ca_library_reduced.xml'):
path = str(base_path / usage_file)
self._usage_archetypes = []
with open(path) as xml:
self._archetypes = xmltodict.parse(xml.read(), force_list=('zoneUsageVariant', 'zoneUsageType'))
for zone_usage_type in self._archetypes['buildingUsageLibrary']['zoneUsageType']:
usage = zone_usage_type['id']
usage_archetype = self._parse_zone_usage_type(usage, zone_usage_type)
self._usage_archetypes.append(usage_archetype)
if 'zoneUsageVariant' in zone_usage_type:
for usage_zone_variant in zone_usage_type['zoneUsageVariant']:
usage = usage_zone_variant['id']
usage_archetype_variant = self._parse_zone_usage_variant(usage, usage_archetype, usage_zone_variant)
self._usage_archetypes.append(usage_archetype_variant)
@staticmethod
def _parse_zone_usage_type(usage, zone_usage_type):
usage_zone_archetype = Usage()
usage_zone_archetype.name = usage
if 'occupancy' in zone_usage_type:
_occupancy = Occupancy()
_occupancy.occupancy_density = zone_usage_type['occupancy']['occupancyDensity'] #todo: check units
if 'internGains' in zone_usage_type['occupancy']:
_internal_gain = InternalGain()
_internal_gain.latent_fraction = zone_usage_type['occupancy']['internGains']['latentFraction']
_internal_gain.convective_fraction = zone_usage_type['occupancy']['internGains']['convectiveFraction']
_internal_gain.average_internal_gain = zone_usage_type['occupancy']['internGains']['averageInternGainPerSqm']
_internal_gain.radiative_fraction = zone_usage_type['occupancy']['internGains']['radiantFraction']
if 'load' in zone_usage_type['occupancy']['internGains']:
_schedule = Schedule()
_schedule.type = 'internal gains load'
_schedule.time_range = cte.DAY
_schedule.time_step = cte.HOUR
_schedule.data_type = cte.ANY_NUMBER
_schedule.day_types = [cte.MONDAY, cte.TUESDAY, cte.WEDNESDAY, cte.THURSDAY, cte.FRIDAY, cte.SATURDAY,
cte.SUNDAY]
_values = zone_usage_type['occupancy']['internGains']['load']['weekDayProfile']['values']
while ' ' in _values:
_values = _values.replace(' ', ' ')
_values = _values.split()
_values_float = []
for _value in _values:
_values_float.append(float(_value))
_schedule.values = _values_float
_internal_gain.schedules = [_schedule]
usage_zone_archetype.internal_gains = [_internal_gain]
usage_zone_archetype.hours_day = zone_usage_type['occupancy']['usageHoursPerDay']
usage_zone_archetype.days_year = zone_usage_type['occupancy']['usageDaysPerYear']
usage_zone_archetype.occupancy = _occupancy
if 'endUses' in zone_usage_type:
_thermal_control = ThermalControl()
if 'space_heating' in zone_usage_type['endUses']:
_thermal_control.mean_heating_set_point = \
zone_usage_type['endUses']['space_heating']['heatingSetPointTemperature']
_thermal_control.heating_set_back = zone_usage_type['endUses']['space_heating']['heatingSetBackTemperature']
if 'schedule' in zone_usage_type['endUses']['space_heating']:
_schedule = Schedule()
_schedule.type = 'heating temperature'
_schedule.time_range = cte.DAY
_schedule.time_step = cte.HOUR
_schedule.data_type = cte.ANY_NUMBER
_schedule.day_types = [cte.MONDAY, cte.TUESDAY, cte.WEDNESDAY, cte.THURSDAY, cte.FRIDAY, cte.SATURDAY,
cte.SUNDAY]
_values = zone_usage_type['endUses']['space_heating']['schedule']['weekDayProfile']['values']
while ' ' in _values:
_values = _values.replace(' ', ' ')
_values = _values.split()
_values_float = []
for _value in _values:
_values_float.append(float(_value))
_schedule.values = _values_float
_thermal_control.heating_set_point_schedules = [_schedule]
if 'space_cooling' in zone_usage_type['endUses']:
_thermal_control.mean_cooling_set_point = \
zone_usage_type['endUses']['space_cooling']['coolingSetPointTemperature']
if 'schedule' in zone_usage_type['endUses']['space_cooling']:
_schedule = Schedule()
_schedule.type = 'cooling temperature'
_schedule.time_range = cte.DAY
_schedule.time_step = cte.HOUR
_schedule.data_type = cte.ANY_NUMBER
_schedule.day_types = [cte.MONDAY, cte.TUESDAY, cte.WEDNESDAY, cte.THURSDAY, cte.FRIDAY, cte.SATURDAY,
cte.SUNDAY]
_values = zone_usage_type['endUses']['space_cooling']['schedule']['weekDayProfile']['values']
while ' ' in _values:
_values = _values.replace(' ', ' ')
_values = _values.split()
_values_float = []
for _value in _values:
_values_float.append(float(_value))
_schedule.values = _values_float
_thermal_control.cooling_set_point_schedules = [_schedule]
usage_zone_archetype.thermal_control = _thermal_control
if 'ventilation' in zone_usage_type['endUses'] and zone_usage_type['endUses']['ventilation'] is not None:
usage_zone_archetype.mechanical_air_change = \
zone_usage_type['endUses']['ventilation']['mechanicalAirChangeRate']
# todo: not used or assigned anywhere
if 'domestic_hot_water' in zone_usage_type['endUses']:
# liters to cubic meters
dhw_average_volume_pers_day = float(
zone_usage_type['endUses']['domestic_hot_water']['averageVolumePerPersAndDay']) / 1000
dhw_preparation_temperature = zone_usage_type['endUses']['domestic_hot_water']['preparationTemperature']
if 'all_electrical_appliances' in zone_usage_type['endUses']:
if 'averageConsumptionPerSqmAndYear' in zone_usage_type['endUses']['all_electrical_appliances']:
# kWh to J
usage_zone_archetype.electrical_app_average_consumption_sqm_year = \
float(zone_usage_type['endUses']['all_electrical_appliances']['averageConsumptionPerSqmAndYear']) \
* cte.KILO_WATTS_HOUR_TO_JULES
if 'appliance' in zone_usage_type:
_appliances = Appliances()
_appliances.density = zone_usage_type['appliance']['#text'] #todo: check units
usage_zone_archetype.appliances = _appliances
return usage_zone_archetype
@staticmethod
def _parse_zone_usage_variant(usage, usage_zone, usage_zone_variant):
# the variants mimic the inheritance concept from OOP
usage_zone_archetype = copy.deepcopy(usage_zone)
usage_zone_archetype.name = usage
if 'occupancy' in usage_zone_variant:
_occupancy = Occupancy()
if 'occupancyDensity' in usage_zone_variant['occupancy']:
_occupancy.occupancy_density = usage_zone_variant['occupancy']['occupancyDensity'] # todo: check units
if 'usageHoursPerDay' in usage_zone_variant['occupancy']:
usage_zone_archetype.hours_day = usage_zone_variant['occupancy']['usageHoursPerDay']
if 'usageDaysPerYear' in usage_zone_variant['occupancy']:
usage_zone_archetype.days_year = usage_zone_variant['occupancy']['usageDaysPerYear']
usage_zone_archetype.occupancy = _occupancy
if 'internGains' in usage_zone_variant['occupancy']:
_internal_gain = InternalGain()
if 'latentFraction' in usage_zone_variant['occupancy']['internGains']:
_internal_gain.latent_fraction = usage_zone_variant['occupancy']['internGains']['latentFraction']
if 'convectiveFraction' in usage_zone_variant['occupancy']['internGains']:
_internal_gain.convective_fraction = usage_zone_variant['occupancy']['internGains']['convectiveFraction']
if 'averageInternGainPerSqm' in usage_zone_variant['occupancy']['internGains']:
_internal_gain.average_internal_gain = \
usage_zone_variant['occupancy']['internGains']['averageInternGainPerSqm']
if 'radiantFraction' in usage_zone_variant['occupancy']['internGains']:
_internal_gain.radiative_fraction = usage_zone_variant['occupancy']['internGains']['radiantFraction']
if 'load' in usage_zone_variant['occupancy']['internGains']:
_schedule = Schedule()
_schedule.type = 'internal gains load'
_schedule.time_range = cte.DAY
_schedule.time_step = cte.HOUR
_schedule.data_type = cte.ANY_NUMBER
_schedule.day_types = [cte.MONDAY, cte.TUESDAY, cte.WEDNESDAY, cte.THURSDAY, cte.FRIDAY, cte.SATURDAY,
cte.SUNDAY]
_values = usage_zone_variant['occupancy']['internGains']['load']['weekDayProfile']['values']
while ' ' in _values:
_values = _values.replace(' ', ' ')
_values = _values.split()
_values_float = []
for _value in _values:
_values_float.append(float(_value))
_schedule.values = _values_float
_internal_gain.schedules = [_schedule]
usage_zone_archetype.internal_gains = [_internal_gain]
if 'endUses' in usage_zone_variant:
_thermal_control = ThermalControl()
if 'space_heating' in usage_zone_variant['endUses']:
if 'heatingSetPointTemperature' in usage_zone_variant['endUses']['space_heating']:
_thermal_control.mean_heating_set_point = \
usage_zone_variant['endUses']['space_heating']['heatingSetPointTemperature']
if 'heatingSetBackTemperature' in usage_zone_variant['endUses']['space_heating']:
_thermal_control.heating_set_back = usage_zone_variant['endUses']['space_heating']['heatingSetBackTemperature']
if 'schedule' in usage_zone_variant['endUses']['space_heating']:
_schedule = Schedule()
_schedule.type = 'heating temperature'
_schedule.time_range = cte.DAY
_schedule.time_step = cte.HOUR
_schedule.data_type = cte.ANY_NUMBER
_schedule.day_types = [cte.MONDAY, cte.TUESDAY, cte.WEDNESDAY, cte.THURSDAY, cte.FRIDAY, cte.SATURDAY,
cte.SUNDAY]
_values = usage_zone_variant['endUses']['space_heating']['schedule']['weekDayProfile']['values']
while ' ' in _values:
_values = _values.replace(' ', ' ')
_values = _values.split()
_values_float = []
for _value in _values:
_values_float.append(float(_value))
_schedule.values = _values_float
_thermal_control.heating_set_point_schedules = [_schedule]
if 'space_cooling' in usage_zone_variant['endUses'] and \
usage_zone_variant['endUses']['space_cooling'] is not None:
if 'coolingSetPointTemperature' in usage_zone_variant['endUses']['space_cooling']:
_thermal_control.mean_cooling_set_point = \
usage_zone_variant['endUses']['space_cooling']['coolingSetPointTemperature']
if 'schedule' in usage_zone_variant['endUses']['space_cooling']:
_schedule = Schedule()
_schedule.type = 'cooling temperature'
_schedule.time_range = cte.DAY
_schedule.time_step = cte.HOUR
_schedule.data_type = cte.ANY_NUMBER
_schedule.day_types = [cte.MONDAY, cte.TUESDAY, cte.WEDNESDAY, cte.THURSDAY, cte.FRIDAY, cte.SATURDAY,
cte.SUNDAY]
_values = usage_zone_variant['endUses']['space_cooling']['schedule']['weekDayProfile']['values']
while ' ' in _values:
_values = _values.replace(' ', ' ')
_values = _values.split()
_values_float = []
for _value in _values:
_values_float.append(float(_value))
_schedule.values = _values_float
_thermal_control.cooling_set_point_schedules = [_schedule]
usage_zone_archetype.thermal_control = _thermal_control
if 'ventilation' in usage_zone_variant['endUses'] and usage_zone_variant['endUses']['ventilation'] is not None:
usage_zone_archetype.mechanical_air_change = \
usage_zone_variant['endUses']['ventilation']['mechanicalAirChangeRate']
if 'appliance' in usage_zone_variant:
_appliances = Appliances()
_appliances.density = usage_zone_variant['appliance']['#text'] # todo: check units
usage_zone_archetype.appliances = _appliances
return usage_zone_archetype
def _search_archetype(self, libs_usage):
building_usage = UsageHelper().hft_from_libs_usage(libs_usage)
for building_archetype in self._usage_archetypes:
if building_archetype.name == building_usage:
return building_archetype
return None
@staticmethod
def _assign_values(usage, archetype):
usage_zone = Usage()
usage_zone.name = usage
usage_zone.internal_gains = copy.deepcopy(archetype.internal_gains)
usage_zone.mechanical_air_change = archetype.mechanical_air_change
usage_zone.occupancy = copy.deepcopy(archetype.occupancy)
usage_zone.appliances = copy.deepcopy(archetype.appliances)
usage_zone.thermal_control = copy.deepcopy(archetype.thermal_control)
usage_zone.days_year = archetype.days_year
usage_zone.hours_day = archetype.hours_day
return usage_zone

View File

@ -1,42 +0,0 @@
"""
HftUsageParameters model the usage properties
SPDX - License - Identifier: LGPL - 3.0 - or -later
Copyright © 2022 Concordia CERC group
Project Coder Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca
"""
import sys
from imports.geometry.helpers.geometry_helper import GeometryHelper
from imports.usage.hft_usage_interface import HftUsageInterface
from imports.usage.helpers.usage_helper import UsageHelper
class HftUsageParameters(HftUsageInterface):
"""
HftUsageParameters class
"""
def __init__(self, city, base_path):
super().__init__(base_path, 'de_library.xml')
self._city = city
def enrich_buildings(self):
"""
Returns the city with the usage parameters assigned to the buildings
:return:
"""
city = self._city
for building in city.buildings:
usage = GeometryHelper().libs_usage_from_libs_function(building.function)
try:
archetype = self._search_archetype(usage)
except KeyError:
sys.stderr.write(f'Building {building.name} has unknown archetype for building function:'
f' {building.function}, that assigns building usage as '
f'{GeometryHelper().libs_usage_from_libs_function(building.function)}\n')
return
for internal_zone in building.internal_zones:
libs_usage = GeometryHelper().libs_usage_from_libs_function(building.function)
usage_zone = self._assign_values(UsageHelper().hft_from_libs_usage(libs_usage), archetype)
usage_zone.percentage = 1
internal_zone.usages = [usage_zone]

View File

@ -0,0 +1,191 @@
"""
NrcanUsageParameters extracts the usage properties from NRCAN catalog and assigns to each building
SPDX - License - Identifier: LGPL - 3.0 - or -later
Copyright © 2022 Concordia CERC group
Project Coder Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca
"""
import copy
import sys
import numpy
import helpers.constants as cte
from imports.usage.helpers.usage_helper import UsageHelper
from city_model_structure.building_demand.usage import Usage
from city_model_structure.building_demand.lighting import Lighting
from city_model_structure.building_demand.occupancy import Occupancy
from city_model_structure.building_demand.appliances import Appliances
from city_model_structure.building_demand.thermal_control import ThermalControl
from city_model_structure.attributes.schedule import Schedule
from city_model_structure.building_demand.internal_gain import InternalGain
from catalog_factories.usage_catalog_factory import UsageCatalogFactory
class NrcanUsageParameters:
"""
NrcanUsageParameters class
"""
def __init__(self, city, base_path):
self._city = city
self._path = base_path
def enrich_buildings(self):
"""
Returns the city with the usage parameters assigned to the buildings
:return:
"""
city = self._city
nrcan_catalog = UsageCatalogFactory('nrcan').catalog
for building in city.buildings:
usage_name = UsageHelper.nrcan_from_hub_usage(building.function)
try:
archetype_usage = self._search_archetypes(nrcan_catalog, usage_name)
except KeyError:
sys.stderr.write(f'Building {building.name} has unknown usage archetype for building function:'
f' {building.function}')
return
for internal_zone in building.internal_zones:
if internal_zone.area is None:
raise Exception('Internal zone area not defined, ACH cannot be calculated')
if internal_zone.volume is None:
raise Exception('Internal zone volume not defined, ACH cannot be calculated')
if internal_zone.area <= 0:
raise Exception('Internal zone area is zero, ACH cannot be calculated')
volume_per_area = internal_zone.volume / internal_zone.area
usage_zone = Usage()
usage_zone.name = usage_name
self._assign_values(usage_zone, archetype_usage, volume_per_area)
usage_zone.percentage = 1
self._calculate_reduced_values_from_extended_library(usage_zone, archetype_usage)
internal_zone.usages = [usage_zone]
@staticmethod
def _search_archetypes(comnet_catalog, usage_name):
comnet_archetypes = comnet_catalog.entries('archetypes').usages
for building_archetype in comnet_archetypes:
if str(usage_name) == str(building_archetype.name):
return building_archetype
raise KeyError('archetype not found')
@staticmethod
def _assign_values(usage_zone, archetype, volume_per_area):
# Due to the fact that python is not a typed language, the wrong object type is assigned to
# usage_zone.occupancy when writing usage_zone.occupancy = archetype.occupancy.
# Same happens for lighting and appliances. Therefore, this walk around has been done.
if archetype.mechanical_air_change > 0:
usage_zone.mechanical_air_change = archetype.mechanical_air_change
elif archetype.ventilation_rate > 0:
usage_zone.mechanical_air_change = archetype.ventilation_rate / volume_per_area \
* cte.HOUR_TO_MINUTES * cte.MINUTES_TO_SECONDS
else:
usage_zone.mechanical_air_change = 0
_occupancy = Occupancy()
_occupancy.occupancy_density = archetype.occupancy.occupancy_density
_occupancy.sensible_radiative_internal_gain = archetype.occupancy.sensible_radiative_internal_gain
_occupancy.latent_internal_gain = archetype.occupancy.latent_internal_gain
_occupancy.sensible_convective_internal_gain = archetype.occupancy.sensible_convective_internal_gain
_occupancy.occupancy_schedules = archetype.occupancy.occupancy_schedules
usage_zone.occupancy = _occupancy
_lighting = Lighting()
_lighting.density = archetype.lighting.density
_lighting.convective_fraction = archetype.lighting.convective_fraction
_lighting.radiative_fraction = archetype.lighting.radiative_fraction
_lighting.latent_fraction = archetype.lighting.latent_fraction
_lighting.schedules = archetype.lighting.schedules
usage_zone.lighting = _lighting
_appliances = Appliances()
_appliances.density = archetype.appliances.density
_appliances.convective_fraction = archetype.appliances.convective_fraction
_appliances.radiative_fraction = archetype.appliances.radiative_fraction
_appliances.latent_fraction = archetype.appliances.latent_fraction
_appliances.schedules = archetype.appliances.schedules
usage_zone.appliances = _appliances
_control = ThermalControl()
_control.cooling_set_point_schedules = archetype.thermal_control.cooling_set_point_schedules
_control.heating_set_point_schedules = archetype.thermal_control.heating_set_point_schedules
_control.hvac_availability_schedules = archetype.thermal_control.hvac_availability_schedules
usage_zone.thermal_control = _control
@staticmethod
def _calculate_reduced_values_from_extended_library(usage_zone, archetype):
number_of_days_per_type = {'WD': 251, 'Sat': 52, 'Sun': 62}
total = 0
for schedule in archetype.thermal_control.hvac_availability_schedules:
if schedule.day_types[0] == cte.SATURDAY:
for value in schedule.values:
total += value * number_of_days_per_type['Sat']
elif schedule.day_types[0] == cte.SUNDAY:
for value in schedule.values:
total += value * number_of_days_per_type['Sun']
else:
for value in schedule.values:
total += value * number_of_days_per_type['WD']
usage_zone.hours_day = total / 365
usage_zone.days_year = 365
@staticmethod
def _calculate_internal_gains(archetype):
_DAYS = [cte.MONDAY, cte.TUESDAY, cte.WEDNESDAY, cte.THURSDAY, cte.FRIDAY, cte.SATURDAY, cte.SUNDAY, cte.HOLIDAY]
_number_of_days_per_type = [51, 50, 50, 50, 50, 52, 52, 10]
_mean_internal_gain = InternalGain()
_mean_internal_gain.type = 'mean_value_of_internal_gains'
_base_schedule = Schedule()
_base_schedule.type = cte.INTERNAL_GAINS
_base_schedule.time_range = cte.DAY
_base_schedule.time_step = cte.HOUR
_base_schedule.data_type = cte.FRACTION
_latent_heat_gain = archetype.occupancy.latent_internal_gain
_convective_heat_gain = archetype.occupancy.sensible_convective_internal_gain
_radiative_heat_gain = archetype.occupancy.sensible_radiative_internal_gain
_total_heat_gain = (_latent_heat_gain + _convective_heat_gain + _radiative_heat_gain)
_schedule_values = numpy.zeros([24, 8])
_sum = 0
for day, _schedule in enumerate(archetype.occupancy.schedules):
for v, value in enumerate(_schedule.values):
_schedule_values[v, day] = value * _total_heat_gain
_sum += value * _total_heat_gain * _number_of_days_per_type[day]
_total_heat_gain += archetype.lighting.density + archetype.appliances.density
_latent_heat_gain += archetype.lighting.latent_fraction * archetype.lighting.density\
+ archetype.appliances.latent_fraction * archetype.appliances.density
_radiative_heat_gain = archetype.lighting.radiative_fraction * archetype.lighting.density \
+ archetype.appliances.radiative_fraction * archetype.appliances.density
_convective_heat_gain = archetype.lighting.convective_fraction * archetype.lighting.density \
+ archetype.appliances.convective_fraction * archetype.appliances.density
for day, _schedule in enumerate(archetype.lighting.schedules):
for v, value in enumerate(_schedule.values):
_schedule_values[v, day] += value * archetype.lighting.density
_sum += value * archetype.lighting.density * _number_of_days_per_type[day]
for day, _schedule in enumerate(archetype.appliances.schedules):
for v, value in enumerate(_schedule.values):
_schedule_values[v, day] += value * archetype.appliances.density
_sum += value * archetype.appliances.density * _number_of_days_per_type[day]
_latent_fraction = _latent_heat_gain / _total_heat_gain
_radiative_fraction = _radiative_heat_gain / _total_heat_gain
_convective_fraction = _convective_heat_gain / _total_heat_gain
_average_internal_gain = _sum / _total_heat_gain
_schedules = []
for day in range(0, len(_DAYS)):
_schedule = copy.deepcopy(_base_schedule)
_schedule.day_types = [_DAYS[day]]
_schedule.values = _schedule_values[:day]
_schedules.append(_schedule)
_mean_internal_gain.average_internal_gain = _average_internal_gain
_mean_internal_gain.latent_fraction = _latent_fraction
_mean_internal_gain.convective_fraction = _convective_fraction
_mean_internal_gain.radiative_fraction = _radiative_fraction
_mean_internal_gain.schedules = _schedules
return [_mean_internal_gain]

View File

@ -7,9 +7,8 @@ Project Coder Guille Gutierrez guillermo.gutierrezmorote@concordia.ca
Code contributors: Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca
"""
from pathlib import Path
from imports.usage.hft_usage_parameters import HftUsageParameters
from imports.usage.comnet_usage_parameters import ComnetUsageParameters
from imports.usage.nrcan_usage_parameters import NrcanUsageParameters
class UsageFactory:
"""
@ -22,20 +21,19 @@ class UsageFactory:
self._city = city
self._base_path = base_path
def _hft(self):
"""
Enrich the city with HFT usage library
"""
self._city.level_of_detail.usage = 2
HftUsageParameters(self._city, self._base_path).enrich_buildings()
def _comnet(self):
"""
Enrich the city with COMNET usage library
"""
self._city.level_of_detail.usage = 2
self._city.level_of_detail.usage_name = 2
ComnetUsageParameters(self._city, self._base_path).enrich_buildings()
def _nrcan(self):
"""
Enrich the city with NRCAN usage library
"""
return NrcanUsageParameters(self._city, self._base_path).enrich_buildings()
def enrich(self):
"""
Enrich the city given to the class using the usage factory given handler

View File

@ -122,7 +122,7 @@ class TestConstructionFactory(TestCase):
self.assertIsNone(thermal_zone.ordinate_number, 'thermal_zone ordinate number is not none')
self.assertIsNotNone(thermal_zone.view_factors_matrix, 'thermal_zone view factors matrix is none')
self.assertIsNotNone(thermal_zone.total_floor_area, 'thermal zone total_floor_area is none')
self.assertIsNone(thermal_zone.usage, 'thermal_zone usage is not none')
self.assertIsNone(thermal_zone.usage_name, 'thermal_zone usage is not none')
self.assertIsNone(thermal_zone.hours_day, 'thermal_zone hours a day is not none')
self.assertIsNone(thermal_zone.days_year, 'thermal_zone days a year is not none')
self.assertIsNone(thermal_zone.mechanical_air_change, 'thermal_zone mechanical air change is not none')

View File

@ -55,7 +55,7 @@ class TestGeometryFactory(TestCase):
def _check_thermal_zone(self, thermal_zone):
self.assertIsNotNone(thermal_zone.id, 'thermal_zone id is none')
self.assertIsNotNone(thermal_zone.usage, 'thermal_zone usage is not none')
self.assertIsNotNone(thermal_zone.usage_name, 'thermal_zone usage is not none')
self.assertIsNotNone(thermal_zone.hours_day, 'thermal_zone hours a day is none')
self.assertIsNotNone(thermal_zone.days_year, 'thermal_zone days a year is none')
self.assertIsNotNone(thermal_zone.occupancy, 'thermal_zone occupancy is none')
@ -91,7 +91,7 @@ class TestGeometryFactory(TestCase):
def _test_hft(self, file):
_construction_keys = ['nrel']
_usage_keys = ['comnet', 'hft']
_usage_keys = ['comnet', 'nrcan']
for construction_key in _construction_keys:
for usage_key in _usage_keys:
# construction factory called first