The city energy system importer for the north america is modified and tested.

This commit is contained in:
Saeed Ranjbar 2023-10-17 17:25:13 -04:00
parent 978cc9d1ea
commit 9c1e05939a
6 changed files with 122 additions and 196 deletions

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@ -70,12 +70,14 @@ class MontrealCustomCatalog(Catalog):
storage_systems = [storage_system]
if model_name == 'PV system':
generation_system = PvGenerationSystem(equipment_id,
name=None,
model_name=model_name,
electricity_efficiency=electricity_efficiency,
energy_storage_systems=storage_systems
)
else:
generation_system = NonPvGenerationSystem(equipment_id,
name=None,
model_name=model_name,
system_type=equipment_type,
fuel_type=fuel_type,

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@ -28,7 +28,7 @@ class NorthAmericaEnergySystemCatalog(Catalog):
def __init__(self, path):
path = str(path / 'north_america_systems.xml')
with open(path, 'r', encoding='utf-8') as xml:
self._archetypes = xmltodict.parse(xml.read(), force_list=['photovoltaicModules', 'templateStorages'])
self._archetypes = xmltodict.parse(xml.read(), force_list=['photovoltaicModules', 'templateStorages', 'demand'])
self._storage_components = self._load_storage_components()
self._generation_components = self._load_generation_components()
@ -47,7 +47,7 @@ class NorthAmericaEnergySystemCatalog(Catalog):
for boiler in boilers:
boiler_id = boiler['@generation_id']
name = boiler['@name']
system_type = 'Boiler'
system_type = 'boiler'
boiler_model_name = boiler['@modelName']
boiler_manufacturer = boiler['@manufacturer']
boiler_fuel_type = boiler['@fuel']
@ -69,7 +69,7 @@ class NorthAmericaEnergySystemCatalog(Catalog):
for heat_pump in heat_pumps:
heat_pump_id = heat_pump['@generation_id']
name = heat_pump['@name']
system_type = 'Heat Pump'
system_type = 'heat pump'
heat_pump_model_name = heat_pump['@modelName']
heat_pump_manufacturer = heat_pump['@manufacturer']
heat_pump_fuel_type = heat_pump['@fuel']

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@ -20,6 +20,7 @@ class GenerationSystem(ABC):
"""
def __init__(self):
self._system_type = None
self._name = None
self._model_name = None
self._manufacturer = None
self._fuel_type = None
@ -42,6 +43,22 @@ class GenerationSystem(ABC):
"""
self._system_type = value
@property
def name(self):
"""
Get name
:return: string
"""
return self._name
@name.setter
def name(self, value):
"""
Set name
:param value: string
"""
self._name = value
@property
def model_name(self):
"""

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@ -42,9 +42,6 @@ class NonPvGenerationSystem(GenerationSystem):
self._cooling_output_curve = None
self._cooling_fuel_consumption_curve = None
self._cooling_efficiency_curve = None
self._heat_power = None
self._cooling_power = None
self._electricity_power = None
@property
def nominal_heat_output(self):
@ -430,51 +427,4 @@ class NonPvGenerationSystem(GenerationSystem):
"""
self._cooling_efficiency_curve = value
@property
def heat_power(self):
"""
Get heat_power in W
:return: float
"""
return self._heat_power
@heat_power.setter
def heat_power(self, value):
"""
Set heat_power in W
:param value: float
"""
self._heat_power = value
@property
def cooling_power(self):
"""
Get cooling_power in W
:return: float
"""
return self._cooling_power
@cooling_power.setter
def cooling_power(self, value):
"""
Set cooling_power in W
:param value: float
"""
self._cooling_power = value
@property
def electricity_power(self):
"""
Get electricity_power in W
:return: float
"""
return self._electricity_power
@electricity_power.setter
def electricity_power(self, value):
"""
Set electricity_power in W
:param value: float
"""
self._electricity_power = value

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@ -6,25 +6,23 @@ Project Coder Saeed Ranjbar saeed.ranjbar@concordia.ca
Code contributors: Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca
"""
import copy
import logging
from pandas import DataFrame
import copy
from hub.catalog_factories.energy_systems_catalog_factory import EnergySystemsCatalogFactory
from hub.city_model_structure.energy_systems.energy_system import EnergySystem
from hub.city_model_structure.energy_systems.distribution_system import DistributionSystem
from hub.city_model_structure.energy_systems.emission_system import EmissionSystem
from hub.city_model_structure.energy_systems.energy_system import EnergySystem
from hub.city_model_structure.energy_systems.generation_system import GenerationSystem
from hub.city_model_structure.energy_systems.energy_system import EnergySystem
from hub.city_model_structure.energy_systems.generation_system import GenerationSystem
from hub.city_model_structure.energy_systems.non_pv_generation_system import NonPvGenerationSystem
from hub.city_model_structure.energy_systems.pv_generation_system import PvGenerationSystem
from hub.city_model_structure.energy_systems.electrical_storage_system import ElectricalStorageSystem
from hub.city_model_structure.energy_systems.thermal_storage_system import ThermalStorageSystem
from hub.city_model_structure.energy_systems.emission_system import EmissionSystem
from hub.helpers.dictionaries import Dictionaries
class NorthAmericaCustomEnergySystemParameters:
"""
NorthAmericaCustomEnergySystemParameters class
MontrealCustomEnergySystemParameters class
"""
def __init__(self, city):
@ -36,11 +34,7 @@ class NorthAmericaCustomEnergySystemParameters:
:return:
"""
city = self._city
north_america_custom_catalog = EnergySystemsCatalogFactory('north_america').catalog
if city.energy_systems_connection_table is None:
_energy_systems_connection_table = DataFrame(columns=['Energy System Type', 'Building'])
else:
_energy_systems_connection_table = city.energy_systems_connection_table
montreal_custom_catalog = EnergySystemsCatalogFactory('north_america').catalog
if city.generic_energy_systems is None:
_generic_energy_systems = {}
else:
@ -48,21 +42,18 @@ class NorthAmericaCustomEnergySystemParameters:
for building in city.buildings:
archetype_name = building.energy_systems_archetype_name
try:
archetype = self._search_archetypes(north_america_custom_catalog, archetype_name)
archetype = self._search_archetypes(montreal_custom_catalog, archetype_name)
except KeyError:
logging.error('Building %s has unknown energy system archetype for system name %s', building.name,
archetype_name)
continue
_energy_systems_connection_table, _generic_energy_systems = self._create_generic_systems(
archetype,
building,
_energy_systems_connection_table,
_generic_energy_systems
)
city.energy_systems_connection_table = _energy_systems_connection_table
if archetype.name not in _generic_energy_systems:
_generic_energy_systems = self._create_generic_systems_list(archetype, _generic_energy_systems)
city.generic_energy_systems = _generic_energy_systems
self._associate_energy_systems(city)
self._assign_energy_systems_to_buildings(city)
@staticmethod
def _search_archetypes(catalog, name):
@ -72,98 +63,93 @@ class NorthAmericaCustomEnergySystemParameters:
return building_archetype
raise KeyError('archetype not found')
@staticmethod
def _create_generic_systems(archetype, building,
_energy_systems_connection_table, _generic_energy_systems):
def _create_generic_systems_list(self, archetype, _generic_energy_systems):
building_systems = []
data = [archetype.name, building.name]
_energy_systems_connection_table.loc[len(_energy_systems_connection_table)] = data
for system in archetype.systems:
for archetype_system in archetype.systems:
energy_system = EnergySystem()
_hub_demand_types = []
demand_types = system.demand_types
if isinstance(demand_types, str):
demand_types = [demand_types]
for demand_type in demand_types:
_hub_demand_types.append(Dictionaries().north_america_demand_type_to_hub_energy_demand_type[demand_type])
energy_system.name = system.name
for demand_type in archetype_system.demand_types:
_hub_demand_types.append(Dictionaries().montreal_demand_type_to_hub_energy_demand_type[demand_type])
energy_system.name = archetype_system.name
energy_system.demand_types = _hub_demand_types
archetype_generation_equipments = system.generation_systems
_generation_systems = []
for archetype_generation_equipment in archetype_generation_equipments:
_generation_system = GenerationSystem()
_type = archetype_generation_equipment.name
_generation_system.type = Dictionaries().north_america_system_to_hub_energy_generation_system[_type]
_fuel_type = Dictionaries().north_america_custom_fuel_to_hub_fuel[archetype_generation_equipment.fuel_type]
_generation_system.fuel_type = _fuel_type
_generation_system.source_types = archetype_generation_equipment.source_medium
_generation_system.heat_efficiency = archetype_generation_equipment.heat_efficiency
_generation_system.cooling_efficiency = archetype_generation_equipment.cooling_efficiency
_generation_system.electricity_efficiency = archetype_generation_equipment.electricity_efficiency
_generation_system.source_temperature = archetype_generation_equipment.source_temperature
_generation_system.source_mass_flow = archetype_generation_equipment.source_mass_flow
_generation_system.storage = None
_generation_system.auxiliary_equipment = None
_generation_system.supply_medium = archetype_generation_equipment.supply_medium
_generation_system.maximum_heat_supply_temperature = archetype_generation_equipment.maximum_heat_supply_temperature
_generation_system.minimum_heat_supply_temperature = archetype_generation_equipment.minimum_heat_supply_temperature
_generation_system.maximum_cooling_supply_temperature = archetype_generation_equipment.maximum_cooling_supply_temperature
_generation_system.minimum_cooling_supply_temperature = archetype_generation_equipment.minimum_cooling_supply_temperature
_generation_system.heat_output_curve = archetype_generation_equipment.heat_output_curve
_generation_system.heat_fuel_consumption_curve = archetype_generation_equipment.heat_fuel_consumption_curve
_generation_system.heat_efficiency_curve = archetype_generation_equipment.heat_efficiency_curve
_generation_system.cooling_output_curve = archetype_generation_equipment.cooling_output_curve
_generation_system.cooling_fuel_consumption_curve = archetype_generation_equipment.cooling_fuel_consumption_curve
_generation_system.cooling_efficiency_curve = archetype_generation_equipment.cooling_efficiency_curve
_generation_systems.append(_generation_system)
energy_system.generation_systems = _generation_systems
_thermal_storage_system = ThermalStorageSystem()
archetype_storage_equipments = system.energy_storage_systems
if archetype_storage_equipments is not None:
for archetype_storage_equipment in archetype_storage_equipments:
_thermal_storage_system.maximum_operating_temperature = archetype_storage_equipment.maximum_operating_temperature
_thermal_storage_system.height = archetype_storage_equipment.height
_thermal_storage_system.layers = archetype_storage_equipment.layers
energy_system.energy_storage_systems = _thermal_storage_system
energy_system.configuration_schema = archetype_system.configuration_schema
energy_system.generation_systems = self._create_generation_systems(archetype_system)
if energy_system.distribution_systems is not None:
energy_system.distribution_systems = self._create_distribution_systems(archetype_system)
building_systems.append(energy_system)
if archetype.name not in _generic_energy_systems:
_generic_energy_systems[archetype.name] = building_systems
return _energy_systems_connection_table, _generic_energy_systems
return _generic_energy_systems
@staticmethod
def _associate_energy_systems(city):
energy_systems_connection = city.energy_systems_connection_table
def _create_generation_systems(archetype_system):
_generation_systems = []
for archetype_generation_system in archetype_system.generation_systems:
if archetype_generation_system.system_type == 'PV system':
_generation_system = PvGenerationSystem()
_type = 'PV system'
_generation_system.system_type = Dictionaries().montreal_generation_system_to_hub_energy_generation_system[_type]
_fuel_type = Dictionaries().montreal_custom_fuel_to_hub_fuel[archetype_generation_system.fuel_type]
_generation_system.fuel_type = _fuel_type
_generation_system.electricity_efficiency = archetype_generation_system.electricity_efficiency
_generic_storage_system = None
if archetype_generation_system.energy_storage_systems is not None:
_generic_storage_system = ElectricalStorageSystem()
_generic_storage_system.type_energy_stored = 'electrical'
_generation_system.energy_storage_systems = [_generic_storage_system]
else:
_generation_system = NonPvGenerationSystem()
_type = archetype_generation_system.system_type
_generation_system.system_type = Dictionaries().montreal_generation_system_to_hub_energy_generation_system[_type]
_fuel_type = Dictionaries().north_america_custom_fuel_to_hub_fuel[archetype_generation_system.fuel_type]
_generation_system.fuel_type = _fuel_type
_generation_system.source_types = archetype_generation_system.source_medium
_generation_system.heat_efficiency = archetype_generation_system.heat_efficiency
_generation_system.cooling_efficiency = archetype_generation_system.cooling_efficiency
_generation_system.electricity_efficiency = archetype_generation_system.electricity_efficiency
_generic_storage_system = None
if archetype_generation_system.energy_storage_systems is not None:
_storage_systems = []
for storage_system in archetype_generation_system.energy_storage_systems:
if storage_system.type_energy_stored == 'electrical':
_generic_storage_system = ElectricalStorageSystem()
_generic_storage_system.type_energy_stored = 'electrical'
else:
_generic_storage_system = ThermalStorageSystem()
_generic_storage_system.type_energy_stored = 'thermal'
_storage_systems.append(_generic_storage_system)
_generation_system.energy_storage_systems = [_storage_systems]
_generation_systems.append(_generation_system)
return _generation_systems
@staticmethod
def _create_distribution_systems(archetype_system):
_distribution_systems = []
for archetype_distribution_system in archetype_system.distribution_systems:
_distribution_system = DistributionSystem()
_distribution_system.type = archetype_distribution_system.type
_distribution_system.distribution_consumption_fix_flow = \
archetype_distribution_system.distribution_consumption_fix_flow
_distribution_system.distribution_consumption_variable_flow = \
archetype_distribution_system.distribution_consumption_variable_flow
_distribution_system.heat_losses = archetype_distribution_system.heat_losses
_emission_system = None
if archetype_distribution_system.emission_systems is not None:
_emission_system = EmissionSystem()
_distribution_system.emission_systems = [_emission_system]
_distribution_systems.append(_distribution_system)
return _distribution_systems
@staticmethod
def _assign_energy_systems_to_buildings(city):
for building in city.buildings:
_building_energy_systems = []
energy_systems = energy_systems_connection['Energy System Type'][
energy_systems_connection['Building'] == building.name]
print(energy_systems)
for energy_system in energy_systems:
if str(energy_system) == 'nan':
energy_systems_cluster_name = building.energy_systems_archetype_name
if str(energy_systems_cluster_name) == 'nan':
break
_generic_building_energy_systems = city.generic_energy_systems[energy_system]
_generic_building_energy_systems = city.generic_energy_systems[energy_systems_cluster_name]
for _generic_building_energy_system in _generic_building_energy_systems:
_building_energy_equipment = EnergySystem()
_building_energy_equipment.name = _generic_building_energy_system.name
_building_energy_equipment.demand_types = _generic_building_energy_system.demand_types
_generation_systems = []
_generic_building_generation_systems = _generic_building_energy_system.generation_systems
for _generic_building_generation_system in _generic_building_generation_systems:
_building_generation_system = GenerationSystem()
_building_generation_system.generic_generation_system = \
copy.deepcopy(_generic_building_generation_system)
_generation_systems.append(_building_generation_system)
_building_energy_equipment.generation_systems = _generation_systems
_building_storage_system = ThermalStorageSystem()
_building_storage_system.generic_storage_system = \
copy.deepcopy(_generic_building_energy_system.energy_storage_systems)
_building_energy_systems.append(copy.deepcopy(_generic_building_energy_system))
_building_energy_equipment.energy_storage_systems = _building_storage_system
_building_energy_systems.append(_building_energy_equipment)
building.energy_systems = _building_energy_systems

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@ -104,7 +104,6 @@ class TestSystemsFactory(TestCase):
building.energy_systems_archetype_name = 'PV+ASHP+GasBoiler+TES'
EnergySystemsFactory('north_america', self._city).enrich()
self.assertEqual(17, len(self._city.energy_systems_connection_table))
self.assertEqual(1, len(self._city.generic_energy_systems))
def test_north_america_custom_system_results(self):
@ -128,46 +127,18 @@ class TestSystemsFactory(TestCase):
building.energy_systems_archetype_name = 'PV+ASHP+GasBoiler+TES'
EnergySystemsFactory('north_america', self._city).enrich()
# Need to assign energy systems to buildings:
energy_systems_connection = self._city.energy_systems_connection_table
for building in self._city.buildings:
_building_energy_systems = []
energy_systems = energy_systems_connection['Energy System Type'][
energy_systems_connection['Building'] == building.name]
for energy_system in energy_systems:
_generic_building_energy_systems = self._city.generic_energy_systems[energy_system]
for _generic_building_energy_system in _generic_building_energy_systems:
_building_energy_equipment = EnergySystem()
_building_energy_equipment.demand_types = _generic_building_energy_system.demand_types
_building_distribution_system = DistributionSystem()
_building_distribution_system.generic_distribution_system = (
copy.deepcopy(_generic_building_energy_system.distribution_systems)
)
_building_emission_system = EmissionSystem()
_building_emission_system.generic_emission_system = (
copy.deepcopy(_generic_building_energy_system.emission_systems)
)
_building_generation_system = GenerationSystem()
_building_generation_system.generic_generation_system = (
copy.deepcopy(_generic_building_energy_system.generation_systems)
)
_building_storage_system = ThermalStorageSystem()
_building_storage_system.generic_storage_system = \
copy.deepcopy(_generic_building_energy_system.energy_storage_systems)
if cte.HEATING in _building_energy_equipment.demand_types:
_building_generation_system.heat_power = building.heating_peak_load[cte.YEAR][0]
if cte.COOLING in _building_energy_equipment.demand_types:
_building_generation_system.cooling_power = building.cooling_peak_load[cte.YEAR][0]
_building_energy_equipment.generation_systems = _building_generation_system
_building_energy_equipment.distribution_systems = _building_distribution_system
_building_energy_equipment.emission_systems = _building_emission_system
_building_energy_systems.append(_building_energy_equipment)
building.energy_systems = _building_energy_systems
for energy_system in building.energy_systems:
if cte.HEATING in energy_system.demand_types:
_generation_system = cast(NonPvGenerationSystem, energy_system.generation_systems[0])
_generation_system.heat_power = building.heating_peak_load[cte.YEAR][0]
if cte.COOLING in energy_system.demand_types:
_generation_system = cast(NonPvGenerationSystem, energy_system.generation_systems[0])
_generation_system.cooling_power = building.cooling_peak_load[cte.YEAR][0]
for building in self._city.buildings:
self.assertLess(0, building.heating_consumption[cte.YEAR][0])
self.assertLess(0, building.cooling_consumption[cte.YEAR][0])
self.assertEqual(0, building.cooling_consumption[cte.YEAR][0])
self.assertLess(0, building.domestic_hot_water_consumption[cte.YEAR][0])
self.assertLess(0, building.onsite_electrical_production[cte.YEAR][0])