Fixed and merged conflicts

This commit is contained in:
Peter Yefi 2021-12-15 09:30:53 +00:00
commit ddbc047640
67 changed files with 3370 additions and 386 deletions

View File

@ -1,7 +1,7 @@
"""
Node module
SPDX - License - Identifier: LGPL - 3.0 - or -later
Copyright © 2020 Project Author Guille Gutierrez guillermo.gutierrezmorote@concordia.ca
Copyright © 2021 Project Author Guille Gutierrez guillermo.gutierrezmorote@concordia.ca
Contributor Milad milad.aghamohamadnia@concordia.ca
"""
import uuid

View File

@ -1,13 +1,13 @@
"""
Node module
SPDX - License - Identifier: LGPL - 3.0 - or -later
Copyright © 2020 Project Author Guille Gutierrez guillermo.gutierrezmorote@concordia.ca
Copyright © 2021 Project Author Guille Gutierrez guillermo.gutierrezmorote@concordia.ca
Contributor Milad milad.aghamohamadnia@concordia.ca
"""
import uuid
from typing import List, TypeVar
from city_model_structure.attributes.time_series import TimeSeries
Edge = TypeVar('Edge')
@ -21,6 +21,7 @@ class Node:
self._name = name
self._id = None
self._edges = edges
self._time_series = None
@property
def name(self):
@ -43,7 +44,15 @@ class Node:
@property
def edges(self) -> List[Edge]:
"""
get edges delimited by the node
Get edges delimited by the node
:return: [Edge]
"""
return self._edges
@property
def time_series(self) -> TimeSeries:
"""
Add explanation here
:return: add type of variable here
"""
return self._time_series

View File

@ -0,0 +1,40 @@
"""
Record module
SPDX - License - Identifier: LGPL - 3.0 - or -later
Copyright © 2021 Project Author Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca
"""
class Record:
"""
Record class
"""
def __init__(self, time=None, value=None, flag=None):
self._time = time
self._value = value
self._flag = flag
@property
def time(self):
"""
Add explanation here
:return: add type of variable here
"""
return self._time
@property
def value(self):
"""
Add explanation here
:return: add type of variable here
"""
return self._value
@property
def flag(self):
"""
Add explanation here
:return: add type of variable here
"""
return self._flag

View File

@ -0,0 +1,34 @@
"""
Time series module
SPDX - License - Identifier: LGPL - 3.0 - or -later
Copyright © 2021 Project Author Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca
"""
from typing import List
from city_model_structure.attributes.record import Record
class TimeSeries:
"""
TimeSeries class
"""
def __init__(self, time_series_type=None, records=None):
self._time_series_type = time_series_type
self._records = records
@property
def time_series_type(self):
"""
Add explanation here
:return: add type of variable here
"""
return self._time_series_type
@property
def records(self) -> List[Record]:
"""
Add explanation here
:return: List[Record]
"""
return self._records

View File

@ -174,6 +174,8 @@ class Building(CityObject):
:return: [ThermalZone]
"""
if len(self._thermal_zones) == 0:
if self.storeys is None:
return []
for storey in self.storeys:
self._thermal_zones.append(storey.thermal_zone)
return self._thermal_zones
@ -194,6 +196,15 @@ class Building(CityObject):
"""
return self._year_of_construction
@year_of_construction.setter
def year_of_construction(self, value):
"""
Set building year of construction
:param value: int
"""
if value is not None:
self._year_of_construction = value
@property
def function(self) -> Union[None, str]:
"""

View File

@ -13,11 +13,29 @@ class InternalGains:
"""
def __init__(self):
self._type = None
self._average_internal_gain = None
self._convective_fraction = None
self._radiative_fraction = None
self._latent_fraction = None
@property
def type(self) -> Union[None, str]:
"""
Get internal gains type
:return: None or string
"""
return self._type
@type.setter
def type(self, value):
"""
Set internal gains type
:param value: string
"""
if value is not None:
self._type = str(value)
@property
def average_internal_gain(self) -> Union[None, float]:
"""
@ -30,7 +48,7 @@ class InternalGains:
def average_internal_gain(self, value):
"""
Set internal gains average internal gain in W/m2
:param value:float
:param value: float
"""
if value is not None:
self._average_internal_gain = float(value)

View File

@ -0,0 +1,56 @@
"""
Bus system module
SPDX - License - Identifier: LGPL - 3.0 - or -later
Copyright © 2021 Project Author Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca
"""
from typing import List
from city_model_structure.city_object import CityObject
from city_model_structure.attributes.polygon import Polygon
from city_model_structure.transport.bus_network import BusNetwork
from city_model_structure.transport.bus_node import BusNode
from city_model_structure.transport.bus import Bus
class BusSystem(CityObject):
"""
BusSystem(CityObject) class
"""
def __init__(self, name, lod, surfaces, city_lower_corner):
super().__init__(name, lod, surfaces, city_lower_corner)
self._bus_routes = None
self._bus_network = None
self._buses = None
self._restricted_polygons = None
@property
def bus_routes(self) -> List[BusNode]:
"""
Add explanation here
:return: [BusNode]
"""
return self._bus_routes
@property
def bus_network(self) -> BusNetwork:
"""
Add explanation here
:return: BusNetwork
"""
return self._bus_network
@property
def buses(self) -> List[Bus]:
"""
Add explanation here
:return: [Bus]
"""
return self._buses
@property
def restricted_polygons(self) -> List[Polygon]:
"""
Add explanation here
:return: [Polygon]
"""
return self._restricted_polygons

View File

@ -2,7 +2,6 @@
City module
SPDX - License - Identifier: LGPL - 3.0 - or -later
Copyright © 2020 Project Author Guille Gutierrez guillermo.gutierrezmorote@concordia.ca
Contributor Peter Yefi peteryefi@gmail.com
"""
from __future__ import annotations
import sys
@ -19,6 +18,7 @@ from city_model_structure.city_objects_cluster import CityObjectsCluster
from city_model_structure.buildings_cluster import BuildingsCluster
from city_model_structure.parts_consisting_building import PartsConsistingBuilding
from city_model_structure.subway_entrance import SubwayEntrance
from city_model_structure.fuel import Fuel
from helpers.geometry_helper import GeometryHelper
from helpers.location import Location
from city_model_structure.energy_system import EnergySystem
@ -50,6 +50,16 @@ class City:
self._city_objects_clusters = None
self._city_objects = None
self._energy_systems = None
self._fuels = None
@property
def fuels(self) -> [Fuel]:
return self._fuels
@fuels.setter
def fuels(self, value):
self._fuels = value
def _get_location(self) -> Location:
if self._location is None:
@ -262,12 +272,12 @@ class City:
selected_region_upper_corner = [center[0] + radius, center[1] + radius, center[2] + radius]
selected_region_city = City(selected_region_lower_corner, selected_region_upper_corner, srs_name=self.srs_name)
selected_region_city.climate_file = self.climate_file
# selected_region_city.climate_reference_city = self.climate_reference_city
# selected_region_city.climate_reference_city = self.climate_reference_city
for city_object in self.city_objects:
location = city_object.centroid
if location is not None:
distance = math.sqrt(math.pow(location[0] - center[0], 2) + math.pow(location[1] - center[1], 2)
+ math.pow(location[2] - center[2], 2))
distance = math.sqrt(math.pow(location[0]-center[0], 2) + math.pow(location[1]-center[1], 2)
+ math.pow(location[2]-center[2], 2))
if distance < radius:
selected_region_city.add_city_object(city_object)
return selected_region_city

View File

@ -1,7 +1,7 @@
"""
EnergySystem module
SPDX - License - Identifier: LGPL - 3.0 - or -later
Copyright © 2020 Project Author Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca
Copyright © 2021 Project Author Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca
Contributor Peter Yefi peteryefi@gmail.com
"""

View File

@ -0,0 +1,41 @@
"""
ConstructionFactory (before PhysicsFactory) retrieve the specific construction module for the given region
SPDX - License - Identifier: LGPL - 3.0 - or -later
Copyright © 2020 Project Author Atiya
"""
class Fuel:
def __init__(self, fuel_id, name, carbon_emission_factor, unit):
self._fuel_id = fuel_id
self._name = name
self._carbon_emission_factor = carbon_emission_factor
self._unit = unit
@property
def id(self):
"""
Get fuel id
"""
return self._fuel_id
@property
def name(self):
"""
Get fuel name
"""
return self._name
@property
def carbon_emission_factor(self):
"""
Get fuel carbon emission factor
"""
return self._carbon_emission_factor
@property
def unit(self):
"""
Get fuel units
"""
return self._unit

View File

@ -0,0 +1,23 @@
"""
LifeCycleAssessment retrieve the specific Life Cycle Assessment module for the given region
SPDX - License - Identifier: LGPL - 3.0 - or -later
Copyright © 2020 Project Author Atiya
"""
from city_model_structure.machine import Machine
class LcaCalculations:
"""
LCA Calculations class
"""
def __init__(self):
print("lca calculations class")
def emission_disposal_machines(self, ):
return Machine.work_efficiency * Machine.energy_consumption_rate * Machine.carbon_emission_factor
def emission_transportation(self, weight, distance ):
return weight * distance * Machine.energy_consumption_rate * Machine.carbon_emission_factor

View File

@ -0,0 +1,78 @@
"""
LifeCycleAssessment retrieve the specific Life Cycle Assessment module for the given region
SPDX - License - Identifier: LGPL - 3.0 - or -later
Copyright © 2020 Project Author Atiya
"""
class Machine:
"""
Machine class
"""
def __init__(self, machine_id, name, work_efficiency, work_efficiency_unit, energy_consumption_rate, energy_consumption_unit,
carbon_emission_factor, carbon_emission_unit):
self._machine_id = machine_id
self._name = name
self._work_efficiency = work_efficiency
self._work_efficiency_unit = work_efficiency_unit
self._energy_consumption_rate = energy_consumption_rate
self._energy_consumption_unit = energy_consumption_unit
self._carbon_emission_factor = carbon_emission_factor
self._carbon_emission_unit = carbon_emission_unit
@property
def id(self):
"""
Get machine id
"""
return self._machine_id
@property
def name(self):
"""
Get machine name
"""
return self._name
@property
def work_efficiency(self):
"""
Get machine work efficiency
"""
return self._work_efficiency
@property
def work_efficiency_unit(self):
"""
Get machine work efficiency unit
"""
return self._work_efficiency_unit
@property
def energy_consumption_rate(self):
"""
Get energy consumption rate
"""
return self._energy_consumption_rate
@property
def energy_consumption_unit(self):
"""
Get energy consumption unit
"""
return self._energy_consumption_unit
@property
def carbon_emission_factor(self):
"""
Get carbon emission factor
"""
return self._carbon_emission_factor
@property
def carbon_emission_unit(self):
"""
Get carbon emission unit
"""
return self._carbon_emission_unit

View File

@ -0,0 +1,118 @@
"""
LifeCycleAssessment retrieve the specific Life Cycle Assessment module for the given region
SPDX - License - Identifier: LGPL - 3.0 - or -later
Copyright © 2020 Project Author Atiya
"""
class Material:
"""
LCA Material class
"""
def __init__(self, material_name, material_id, type, density, density_unit, embodied_carbon, embodied_carbon_unit, recycling_ratio,
onsite_recycling_ratio, company_recycling_ratio, landfilling_ratio, cost, cost_unit):
self._material_name = material_name
self._material_id = material_id
self._type = type
self._density = density
self._density_unit = density_unit
self._embodied_carbon = embodied_carbon
self._embodied_carbon_unit = embodied_carbon_unit
self._recycling_ratio = recycling_ratio
self._onsite_recycling_ratio = onsite_recycling_ratio
self._company_recycling_ratio = company_recycling_ratio
self._landfilling_ratio = landfilling_ratio
self._cost = cost
self._cost_unit = cost_unit
@property
def material_name(self):
"""
Get material name
"""
return self._material_name
@property
def id(self):
"""
Get material id
"""
return self._material_id
@property
def type(self):
"""
Get material type
"""
return self._type
@property
def density(self):
"""
Get material density
"""
return self._density
@property
def density_unit(self):
"""
Get material density unit
"""
return self._density_unit
@property
def embodied_carbon(self):
"""
Get material embodied carbon
"""
return self._embodied_carbon
@property
def embodied_carbon_unit(self):
"""
Get material embodied carbon unit
"""
return self._embodied_carbon_unit
@property
def recycling_ratio(self):
"""
Get material recycling ratio
"""
return self._recycling_ratio
@property
def onsite_recycling_ratio(self):
"""
Get material onsite recycling ratio
"""
return self._onsite_recycling_ratio
@property
def company_recycling_ratio(self):
"""
Get material company recycling ratio
"""
return self._company_recycling_ratio
@property
def landfilling_ratio(self):
"""
Get material landfilling ratio
"""
return self._landfilling_ratio
@property
def cost(self):
"""
Get material cost
"""
return self._cost
@property
def cost_unit(self):
"""
Get material cost unit
"""
return self._cost_unit

View File

@ -1,9 +1,10 @@
"""
Network module
SPDX - License - Identifier: LGPL - 3.0 - or -later
Copyright © 2020 Project Author Guille Gutierrez guillermo.gutierrezmorote@concordia.ca
Copyright © 2021 Project Author Guille Gutierrez guillermo.gutierrezmorote@concordia.ca
Contributor Milad milad.aghamohamadnia@concordia.ca
"""
import uuid
from typing import List

View File

@ -0,0 +1,114 @@
"""
Bus module
SPDX - License - Identifier: LGPL - 3.0 - or -later
Copyright © 2021 Project Author Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca
"""
from city_model_structure.attributes.schedule import Schedule
class Bus:
"""
Bus class
"""
def __init__(self):
self._maintenance_time = None
self._charging_time = None
self._recovery_time = None
self._vehicle_type = None
self._energy_consumption = None
self._trips_schedule = None
self._capacity = None
self._maintenance_cost = None
self._investment_cost = None
self._charging_range = None
self._maximum_travel_range = None
@property
def maintenance_time(self):
"""
Add explanation here
:return: add type of variable here
"""
return self._maintenance_time
@property
def charging_time(self):
"""
Add explanation here
:return: add type of variable here
"""
return self._charging_time
@property
def recovery_time(self):
"""
Add explanation here
:return: add type of variable here
"""
return self.maintenance_time + self.charging_time
@property
def vehicle_type(self):
"""
Add explanation here
:return: add type of variable here
"""
return self._vehicle_type
@property
def energy_consumption(self):
"""
Add explanation here
:return: add type of variable here
"""
return self._energy_consumption
@property
def trips_schedule(self) -> Schedule:
"""
Add explanation here
:return: add type of variable here
"""
return self._trips_schedule
@property
def capacity(self):
"""
Add explanation here
:return: add type of variable here
"""
return self._capacity
@property
def maintenance_cost(self):
"""
Add explanation here
:return: add type of variable here
"""
return self._maintenance_cost
@property
def investment_cost(self):
"""
Add explanation here
:return: add type of variable here
"""
return self._investment_cost
@property
def charging_range(self):
"""
Add explanation here
:return: add type of variable here
"""
return self._charging_range
@property
def maximum_travel_range(self):
"""
Add explanation here
:return: add type of variable here
"""
return self._maximum_travel_range

View File

@ -0,0 +1,34 @@
"""
Bus depot module
SPDX - License - Identifier: LGPL - 3.0 - or -later
Copyright © 2021 Project Author Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca
"""
from city_model_structure.transport.bus_node import BusNode
class BusDepot(BusNode):
"""
BusDepot class
"""
def __init__(self, name, coordinates, edges=None):
super().__init__(name, coordinates, edges=edges, node_type='BusDepot')
self._number_of_charging_poles = None
self._number_of_available_buses = None
@property
def number_of_charging_poles(self):
"""
Add explanation here
:return: add type of variable here
"""
return self._number_of_charging_poles
@property
def number_of_available_buses(self):
"""
Add explanation here
:return: add type of variable here
"""
return self._number_of_available_buses

View File

@ -0,0 +1,46 @@
"""
Bus edge module
SPDX - License - Identifier: LGPL - 3.0 - or -later
Copyright © 2021 Project Author Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca
"""
from typing import List, TypeVar
from city_model_structure.attributes.edge import Edge
BusNode = TypeVar('BusNode')
class BusEdge(Edge):
"""
BusEdge class
Each edge is unidirectional and starts at the "from" node and ends at the "to" node
"""
def __init__(self, name, nodes, edge_type='BusEdge'):
super().__init__(name, nodes)
self._edge_type = edge_type
self._average_travel_time = None
@property
def edge_type(self):
"""
Get the edge type
:return: str
"""
return self._edge_type
@property
def nodes(self) -> List[BusNode]:
"""
Get delimiting nodes for the edge
:return: [BusNode]
"""
return self._nodes
@property
def average_travel_time(self):
"""
Add explanation here
:return: add type of variable here
"""
return self._average_travel_time

View File

@ -0,0 +1,43 @@
"""
Bus network module
SPDX - License - Identifier: LGPL - 3.0 - or -later
Copyright © 2021 Project Author Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca
"""
from typing import List
from city_model_structure.network import Network
from city_model_structure.transport.bus_edge import BusEdge
from city_model_structure.transport.bus_node import BusNode
class BusNetwork(Network):
"""
BusNetwork(Network) class
"""
def __init__(self, name, edges=None, nodes=None):
super().__init__(name, edges, nodes)
self._type = "BusNetwork"
@property
def type(self):
"""
Get network type
:return: str
"""
return self._type
@property
def edges(self) -> List[BusEdge]:
"""
Get network edges
:return: [BusEdge]
"""
return self._edges
@property
def nodes(self) -> List[BusNode]:
"""
Get network nodes
:return: [BusNode]
"""
return self._nodes

View File

@ -0,0 +1,55 @@
"""
Bus node module
SPDX - License - Identifier: LGPL - 3.0 - or -later
Copyright © 2021 Project Author Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca
"""
from typing import List, TypeVar
from city_model_structure.attributes.node import Node
from city_model_structure.attributes.point import Point
BusEdge = TypeVar('BusEdge')
class BusNode(Node):
"""
BusNode class
"""
def __init__(self, name, coordinates, node_type='BusNode', edges=None):
super().__init__(name, edges)
self._coordinates = coordinates
self._node_type = node_type
@property
def node_type(self):
"""
Get node type
:return: str
"""
return self._node_type
@property
def coordinates(self) -> Point:
"""
Get node coordinates
:return: Point
"""
return self._coordinates
@coordinates.setter
def coordinates(self, value):
"""
Set node coordinates
:param value: Point
"""
self._coordinates = value
@property
def edges(self) -> List[BusEdge]:
"""
get edges delimited by the node
:return: [BusEdge]
"""
return self._edges

View File

@ -0,0 +1,55 @@
"""
Bus stop module
SPDX - License - Identifier: LGPL - 3.0 - or -later
Copyright © 2021 Project Author Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca
"""
from typing import Union
from city_model_structure.transport.bus_node import BusNode
from city_model_structure.transport.fast_charging_infrastructure import FastChargingInfrastructure
from city_model_structure.attributes.schedule import Schedule
class BusStop(BusNode):
"""
BusStop class
"""
def __init__(self, name, coordinates, edges=None):
super().__init__(name, coordinates, edges=edges, node_type='BusStop')
self._time_table = None
self._average_hourly_passengers_demand = None
self._fast_charging_infrastructure = None
self._waiting_time = None
@property
def time_table(self):
"""
Add explanation here
:return: add type of variable here
"""
return self._time_table
@property
def average_hourly_passengers_demand(self) -> Schedule:
"""
Add explanation here
:return: Schedule
"""
return self._average_hourly_passengers_demand
@property
def fast_charging_infrastructure(self) -> Union[None, FastChargingInfrastructure]:
"""
Add explanation here
:return: FastChargingInfrastructure
"""
return self._fast_charging_infrastructure
@property
def waiting_time(self):
"""
Add explanation here
:return: add type of variable here
"""
return self._waiting_time

View File

@ -1,7 +1,7 @@
"""
Connection module
SPDX - License - Identifier: LGPL - 3.0 - or -later
Copyright © 2020 Project Author Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca
Copyright © 2021 Project Author Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca
Contributor Milad milad.aghamohamadnia@concordia.ca
Contributor Guille guille.gutierrezmorote@concordia.ca
"""

View File

@ -1,7 +1,7 @@
"""
Crossing module
SPDX - License - Identifier: LGPL - 3.0 - or -later
Copyright © 2020 Project Author Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca
Copyright © 2021 Project Author Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca
Contributor Milad milad.aghamohamadnia@concordia.ca
Contributor Guille guille.gutierrezmorote@concordia.ca
"""

View File

@ -0,0 +1,31 @@
"""
Fast charging infrastructure module
SPDX - License - Identifier: LGPL - 3.0 - or -later
Copyright © 2021 Project Author Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca
"""
class FastChargingInfrastructure:
"""
FastChargingInfrastructure class
"""
def __init__(self):
self._electrical_demand = None
self._losses_in_grid = None
@property
def electrical_demand(self):
"""
Add explanation here
:return: add type of variable here
"""
return self._electrical_demand
@property
def losses_in_grid(self):
"""
Add explanation here
:return: add type of variable here
"""
return self._losses_in_grid

View File

@ -1,7 +1,7 @@
"""
Join module
SPDX - License - Identifier: LGPL - 3.0 - or -later
Copyright © 2020 Project Author Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca
Copyright © 2021 Project Author Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca
Contributor Milad milad.aghamohamadnia@concordia.ca
Contributor Guille guille.gutierrezmorote@concordia.ca
"""

View File

@ -1,7 +1,7 @@
"""
Lane module
SPDX - License - Identifier: LGPL - 3.0 - or -later
Copyright © 2020 Project Author Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca
Copyright © 2021 Project Author Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca
Contributor Milad milad.aghamohamadnia@concordia.ca
"""

View File

@ -1,13 +1,16 @@
"""
Origin-Destination edge module
SPDX - License - Identifier: LGPL - 3.0 - or -later
Copyright © 2020 Project Author Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca
Copyright © 2021 Project Author Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca
"""
from typing import List, TypeVar
from city_model_structure.attributes.edge import Edge
from city_model_structure.attributes.schedule import Schedule
OriginDestinationNode = TypeVar('OriginDestinationNode')
class OriginDestinationEdge(Edge):
"""
@ -28,6 +31,14 @@ class OriginDestinationEdge(Edge):
"""
return self._edge_type
@property
def nodes(self) -> List[OriginDestinationNode]:
"""
Get delimiting nodes for the edge
:return: [OriginDestinationNode]
"""
return self._nodes
@property
def movement_schedule(self) -> Schedule:
"""

View File

@ -1,10 +1,13 @@
"""
Origin-Destination network module
SPDX - License - Identifier: LGPL - 3.0 - or -later
Copyright © 2020 Project Author Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca
Copyright © 2021 Project Author Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca
"""
from typing import List
from city_model_structure.network import Network
from city_model_structure.transport.origin_destination_edge import OriginDestinationEdge
from city_model_structure.transport.origin_destination_node import OriginDestinationNode
class OriginDestinationNetwork(Network):
@ -22,3 +25,19 @@ class OriginDestinationNetwork(Network):
:return: str
"""
return self._type
@property
def edges(self) -> List[OriginDestinationEdge]:
"""
Get network edges
:return: [OriginDestinationEdge]
"""
return self._edges
@property
def nodes(self) -> List[OriginDestinationNode]:
"""
Get network nodes
:return: [OriginDestinationNode]
"""
return self._nodes

View File

@ -1,15 +1,17 @@
"""
Origin-Destination node module
SPDX - License - Identifier: LGPL - 3.0 - or -later
Copyright © 2020 Project Author Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca
Copyright © 2021 Project Author Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca
"""
from typing import List
from typing import List, TypeVar
from city_model_structure.attributes.node import Node
from city_model_structure.attributes.point import Point
from city_model_structure.attributes.polygon import Polygon
from city_model_structure.city_object import CityObject
OriginDestinationEdge = TypeVar('OriginDestinationEdge')
class OriginDestinationNode(Node):
"""
@ -48,6 +50,14 @@ class OriginDestinationNode(Node):
"""
self._coordinates = value
@property
def edges(self) -> List[OriginDestinationEdge]:
"""
get edges delimited by the node
:return: [OriginDestinationEdge]
"""
return self._edges
@property
def polygon(self) -> Polygon:
"""

View File

@ -1,7 +1,7 @@
"""
Phase module
SPDX - License - Identifier: LGPL - 3.0 - or -later
Copyright © 2020 Project Author Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca
Copyright © 2021 Project Author Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca
Contributor Milad milad.aghamohamadnia@concordia.ca
"""

View File

@ -1,13 +1,14 @@
"""
Traffic edge module
SPDX - License - Identifier: LGPL - 3.0 - or -later
Copyright © 2020 Project Author Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca
Copyright © 2021 Project Author Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca
Contributor Milad milad.aghamohamadnia@concordia.ca
Contributor Guille guille.gutierrezmorote@concordia.ca
"""
from typing import List, Union
from city_model_structure.attributes.edge import Edge
from city_model_structure.transport.traffic_node import TrafficNode
from city_model_structure.transport.lane import Lane
@ -37,6 +38,14 @@ class TrafficEdge(Edge):
"""
return self._edge_type
@property
def nodes(self) -> List[TrafficNode]:
"""
Get delimiting nodes for the edge
:return: [TrafficNode]
"""
return self._nodes
@property
def lanes(self) -> List[Lane]:
"""

View File

@ -1,7 +1,7 @@
"""
Traffic light module
SPDX - License - Identifier: LGPL - 3.0 - or -later
Copyright © 2020 Project Author Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca
Copyright © 2021 Project Author Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca
Contributor Milad milad.aghamohamadnia@concordia.ca
Contributor Guille guille.gutierrezmorote@concordia.ca
"""

View File

@ -1,12 +1,15 @@
"""
Traffic network module
SPDX - License - Identifier: LGPL - 3.0 - or -later
Copyright © 2020 Project Author Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca
Copyright © 2021 Project Author Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca
Contributor Milad milad.aghamohamadnia@concordia.ca
Contributor Guille guille.gutierrezmorote@concordia.ca
"""
from typing import List
from city_model_structure.network import Network
from city_model_structure.transport.traffic_edge import TrafficEdge
from city_model_structure.transport.traffic_node import TrafficNode
class TrafficNetwork(Network):
@ -24,3 +27,19 @@ class TrafficNetwork(Network):
:return: str
"""
return self._type
@property
def edges(self) -> List[TrafficEdge]:
"""
Get network edges
:return: [TrafficEdge]
"""
return self._edges
@property
def nodes(self) -> List[TrafficNode]:
"""
Get network nodes
:return: [TrafficNode]
"""
return self._nodes

View File

@ -1,18 +1,19 @@
"""
TrafficNode module
SPDX - License - Identifier: LGPL - 3.0 - or -later
Copyright © 2020 Project Author Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca
Copyright © 2021 Project Author Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca
Contributor Milad milad.aghamohamadnia@concordia.ca
Contributor Guille guille.gutierrezmorote@concordia.ca
"""
from typing import List
from typing import List, TypeVar
from city_model_structure.attributes.edge import Edge
from city_model_structure.attributes.node import Node
from city_model_structure.attributes.point import Point
from city_model_structure.transport.connection import Connection
Connection = TypeVar('Connection')
TrafficEdge = TypeVar('TrafficEdge')
class TrafficNode(Node):
@ -55,6 +56,14 @@ class TrafficNode(Node):
"""
self._coordinates = value
@property
def edges(self) -> List[TrafficEdge]:
"""
get edges delimited by the node
:return: [TrafficEdge]
"""
return self._edges
@property
def prohibitions(self) -> [(Edge, Edge)]:
"""

View File

@ -1,7 +1,7 @@
"""
Walkway node module
SPDX - License - Identifier: LGPL - 3.0 - or -later
Copyright © 2020 Project Author Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca
Copyright © 2021 Project Author Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca
Contributor Milad milad.aghamohamadnia@concordia.ca
Contributor Guille guille.gutierrezmorote@concordia.ca
"""

View File

@ -0,0 +1,61 @@
"""
LifeCycleAssessment retrieve the specific Life Cycle Assessment module for the given region
SPDX - License - Identifier: LGPL - 3.0 - or -later
Copyright © 2020 Project Author Atiya
"""
class Vehicle:
"""
Vehicle class
"""
def __init__(self, vehicle_id, name, fuel_consumption_rate, fuel_consumption_unit, carbon_emission_factor, carbon_emission_factor_unit):
self._vehicle_id = vehicle_id
self._name = name
self._fuel_consumption_rate = fuel_consumption_rate
self._fuel_consumption_unit = fuel_consumption_unit
self._carbon_emission_factor = carbon_emission_factor
self._carbon_emission_factor_unit = carbon_emission_factor_unit
@property
def id(self):
"""
Get vehicle id
"""
return self._vehicle_id
@property
def name(self):
"""
Get vehicle name
"""
return self._name
@property
def fuel_consumption_rate(self):
"""
Get vehicle fuel consumption rate
"""
return self._fuel_consumption_rate
@property
def fuel_consumption_unit(self):
"""
Get fuel consumption unit
"""
return self._fuel_consumption_unit
@property
def carbon_emission_factor(self):
"""
Get vehicle carbon emission factor
"""
return self._carbon_emission_factor
@property
def carbon_emission_unit(self):
"""
Get carbon emission units
"""
return self._carbon_emission_unit

View File

@ -3,3 +3,11 @@
max_location_distance_for_shared_walls = 5.0
min_coordinate = -1.7976931348623157e+308
max_coordinate = 1.7976931348623157e+308
comnet_lighting_latent = 0
comnet_lighting_convective = 0.5
comnet_lighting_radiant = 0.5
comnet_occupancy_sensible_convective = 0.9
comnet_occupancy_sensible_radiant = 0.1
comnet_plugs_latent = 0
comnet_plugs_convective = 0.75
comnet_plugs_radiant = 0.25

View File

@ -0,0 +1,123 @@
<?xml version="0.1" encoding="UTF-8" standalone="yes"?>
<buildingUsageLibrary>
<name>Ashrae values</name>
<description>Library created by Sanam from ANSI/ASHRAE Standard 62-2001</description>
<zoneUsageType>
<id>assembly</id>
<occupancy>
<occupancyDensity units="persons/m2">0.15</occupancyDensity>
</occupancy>
<endUses>
<ventilation>
<minimumVentilationRate units="cfm/person">5</minimumVentilationRate>
</ventilation>
</endUses>
</zoneUsageType>
<zoneUsageType>
<id>health</id>
<occupancy>
<occupancyDensity units="persons/m2">0.1</occupancyDensity>
</occupancy>
<endUses>
<ventilation>
<minimumVentilationRate units="cfm/person">20</minimumVentilationRate>
</ventilation>
</endUses>
</zoneUsageType>
<zoneUsageType>
<id>hotel</id>
<occupancy>
<occupancyDensity units="persons/m2">0.11</occupancyDensity>
</occupancy>
<endUses>
<ventilation>
<minimumVentilationRate units="cfm/person">5</minimumVentilationRate>
</ventilation>
</endUses>
</zoneUsageType>
<zoneUsageType>
<id>manufacturing</id>
<occupancy>
<occupancyDensity units="persons/m2">0.07</occupancyDensity>
</occupancy>
<endUses>
<ventilation>
<minimumVentilationRate units="cfm/person">10</minimumVentilationRate>
</ventilation>
</endUses>
</zoneUsageType>
<zoneUsageType>
<id>office</id>
<occupancy>
<occupancyDensity units="persons/m2">0.05</occupancyDensity>
</occupancy>
<endUses>
<ventilation>
<minimumVentilationRate units="cfm/person">5</minimumVentilationRate>
</ventilation>
</endUses>
</zoneUsageType>
<zoneUsageType>
<id>restaurant</id>
<occupancy>
<occupancyDensity units="persons/m2">0.7</occupancyDensity>
</occupancy>
<endUses>
<ventilation>
<minimumVentilationRate units="cfm/person">7.5</minimumVentilationRate>
</ventilation>
</endUses>
</zoneUsageType>
<zoneUsageType>
<id>retail</id>
<occupancy>
<occupancyDensity units="persons/m2">0.2</occupancyDensity>
</occupancy>
<endUses>
<ventilation>
<minimumVentilationRate units="cfm/person">7.5</minimumVentilationRate>
</ventilation>
</endUses>
</zoneUsageType>
<zoneUsageType>
<id>school</id>
<occupancy>
<occupancyDensity units="persons/m2">0.25</occupancyDensity>
</occupancy>
<endUses>
<ventilation>
<minimumVentilationRate units="cfm/person">10</minimumVentilationRate>
</ventilation>
</endUses>
</zoneUsageType>
<zoneUsageType>
<id>lab</id>
<occupancy>
<occupancyDensity units="persons/m2">0.25</occupancyDensity>
</occupancy>
<endUses>
<ventilation>
<minimumVentilationRate units="cfm/person">10</minimumVentilationRate>
</ventilation>
</endUses>
</zoneUsageType>
<zoneUsageType>
<id>residential</id>
<endUses>
<ventilation>
<minimumVentilationRate units="cfm/person">5</minimumVentilationRate>
</ventilation>
</endUses>
</zoneUsageType>
<zoneUsageType>
<id>gymnasium</id>
<occupancy>
<occupancyDensity units="persons/m2">0.3</occupancyDensity>
</occupancy>
<endUses>
<ventilation>
<minimumVentilationRate units="cfm/person">7.5</minimumVentilationRate>
</ventilation>
</endUses>
</zoneUsageType>
</buildingUsageLibrary>

View File

@ -0,0 +1,573 @@
<?xml version="1.0" encoding="utf-8"?>
<library name="LCA">
<Fuels>
<fuel id="1" name= "Black_coal">
<carbon_emission_factor unit= "kgCO2/ kWh" > 0.32 </carbon_emission_factor>
</fuel>
<fuel id="2" name= "Brown_coal">
<carbon_emission_factor unit= "kgCO2/ kWh"> 0.4 </carbon_emission_factor>
</fuel>
<fuel id="3" name= "Brown_coal_briquette">
<carbon_emission_factor unit= "kgCO2/ kWh"> 0.4 </carbon_emission_factor>
</fuel>
<fuel id="4" name= "Brown_coal_coke">
<carbon_emission_factor unit= "kgCO2/ kWh"> 0.5 </carbon_emission_factor>
</fuel>
<fuel id="5" name= "CNG">
<carbon_emission_factor unit= "kgCO2/ kWh"> 0.18 </carbon_emission_factor>
</fuel>
<fuel id="6" name= "Coal_coke">
<carbon_emission_factor unit= "kgCO2/ kWh"> 0.39 </carbon_emission_factor>
</fuel>
<fuel id="7" name= "Crude_oil">
<carbon_emission_factor unit= "kgCO2/ kWh"> 0.27 </carbon_emission_factor>
</fuel>
<fuel id="8" name= "Diesel_Machine">
<carbon_emission_factor unit= "kgCO2/ liter"> 4.16 </carbon_emission_factor>
</fuel>
<fuel id="9" name= "Diesel_Vehicle">
<carbon_emission_factor unit= "kgCO2/ liter"> 2.24 </carbon_emission_factor>
</fuel>
<fuel id="10" name= "Ethane">
<carbon_emission_factor unit= "kgCO2/ kWh"> 0.2 </carbon_emission_factor>
</fuel>
<fuel id="11" name= "Fuel_oil">
<carbon_emission_factor unit= "kgCO2/ liter"> 3.19 </carbon_emission_factor>
</fuel>
<fuel id="12" name= "Gas_flared">
<carbon_emission_factor unit= "kgCO2/ kg"> 3.53 </carbon_emission_factor>
</fuel>
<fuel id="13" name= "Kerosene">
<carbon_emission_factor unit= "kgCO2/ kWh"> 0.27 </carbon_emission_factor>
</fuel>
<fuel id="14" name= "LNG">
<carbon_emission_factor unit= "kgCO2/ kWh"> 0.21 </carbon_emission_factor>
</fuel>
<fuel id="15" name= "LPG">
<carbon_emission_factor unit= "kgCO2/ liter"> 1.69 </carbon_emission_factor>
</fuel>
<fuel id="16" name= "Natural_gas">
<carbon_emission_factor unit= "kgCO2/ kWh"> 0.21 </carbon_emission_factor>
</fuel>
<fuel id="17" name= "Petroleum_coke">
<carbon_emission_factor unit= "kgCO2/ kWh"> 0.35 </carbon_emission_factor>
</fuel>
<fuel id="18" name= "UNG">
<carbon_emission_factor unit= "kgCO2/ kWh"> 0.18 </carbon_emission_factor>
</fuel>
<fuel id="19" name= "Biodiesel">
<carbon_emission_factor unit= "kgCO2/ liter"> 0.81 </carbon_emission_factor>
</fuel>
<fuel id="20" name= "Bioethanol">
<carbon_emission_factor unit= "kgCO2/ kg"> 1.21 </carbon_emission_factor>
</fuel>
<fuel id="21" name= "Biogas">
<carbon_emission_factor unit= "kgCO2/ kg"> 1.61 </carbon_emission_factor>
</fuel>
<fuel id="22" name= "Biomass">
<carbon_emission_factor unit= "kgCO2/ kg"> 0.11 </carbon_emission_factor>
</fuel>
<fuel id="23" name= "Methanol">
<carbon_emission_factor unit= "kgCO2/ kg"> 0.3 </carbon_emission_factor>
</fuel>
<fuel id="24" name= "Petrol_eightyfive_ethanol">
<carbon_emission_factor unit= "kgCO2/ kg"> 1.16 </carbon_emission_factor>
</fuel>
<fuel id="25" name= "Steam">
<carbon_emission_factor unit= "kgCO2/ kg"> 0.61 </carbon_emission_factor>
</fuel>
</Fuels>
<Machines>
<machine name= "Rock_drill">
<work_efficiency unit= "h/m3"> 0.347 </work_efficiency>
<energy_consumption_rate unit= "kWh/h"> 16.5 </energy_consumption_rate>
<carbon_emission_factor unit= "kgCO2/kWh"> 0.918 </carbon_emission_factor>
</machine>
<machine name= "Hydraulic_hammer">
<work_efficiency unit= "h/m3"> 0.033 </work_efficiency>
<energy_consumption_rate unit= "kg_fuel/h"> 25.2 </energy_consumption_rate>
<carbon_emission_factor unit= "kgCO2/kg_fuel"> 4.16 </carbon_emission_factor>
</machine>
<machine name= "Crawler_bulldozer">
<work_efficiency unit= "h/m3"> 0.027 </work_efficiency>
<energy_consumption_rate unit= "kg_fuel/h3"> 16.8 </energy_consumption_rate>
<carbon_emission_factor unit= "kgCO2/kg_fuel"> 2.239 </carbon_emission_factor>
</machine>
<machine name= "Crawler_excavator">
<work_efficiency unit= "h/m3"> 0.023 </work_efficiency>
<energy_consumption_rate unit= "kg_fuel/h"> 16.8 </energy_consumption_rate>
<carbon_emission_factor unit= "kgCO2/kg_fuel"> 2.239 </carbon_emission_factor>
</machine>
<machine name= "Crawler_hydraulic_rock_crusher">
<work_efficiency unit= "h/m3"> 0.109 </work_efficiency>
<energy_consumption_rate unit= "kg_fuel/h"> 25.2 </energy_consumption_rate>
<carbon_emission_factor unit= "kgCO2/kg_fuel"> 2.239 </carbon_emission_factor>
</machine>
<machine name= "Mobile_recycling_equipment">
<work_efficiency unit= "h/ton"> 0.003 </work_efficiency>
<energy_consumption_rate unit= "kg_fuel/h"> 16.4 </energy_consumption_rate>
<carbon_emission_factor unit= "kgCO2/kg_fuel"> 4.16 </carbon_emission_factor>
</machine>
<machine name= "Vibration_feeder">
<work_efficiency unit= "h/ton"> 0.002 </work_efficiency>
<energy_consumption_rate unit= "kWh/h"> 11 </energy_consumption_rate>
<carbon_emission_factor unit= "kgCO2/kWh"> 0.918 </carbon_emission_factor>
</machine>
<machine name= "Jaw_crusher">
<work_efficiency unit= "h/ton"> 0.002 </work_efficiency>
<energy_consumption_rate unit= "kWh/h"> 90 </energy_consumption_rate>
<carbon_emission_factor unit= "kgCO2/kWh"> 0.918 </carbon_emission_factor>
</machine>
<machine name= "Electromagnetic_separator">
<work_efficiency unit= "h/ton"> 0.002 </work_efficiency>
<energy_consumption_rate unit= "kWh/h"> 10 </energy_consumption_rate>
<carbon_emission_factor unit= "kgCO2/kWh"> 0.918 </carbon_emission_factor>
</machine>
<machine name= "Wind_sorting_machine">
<work_efficiency unit= "h/ton"> 0.002 </work_efficiency>
<energy_consumption_rate unit= "kWh/h"> 11 </energy_consumption_rate>
<carbon_emission_factor unit= "kgCO2/kWh"> 0.918 </carbon_emission_factor>
</machine>
<machine name= "Impact_crusher">
<work_efficiency unit= "h/ton"> 0.002 </work_efficiency>
<energy_consumption_rate unit= "kWh/h"> 132 </energy_consumption_rate>
<carbon_emission_factor unit= "kgCO2/kWh"> 0.918 </carbon_emission_factor>
</machine>
<machine name= "Double_circular_vibrating_plug">
<work_efficiency unit= " h/ton "> 0.002 </work_efficiency>
<energy_consumption_rate unit= "kWh/h"> 15 </energy_consumption_rate>
<carbon_emission_factor unit= "kgCO2/kW"> 0.918 </carbon_emission_factor>
</machine>
<machine name= "Spiral_sand_washing_machine">
<work_efficiency unit= "h/ton"> 0.002 </work_efficiency>
<energy_consumption_rate unit= "kWh/h"> 5.5 </energy_consumption_rate>
<carbon_emission_factor unit= "kgCO2/kWh"> 0.918 </carbon_emission_factor>
</machine>
<machine name= "Conveyor_belts">
<work_efficiency unit= "h/ton"> 0.002 </work_efficiency>
<energy_consumption_rate unit= "kWh/h"> 22.5 </energy_consumption_rate>
<carbon_emission_factor unit= "kgCO2/kWh"> 0.918 </carbon_emission_factor>
</machine>
</Machines>
<Vehicles>
<vehicle name= "Freight_lorry_18_ton">
<fuel_consumption_rate unit= "kg_fuel/ton.km"> 0.0123 </fuel_consumption_rate>
<carbon_emission_factor unit= "kgCO2/kg_fuel"> 2.239 </carbon_emission_factor>
</vehicle>
<vehicle name= "Freight_train">
<fuel_consumption_rate unit= "kWh/ton.km"> 0.042 </fuel_consumption_rate>
<carbon_emission_factor unit= "kgCO2/kWh"> 0.918 </carbon_emission_factor>
</vehicle>
<vehicle name= "Freight_ship">
<fuel_consumption_rate unit= "kWh/ton.km"> 0.01 </fuel_consumption_rate>
<carbon_emission_factor unit= "kgCO2/kWh"> 1.00000 </carbon_emission_factor>
</vehicle>
<vehicle name= "Freight_Air">
<fuel_consumption_rate unit= "kWh/ton.km"> 1.3 </fuel_consumption_rate>
<carbon_emission_factor unit= "kgCO2/kWh"> 1.00000 </carbon_emission_factor>
</vehicle>
</Vehicles>
<Building_materials>
<Bricks>
<brick id="1" type= "clay brick">
<density unit= "ton/m3"> 1.8 </density>
<embodied_carbon unit= "kgCO2/ton"> 560 </embodied_carbon>
<recycling_ratio> 0.8 </recycling_ratio>
<onsite_recycling_ratio> 0.3 </onsite_recycling_ratio>
<company_recycling_ratio> 0.7 </company_recycling_ratio>
<landfilling_ratio> 0.2 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</brick>
<brick id="2" type= "light clay brick">
<density unit= "ton/m3"> 1.2 </density>
<embodied_carbon unit= "kgCO2/ton"> 310 </embodied_carbon>
<recycling_ratio> 0.8 </recycling_ratio>
<onsite_recycling_ratio> 0.3 </onsite_recycling_ratio>
<company_recycling_ratio> 0.7 </company_recycling_ratio>
<landfilling_ratio> 0.2 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</brick>
<brick id="3" type= "refractory">
<density unit= "ton/m3"> 2 </density>
<embodied_carbon unit= "kgCO2/ton"> 3080 </embodied_carbon>
<recycling_ratio> 0.8 </recycling_ratio>
<onsite_recycling_ratio> 0.3 </onsite_recycling_ratio>
<company_recycling_ratio> 0.7 </company_recycling_ratio>
<landfilling_ratio> 0.2 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</brick>
<brick id="4" type= "sand-lime brick">
<density unit= "ton/m3"> 1.4 </density>
<embodied_carbon unit= "kgCO2/ton"> 300 </embodied_carbon>
<recycling_ratio> 0.8 </recycling_ratio>
<onsite_recycling_ratio> 0.3 </onsite_recycling_ratio>
<company_recycling_ratio> 0.7 </company_recycling_ratio>
<landfilling_ratio> 0.2 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</brick>
</Bricks>
<Concretes>
<concrete id="1" type= "light weight expanded clay">
<density unit= "ton/m3"> 1.6 </density>
<embodied_carbon unit= "kgCO2/ton"> 900 </embodied_carbon>
<recycling_ratio> 0.8 </recycling_ratio>
<onsite_recycling_ratio> 0 </onsite_recycling_ratio>
<company_recycling_ratio> 1 </company_recycling_ratio>
<landfilling_ratio> 0.2 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</concrete>
<concrete id="2" type= "lightweight Expanded perlite">
<density unit= "ton/m3"> 1.6 </density>
<embodied_carbon unit= "kgCO2/ton"> 2340 </embodied_carbon>
<recycling_ratio> 0.8 </recycling_ratio>
<onsite_recycling_ratio> 0 </onsite_recycling_ratio>
<company_recycling_ratio> 1 </company_recycling_ratio>
<landfilling_ratio> 0.2 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</concrete>
<concrete id="3" type= "lightweight expanded vermiculite">
<density unit= "ton/m3"> 1.6 </density>
<embodied_carbon unit= "kgCO2/ton"> 1570 </embodied_carbon>
<recycling_ratio> 0.8 </recycling_ratio>
<onsite_recycling_ratio> 0 </onsite_recycling_ratio>
<company_recycling_ratio> 1 </company_recycling_ratio>
<landfilling_ratio> 0.2 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</concrete>
<concrete id="4" type= "lightweight polystyrene">
<density unit= "ton/m3"> 1.4 </density>
<embodied_carbon unit= "kgCO2/ton"> 1840 </embodied_carbon>
<recycling_ratio> 0.8 </recycling_ratio>
<onsite_recycling_ratio> 0 </onsite_recycling_ratio>
<company_recycling_ratio> 1 </company_recycling_ratio>
<landfilling_ratio> 0.2 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</concrete>
<concrete id="5" type= "lightweight pumice">
<density unit= "ton/m3"> 1.3 </density>
<embodied_carbon unit= "kgCO2/ton"> 410 </embodied_carbon>
<recycling_ratio> 0.8 </recycling_ratio>
<onsite_recycling_ratio> 0 </onsite_recycling_ratio>
<company_recycling_ratio> 1 </company_recycling_ratio>
<landfilling_ratio> 0.2 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</concrete>
<concrete id="6" type= "concrete 20 MPa">
<density unit= "ton/m3"> 2.3 </density>
<embodied_carbon unit= "kgCO2/ton"> 160 </embodied_carbon>
<recycling_ratio> 0.8 </recycling_ratio>
<onsite_recycling_ratio> 0 </onsite_recycling_ratio>
<company_recycling_ratio> 1 </company_recycling_ratio>
<landfilling_ratio> 0.2 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</concrete>
<concrete id="7" type= "concrete 25 MPa">
<density unit= "ton/m3"> 2.3 </density>
<embodied_carbon unit= "kgCO2/ton"> 170 </embodied_carbon>
<recycling_ratio> 0.8 </recycling_ratio>
<onsite_recycling_ratio> 0 </onsite_recycling_ratio>
<company_recycling_ratio> 1 </company_recycling_ratio>
<landfilling_ratio> 0.2 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</concrete>
<concrete id="8" type= "concrete 30-32 MPa">
<density unit= "ton/m3"> 2.3 </density>
<embodied_carbon unit= "kgCO2/ton"> 230 </embodied_carbon>
<recycling_ratio> 0.8 </recycling_ratio>
<onsite_recycling_ratio> 0 </onsite_recycling_ratio>
<company_recycling_ratio> 1 </company_recycling_ratio>
<landfilling_ratio> 0.2 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</concrete>
<concrete id="9" type= "concrete 35 MPae">
<density unit= "ton/m3"> 2.4 </density>
<embodied_carbon unit= "kgCO2/ton"> 240 </embodied_carbon>
<recycling_ratio> 0.8 </recycling_ratio>
<onsite_recycling_ratio> 0 </onsite_recycling_ratio>
<company_recycling_ratio> 1 </company_recycling_ratio>
<landfilling_ratio> 0.2 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</concrete>
<concrete id="10" type= "concrete 50 MPa">
<density unit= "ton/m3"> 2.4 </density>
<embodied_carbon unit= "kgCO2/ton"> 280 </embodied_carbon>
<recycling_ratio> 0.8 </recycling_ratio>
<onsite_recycling_ratio> 0 </onsite_recycling_ratio>
<company_recycling_ratio> 1 </company_recycling_ratio>
<landfilling_ratio> 0.2 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</concrete>
<concrete id="11" type= "concrete block">
<density unit= "ton/m3"> 2.3 </density>
<embodied_carbon unit= "kgCO2/ton"> 170 </embodied_carbon>
<recycling_ratio> 0.8 </recycling_ratio>
<onsite_recycling_ratio> 0 </onsite_recycling_ratio>
<company_recycling_ratio> 1 </company_recycling_ratio>
<landfilling_ratio> 0.2 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</concrete>
<concrete id="12" type= "concrete roof tile">
<density unit= "ton/m3"> 1.2 </density>
<embodied_carbon unit= "kgCO2/ton"> 440 </embodied_carbon>
<recycling_ratio> 0.8 </recycling_ratio>
<onsite_recycling_ratio> 0 </onsite_recycling_ratio>
<company_recycling_ratio> 1 </company_recycling_ratio>
<landfilling_ratio> 0.2 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</concrete>
</Concretes>
<glasses>
<glass id="1" type= "flat glass, coated">
<density unit= "ton/m3"> 2.58 </density>
<embodied_carbon unit= "kgCO2/ton"> 2660 </embodied_carbon>
<recycling_ratio> 0.95 </recycling_ratio>
<onsite_recycling_ratio> 0 </onsite_recycling_ratio>
<company_recycling_ratio> 1 </company_recycling_ratio>
<landfilling_ratio> 0.05 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</glass>
<glass id="2" type= "glass fibre">
<density unit= "ton/m3"> 2.58 </density>
<embodied_carbon unit= "kgCO2/ton"> 5260 </embodied_carbon>
<recycling_ratio> 0.95 </recycling_ratio>
<onsite_recycling_ratio> 0 </onsite_recycling_ratio>
<company_recycling_ratio> 1 </company_recycling_ratio>
<landfilling_ratio> 0.05 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</glass>
</glasses>
<Insulations>
<Insulation id="1" type= "cellulose fibre">
<density unit= "ton/m3"> 0.06 </density>
<embodied_carbon unit= "kgCO2/ton"> 1760 </embodied_carbon>
<recycling_ratio> 0.9 </recycling_ratio>
<onsite_recycling_ratio> 0 </onsite_recycling_ratio>
<company_recycling_ratio> 1 </company_recycling_ratio>
<landfilling_ratio> 0.1 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</Insulation>
<Insulation id="2" type= "cork slab">
<density unit= "ton/m3"> 0.122 </density>
<embodied_carbon unit= "kgCO2/ton"> 3080 </embodied_carbon>
<recycling_ratio> 0.9 </recycling_ratio>
<onsite_recycling_ratio> 0 </onsite_recycling_ratio>
<company_recycling_ratio> 1 </company_recycling_ratio>
<landfilling_ratio> 0.1 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</Insulation>
<Insulation id="3" type= "polystyren foam">
<density unit= "ton/m3"> 0.028 </density>
<embodied_carbon unit= "kgCO2/ton"> 3180 </embodied_carbon>
<recycling_ratio> 0.9 </recycling_ratio>
<onsite_recycling_ratio> 0 </onsite_recycling_ratio>
<company_recycling_ratio> 1 </company_recycling_ratio>
<landfilling_ratio> 0.1 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</Insulation>
<Insulation id="4" type= "polystyrene 10% recycled">
<density unit= "ton/m3"> 0.024 </density>
<embodied_carbon unit= "kgCO2/ton"> 5140 </embodied_carbon>
<recycling_ratio> 0.9 </recycling_ratio>
<onsite_recycling_ratio> 0 </onsite_recycling_ratio>
<company_recycling_ratio> 1 </company_recycling_ratio>
<landfilling_ratio> 0.1 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</Insulation>
<Insulation id="5" type= "stone wool">
<density unit= "ton/m3"> 0.1 </density>
<embodied_carbon unit= "kgCO2/ton"> 6040 </embodied_carbon>
<recycling_ratio> 0.9 </recycling_ratio>
<onsite_recycling_ratio> 0 </onsite_recycling_ratio>
<company_recycling_ratio> 1 </company_recycling_ratio>
<landfilling_ratio> 0.1 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</Insulation>
<Insulation id="6" type= "foam glass">
<density unit= "ton/m3"> 0.3 </density>
<embodied_carbon unit= "kgCO2/ton"> 5380 </embodied_carbon>
<recycling_ratio> 0.9 </recycling_ratio>
<onsite_recycling_ratio> 0 </onsite_recycling_ratio>
<company_recycling_ratio> 1 </company_recycling_ratio>
<landfilling_ratio> 0.1 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</Insulation>
<Insulation id="7" type= "glass wool mat">
<density unit= "ton/m3"> 0.032 </density>
<embodied_carbon unit= "kgCO2/ton"> 2150 </embodied_carbon>
<recycling_ratio> 0.9 </recycling_ratio>
<onsite_recycling_ratio> 0 </onsite_recycling_ratio>
<company_recycling_ratio> 1 </company_recycling_ratio>
<landfilling_ratio> 0.1 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</Insulation>
</Insulations>
<woods>
<wood id="1" type= "fiberboard, hard">
<density unit= "ton/m3"> 0.9 </density>
<embodied_carbon unit= "kgCO2/ton"> 3420 </embodied_carbon>
<recycling_ratio> 0.6 </recycling_ratio>
<onsite_recycling_ratio> 0 </onsite_recycling_ratio>
<company_recycling_ratio> 1 </company_recycling_ratio>
<landfilling_ratio> 0.4 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</wood>
<wood id="2" type= "three layerd laminated board">
<density unit= "ton/m3"> 0.7 </density>
<embodied_carbon unit= "kgCO2/ton"> 1430 </embodied_carbon>
<recycling_ratio> 0.6 </recycling_ratio>
<onsite_recycling_ratio> 0 </onsite_recycling_ratio>
<company_recycling_ratio> 1 </company_recycling_ratio>
<landfilling_ratio> 0.4 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</wood>
<wood id="3" type= "fibreboard, soft">
<density unit= "ton/m3"> 0.65 </density>
<embodied_carbon unit= "kgCO2/ton"> 2780 </embodied_carbon>
<recycling_ratio> 0.6 </recycling_ratio>
<onsite_recycling_ratio> 0 </onsite_recycling_ratio>
<company_recycling_ratio> 1 </company_recycling_ratio>
<landfilling_ratio> 0.4 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</wood>
<wood id="4" type= "plywood">
<density unit= "ton/m3"> 0.72 </density>
<embodied_carbon unit= "kgCO2/ton"> 2190 </embodied_carbon>
<recycling_ratio> 0.6 </recycling_ratio>
<onsite_recycling_ratio> 0 </onsite_recycling_ratio>
<company_recycling_ratio> 1 </company_recycling_ratio>
<landfilling_ratio> 0.4 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</wood>
</woods>
<coverings>
<covering id="1" type= "acrylic filler">
<density unit= "ton/m3"> 1.43 </density>
<embodied_carbon unit= "kgCO2/ton"> 1070 </embodied_carbon>
<recycling_ratio> 0 </recycling_ratio>
<onsite_recycling_ratio> 0 </onsite_recycling_ratio>
<company_recycling_ratio> 0 </company_recycling_ratio>
<landfilling_ratio> 1 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</covering>
<covering id="2" type= "anhydrite floor">
<density unit= "ton/m3"> 1.43 </density>
<embodied_carbon unit= "kgCO2/ton"> 240 </embodied_carbon>
<recycling_ratio> 0 </recycling_ratio>
<onsite_recycling_ratio> 0 </onsite_recycling_ratio>
<company_recycling_ratio> 0 </company_recycling_ratio>
<landfilling_ratio> 1 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</covering>
<covering id="3" type= "base plaster">
<density unit= "ton/m3"> 1.43 </density>
<embodied_carbon unit= "kgCO2/ton"> 430 </embodied_carbon>
<recycling_ratio> 0 </recycling_ratio>
<onsite_recycling_ratio> 0 </onsite_recycling_ratio>
<company_recycling_ratio> 0 </company_recycling_ratio>
<landfilling_ratio> 1 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</covering>
<covering id="4" type= "cement cast plaster floor">
<density unit= "ton/m3"> 1.43 </density>
<embodied_carbon unit= "kgCO2/ton"> 340 </embodied_carbon>
<recycling_ratio> 0 </recycling_ratio>
<onsite_recycling_ratio> 0 </onsite_recycling_ratio>
<company_recycling_ratio> 0 </company_recycling_ratio>
<landfilling_ratio> 1 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</covering>
<covering id="5" type= "cement tile">
<density unit= "ton/m3"> 1.2 </density>
<embodied_carbon unit= "kgCO2/ton"> 440 </embodied_carbon>
<recycling_ratio> 0.8 </recycling_ratio>
<onsite_recycling_ratio> 0 </onsite_recycling_ratio>
<company_recycling_ratio> 1 </company_recycling_ratio>
<landfilling_ratio> 0.2 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</covering>
<covering id="6" type= "ceramic tile">
<density unit= "ton/m3"> 2.1 </density>
<embodied_carbon unit= "kgCO2/ton"> 1410 </embodied_carbon>
<recycling_ratio> 0.8 </recycling_ratio>
<onsite_recycling_ratio> 0 </onsite_recycling_ratio>
<company_recycling_ratio> 1 </company_recycling_ratio>
<landfilling_ratio> 0.2 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</covering>
<covering id="7" type= "clay plaster">
<density unit= "ton/m3"> 1.43 </density>
<embodied_carbon unit= "kgCO2/ton"> 250 </embodied_carbon>
<recycling_ratio> 0 </recycling_ratio>
<onsite_recycling_ratio> 0 </onsite_recycling_ratio>
<company_recycling_ratio> 0 </company_recycling_ratio>
<landfilling_ratio> 1 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</covering>
<covering id="7" type= "fiber cement corrugated slab">
<density unit= "ton/m3"> 1.44 </density>
<embodied_carbon unit= "kgCO2/ton"> 1480 </embodied_carbon>
<recycling_ratio> 0.8 </recycling_ratio>
<onsite_recycling_ratio> 0 </onsite_recycling_ratio>
<company_recycling_ratio> 1 </company_recycling_ratio>
<landfilling_ratio> 0.2 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</covering>
<covering id="7" type= "fiber cement facing tile">
<density unit= "ton/m3"> 1.44 </density>
<embodied_carbon unit= "kgCO2/ton"> 2220 </embodied_carbon>
<recycling_ratio> 0.8 </recycling_ratio>
<onsite_recycling_ratio> 0 </onsite_recycling_ratio>
<company_recycling_ratio> 1 </company_recycling_ratio>
<landfilling_ratio> 0.2 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</covering>
<covering id="7" type= "gypsum fibreboard">
<density unit= "ton/m3"> 1.27 </density>
<embodied_carbon unit= "kgCO2/ton"> 3960 </embodied_carbon>
<recycling_ratio> 0.8 </recycling_ratio>
<onsite_recycling_ratio> 0 </onsite_recycling_ratio>
<company_recycling_ratio> 1 </company_recycling_ratio>
<landfilling_ratio> 0.2 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</covering>
<covering id="7" type= "gypsum plaster board">
<density unit= "ton/m3"> 1.15 </density>
<embodied_carbon unit= "kgCO2/ton"> 760 </embodied_carbon>
<recycling_ratio> 0.8 </recycling_ratio>
<onsite_recycling_ratio> 0 </onsite_recycling_ratio>
<company_recycling_ratio> 1 </company_recycling_ratio>
<landfilling_ratio> 0.2 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</covering>
</coverings>
<metals>
<metal id="1" type= "steel">
<density unit= "ton/m3"> 8 </density>
<embodied_carbon unit= "kgCO2/ton"> 3160 </embodied_carbon>
<recycling_ratio> 0.98</recycling_ratio>
<onsite_recycling_ratio> 0 </onsite_recycling_ratio>
<company_recycling_ratio> 1 </company_recycling_ratio>
<landfilling_ratio> 0.02 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</metal>
<metal id="2" type= "aluminium">
<density unit= "ton/m3"> 2.7 </density>
<embodied_carbon unit= "kgCO2/ton"> 5370 </embodied_carbon>
<recycling_ratio> 0.98</recycling_ratio>
<onsite_recycling_ratio> 0 </onsite_recycling_ratio>
<company_recycling_ratio> 1 </company_recycling_ratio>
<landfilling_ratio> 0.02 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</metal>
<metal id="3" type= "reinforcing steel">
<density unit= "ton/m3"> 7.85 </density>
<embodied_carbon unit= "kgCO2/ton"> 3910 </embodied_carbon>
<recycling_ratio> 0.98</recycling_ratio>
<onsite_recycling_ratio> 0 </onsite_recycling_ratio>
<company_recycling_ratio> 1 </company_recycling_ratio>
<landfilling_ratio> 0.02 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</metal>
</metals>
</Building_materials>
</library>

Binary file not shown.

View File

@ -38,4 +38,70 @@ class ConfigurationHelper:
Get configured maximal coordinate value
:return: 1.7976931348623157e+308
"""
return self._config.getfloat('buildings', 'max_coordinate')
return self._config.getfloat('buildings', 'max_coordinate').real
@property
def comnet_lighting_latent(self) -> float:
"""
Get configured latent ratio of internal gains do to lighting used for Comnet (ASHRAE) standard
:return: 0
"""
return self._config.getfloat('buildings', 'comnet_lighting_latent').real
@property
def comnet_lighting_convective(self) -> float:
"""
Get configured convective ratio of internal gains do to lighting used for Comnet (ASHRAE) standard
:return: 0.5
"""
return self._config.getfloat('buildings', 'comnet_lighting_convective').real
@property
def comnet_lighting_radiant(self) -> float:
"""
Get configured radiant ratio of internal gains do to lighting used for Comnet (ASHRAE) standard
:return: 0.5
"""
return self._config.getfloat('buildings', 'comnet_lighting_radiant').real
@property
def comnet_plugs_latent(self) -> float:
"""
Get configured latent ratio of internal gains do to electrical appliances used for Comnet (ASHRAE) standard
:return: 0
"""
return self._config.getfloat('buildings', 'comnet_plugs_latent').real
@property
def comnet_plugs_convective(self) -> float:
"""
Get configured convective ratio of internal gains do to electrical appliances used for Comnet (ASHRAE) standard
:return: 0.75
"""
return self._config.getfloat('buildings', 'comnet_plugs_convective').real
@property
def comnet_plugs_radiant(self) -> float:
"""
Get configured radiant ratio of internal gains do to electrical appliances used for Comnet (ASHRAE) standard
:return: 0.25
"""
return self._config.getfloat('buildings', 'comnet_plugs_radiant').real
@property
def comnet_occupancy_sensible_convective(self) -> float:
"""
Get configured convective ratio of the sensible part of internal gains do to occupancy
used for Comnet (ASHRAE) standard
:return: 0.9
"""
return self._config.getfloat('buildings', 'comnet_occupancy_sensible_convective').real
@property
def comnet_occupancy_sensible_radiant(self) -> float:
"""
Get configured radiant ratio of the sensible part of internal gains do to occupancy
used for Comnet (ASHRAE) standard
:return: 0.1
"""
return self._config.getfloat('buildings', 'comnet_occupancy_sensible_radiant').real

View File

@ -7,6 +7,11 @@ Copyright © 2020 Project Author Pilar Monsalvete Alvarez de Uribarri pilar.mons
# universal constants
KELVIN = 273.15
# converters
HOUR_TO_MINUTES = 60
METERS_TO_FEET = 3.28084
BTU_H_TO_WATTS = 0.29307107
# time
SECOND = 'second'
MINUTE = 'minute'
@ -36,7 +41,6 @@ TEMPERATURE = 'temperature'
HUMIDITY = 'humidity'
CONTROL_TYPE = 'control_type'
# todo: modify code to use global constants instead of hard-coded values
# surface types
WALL = 'Wall'
GROUND_WALL = 'Ground wall'
@ -76,7 +80,10 @@ HALL = 'hall'
RESTAURANT = 'restaurant'
EDUCATION = 'education'
LIGHTING = 'Lights'
OCCUPANCY = 'Occupancy'
RECEPTACLE = 'Receptacle'
HVAC_AVAILABILITY = 'HVAC Avail'
INFILTRATION = 'Infiltration'
COOLING_SET_POINT = 'ClgSetPt'
HEATING_SET_POINT = 'HtgSetPt'

View File

@ -55,10 +55,13 @@ class EnrichCity:
def _construction(self, construction_format):
ConstructionFactory(construction_format, self._city).enrich()
for building in self._city.buildings:
# infiltration_rate_system_off is a mandatory parameter.
# If it is not returned, extract the building from the calculation list
if building.thermal_zones[0].infiltration_rate_system_off is None:
if len(building.thermal_zones) == 0:
self._city.remove_city_object(building)
elif building.thermal_zones[0].infiltration_rate_system_off is None:
self._city.remove_city_object(building)
if self._city.buildings is None:
self._errors.append('no archetype found per construction')

View File

@ -0,0 +1,44 @@
"""
Yearly from daily schedules module
SPDX - License - Identifier: LGPL - 3.0 - or -later
Copyright © 2021 Project Author Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca
"""
import calendar as cal
import helpers.constants as cte
from city_model_structure.attributes.schedule import Schedule
class YearlyFromDailySchedules:
"""
YearlyFromDailySchedules class
"""
def __init__(self, daily_schedules, year):
self._daily_schedules = daily_schedules
self._year = year
@property
def yearly_schedule(self) -> Schedule:
"""
Creates a yearly schedule out of a set of daily schedules
:return: Schedule
"""
yearly_schedule = Schedule()
weekly_schedules = [0, 0, 0, 0, 0, 0, 0]
day_types = dict({cte.MONDAY: 0, cte.TUESDAY: 1, cte.WEDNESDAY: 2, cte.THURSDAY: 3,
cte.FRIDAY: 4, cte.SATURDAY: 5, cte.SUNDAY: 6})
for daily_schedule in self._daily_schedules:
for day_type in daily_schedule.day_types:
weekly_schedules[day_types[day_type]] = daily_schedule.values
values = []
for month in range(1, 13):
for day in range(1, cal.monthlen(self._year, month)+1):
week_day = cal.weekday(self._year, month, day)
values.extend(weekly_schedules[week_day])
yearly_schedule.type = self._daily_schedules[0].type
yearly_schedule.data_type = self._daily_schedules[0].data_type
yearly_schedule.time_range = cte.YEAR
yearly_schedule.time_step = cte.HOUR
yearly_schedule.values = values
return yearly_schedule

View File

@ -0,0 +1,38 @@
"""
Sanam's customized importer Usage helper
SPDX - License - Identifier: LGPL - 3.0 - or -later
Copyright © 2020 Project Author Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca
"""
import sys
import helpers.constants as cte
class SanamCustomizedUsageHelper:
"""
SanamCustomizedUsage class
"""
usage_to_customized = {
cte.RESIDENTIAL: 'residential',
cte.INDUSTRY: 'manufacturing',
cte.OFFICE_ADMINISTRATION: 'office',
cte.HOTEL: 'hotel',
cte.HEALTH_CARE: 'health',
cte.RETAIL: 'retail',
cte.HALL: 'assembly',
cte.RESTAURANT: 'restaurant',
cte.EDUCATION: 'school'
}
customized_default_value = 'residential'
@staticmethod
def customized_from_usage(usage):
"""
Get customized usage from the given internal usage key
:param usage: str
:return: str
"""
try:
return SanamCustomizedUsageHelper.usage_to_customized[usage]
except KeyError:
sys.stderr.write('Error: keyword not found. Returned default HfT usage "residential"\n')
return SanamCustomizedUsageHelper.customized_default_value

View File

@ -0,0 +1,82 @@
"""
SanamCustomizedUsageParameters add two parameters to usage properties from ASHRAE
SPDX - License - Identifier: LGPL - 3.0 - or -later
Copyright © 2020 Project Author Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca
"""
import sys
import xmltodict
from imports.geometry.helpers.geometry_helper import GeometryHelper as gh
from imports.usage.data_classes.hft_usage_zone_archetype import HftUsageZoneArchetype as huza
import helpers.constants as cte
class SanamCustomizedUsageParameters:
"""
SanamCustomizedUsageParameters class
"""
def __init__(self, city, base_path):
file = 'ashrae_archetypes.xml'
path = str(base_path / 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)
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:
archetype = self._search_archetype(building.function) # todo: building.function or other translation???????
height = building.average_storey_height
if height is None:
raise Exception('Average storey height not defined, ACH cannot be calculated')
if height <= 0:
raise Exception('Average storey height is zero, ACH cannot be calculated')
if archetype is None:
sys.stderr.write(f'Building {building.name} has unknown archetype for building function:'
f' {building.function}, that assigns building usage as '
f'{gh.usage_from_function(building.function)}\n')
continue
mix_usage = False
if not mix_usage:
# just one usage_zone
for usage_zone in building.usage_zones:
self._assign_values(usage_zone, archetype, height)
def _search_archetype(self, building_usage):
for building_archetype in self._usage_archetypes:
if building_archetype.usage == building_usage:
return building_archetype
return None
@staticmethod
def _assign_values(usage_zone, archetype, height):
usage_zone.usage = archetype.usage
# Due to the fact that python is not a typed language, the wrong object type is assigned to
# usage_zone.internal_gains when writing usage_zone.internal_gains = archetype.internal_gains.
# Therefore, this walk around has been done.
if archetype.occupancy_density is not None:
usage_zone.occupancy_density = archetype.occupancy_density
archetype_mechanical_air_change = float(archetype.mechanical_air_change) * float(usage_zone.occupancy_density) \
* cte.HOUR_TO_MINUTES / cte.METERS_TO_FEET**3 / height
usage_zone.mechanical_air_change = archetype_mechanical_air_change
@staticmethod
def _parse_zone_usage_type(usage, zone_usage_type):
mechanical_air_change = zone_usage_type['endUses']['ventilation']['minimumVentilationRate']['#text']
if 'occupancy' in zone_usage_type:
occupancy_density = zone_usage_type['occupancy']['occupancyDensity']['#text']
usage_zone_archetype = huza(usage=usage, occupancy_density=occupancy_density,
mechanical_air_change=mechanical_air_change)
else:
usage_zone_archetype = huza(usage=usage, mechanical_air_change=mechanical_air_change)
return usage_zone_archetype

View File

@ -0,0 +1,31 @@
"""
CustomizedImportsFactory is used to import any information using user customized formats
This factory can only be called after calling the construction factory.
SPDX - License - Identifier: LGPL - 3.0 - or -later
Copyright © 2020 Project Author Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca
"""
from pathlib import Path
class CustomizedImportsFactory:
"""
CustomizedImportsFactory class
"""
def __init__(self, importer_class, city, base_path=None):
if base_path is None:
base_path = Path(Path(__file__).parent.parent / 'data/customized_imports')
self._importer_class = importer_class
self._city = city
self._base_path = base_path
for building in city.buildings:
if len(building.thermal_zones) == 0:
raise Exception('It seems that the customized imports factory is being called before the construction factory. '
'Please ensure that the construction factory is called first.')
def enrich(self):
"""
Returns the class that will enrich the city given
:return: Class
"""
importer = self._importer_class(self._city, self._base_path)
return importer.enrich_buildings()

View File

@ -21,8 +21,8 @@ class Obj:
with open(path, 'r') as file:
self._scene = trimesh.exchange.load.load(file, file_type='obj', force='scene')
self._corners = self._scene.bounds_corners
_bound_corner_min = []
_bound_corner_max = []
_bound_corner_min = None
_bound_corner_max = None
for corner in self._corners:
if _bound_corner_min is None:
_bound_corner_min = corner

77
imports/geometry/rhino.py Normal file
View File

@ -0,0 +1,77 @@
"""
Rhino module parses rhino files and import the geometry into the city model structure
SPDX - License - Identifier: LGPL - 3.0 - or -later
Copyright © 2020 Project Author Guille Gutierrez guillermo.gutierrezmorote@concordia.ca
"""
from rhino3dm import *
from rhino3dm._rhino3dm import MeshType
import numpy as np
import helpers.configuration_helper
from city_model_structure.attributes.polygon import Polygon
from city_model_structure.building import Building
from city_model_structure.city import City
from city_model_structure.building_demand.surface import Surface as LibsSurface
from imports.geometry.helpers.geometry_helper import GeometryHelper
from helpers.configuration_helper import ConfigurationHelper
class Rhino:
def __init__(self, path):
self._model = File3dm.Read(str(path))
max_float = 1.7976931348623157e+308
min_float = -1.7976931348623157e+308
self._min_x = self._min_y = self._min_z = max_float
self._max_x = self._max_y = self._max_z = min_float
print('init')
@staticmethod
def _solid_points(coordinates) -> np.ndarray:
solid_points = np.fromstring(coordinates, dtype=float, sep=' ')
solid_points = GeometryHelper.to_points_matrix(solid_points)
return solid_points
def _lower_corner(self, x, y, z):
if x < self._min_x:
self._min_x = x
if y < self._min_y:
self._min_y = y
if z < self._min_z:
self._min_z = z
if x > self._max_x:
self._max_x = x
if y > self._max_y:
self._max_y = y
if z > self._max_z:
self._max_z = z
@property
def city(self) -> City:
buildings = []
print('city')
for obj in self._model.Objects:
name = obj.Attributes.Id
surfaces = []
for face in obj.Geometry.Faces:
if face is None:
break
_mesh = face.GetMesh(MeshType.Default)
for i in range(0, len(_mesh.Faces)):
faces = _mesh.Faces[i]
_points = ''
for index in faces:
self._lower_corner(_mesh.Vertices[index].X, _mesh.Vertices[index].Y, _mesh.Vertices[index].Z)
_points = _points + f'{_mesh.Vertices[index].X} {_mesh.Vertices[index].Y} {_mesh.Vertices[index].Z} '
polygon_points = Rhino._solid_points(_points.strip())
print(_points)
surfaces.append(LibsSurface(Polygon(polygon_points), Polygon(polygon_points)))
buildings.append(Building(name, 3, surfaces, 'unknown', 'unknown', (self._min_x, self._min_y, self._min_z), []))
lower_corner = (self._min_x, self._min_y, self._min_z)
upper_corner = (self._max_x, self._max_y, self._max_z)
city = City(lower_corner, upper_corner, 'Montreal')
for building in buildings:
city.add_city_object(building)
return city

View File

@ -8,6 +8,7 @@ from city_model_structure.city import City
from imports.geometry.citygml import CityGml
from imports.geometry.obj import Obj
from imports.geometry.osm_subway import OsmSubway
#from imports.geometry.rhino import Rhino
class GeometryFactory:
@ -42,6 +43,14 @@ class GeometryFactory:
"""
return OsmSubway(self._path).city
# @property
# def _rhino(self) -> City:
# """
# Enrich the city by using OpenStreetMap information as data source
# :return: City
# """
# return Rhino(self._path).city
@property
def city(self) -> City:
"""
@ -49,3 +58,11 @@ class GeometryFactory:
:return: City
"""
return getattr(self, self._file_type, lambda: None)
# @property
# def city_debug(self) -> City:
# """
# Enrich the city given to the class using the class given handler
# :return: City
# """
# return Rhino(self._path).city

View File

@ -0,0 +1,24 @@
"""
CityGml module parses citygml_classes files and import the geometry into the city model structure
SPDX - License - Identifier: LGPL - 3.0 - or -later
Copyright © 2020 Project Author Atiya
"""
import xmltodict
from pathlib import Path
from city_model_structure.fuel import Fuel
class LcaFuel:
def __init__(self, city, base_path):
self._city = city
self._base_path = base_path
self._lca = None
def enrich(self):
self._city.fuels = []
path = Path(self._base_path / 'lca_data.xml').resolve()
with open(path) as xml:
self._lca = xmltodict.parse(xml.read())
for fuel in self._lca["library"]["Fuels"]['fuel']:
self._city.fuels.append(Fuel(fuel['@id'], fuel['@name'], fuel['carbon_emission_factor']['#text'],
fuel['carbon_emission_factor']['@unit']))

View File

@ -0,0 +1,26 @@
"""
CityGml module parses citygml_classes files and import the geometry into the city model structure
SPDX - License - Identifier: LGPL - 3.0 - or -later
Copyright © 2020 Project Author Atiya
"""
import xmltodict
from pathlib import Path
from city_model_structure.machine import Machine
class LcaMachine:
def __init__(self, city, base_path):
self._city = city
self._base_path = base_path
self._lca = None
def enrich(self):
self._city.machines = []
path = Path(self._base_path / 'lca_data.xml').resolve()
with open(path) as xml:
self._lca = xmltodict.parse(xml.read())
for machine in self._lca["library"]["Machines"]['machine']:
self._city.machines.append(Machine(machine['@id'], machine['@name'], machine['work_efficiency']['#text'],
machine['work_efficiency']['@unit'], machine['energy_consumption_rate']['#text'],
machine['energy_consumption_rate']['@unit'], machine['carbon_emission_factor']['#text'],
machine['carbon_emission_factor']['@unit']))

View File

@ -0,0 +1,25 @@
"""
CityGml module parses citygml_classes files and import the geometry into the city model structure
SPDX - License - Identifier: LGPL - 3.0 - or -later
Copyright © 2020 Project Author Atiya
"""
import xmltodict
from pathlib import Path
from city_model_structure.vehicle import Vehicle
class LcaVehicle:
def __init__(self, city, base_path):
self._city = city
self._base_path = base_path
self._lca = None
def enrich(self):
self._city.vehicles = []
path = Path(self._base_path / 'lca_data.xml').resolve()
with open(path) as xml:
self._lca = xmltodict.parse(xml.read())
for vehicle in self._lca["library"]["Vehicles"]['vehicle']:
self._city.vehicles.append(Vehicle(vehicle['@id'], vehicle['@name'], vehicle['fuel_consumption_rate']['#text'],
vehicle['fuel_consumption_rate']['@unit'], vehicle['carbon_emission_factor']['#text'],
vehicle['carbon_emission_factor']['@unit']))

View File

@ -0,0 +1,54 @@
"""
ConstructionFactory (before PhysicsFactory) retrieve the specific construction module for the given region
SPDX - License - Identifier: LGPL - 3.0 - or -later
Copyright © 2020 Project Author Atiya
"""
from pathlib import Path
from imports.life_cycle_assessment.lca_fuel import LcaFuel
from imports.life_cycle_assessment.lca_vehicle import LcaVehicle
from imports.life_cycle_assessment.lca_machine import LcaMachine
# from imports.life_cycle_assessment.lca_material import LcaMaterial
class LifeCycleAssessment:
"""
Life cicle analize factory class
"""
def __init__(self, handler, city, base_path=None):
if base_path is None:
base_path = Path(Path(__file__).parent.parent / 'data/life_cycle_assessment')
self._handler = '_' + handler.lower().replace(' ', '_')
self._city = city
self._base_path = base_path
def _fuel(self):
"""
Enrich the city by adding the fuel carbon information
"""
LcaFuel(self._city, self._base_path).enrich()
def _vehicle(self):
"""
Enrich the city by adding the vehicle carbon information
"""
LcaVehicle(self._city, self._base_path).enrich()
def _machine(self):
"""
Enrich the city by adding the machine carbon information
"""
LcaMachine(self._city, self._base_path).enrich()
def _material(self):
"""
Enrich the city by adding the material carbon information
"""
LcaMaterial(self._city, self._base_path).enrich()
def enrich(self):
"""
Enrich the city given to the class using the class given handler
:return: None
"""
getattr(self, self._handler, lambda: None)()

View File

@ -33,28 +33,26 @@ class SchedulesHelper:
# usage
function_to_usage = {
'full service restaurant': 'restaurant',
'full service restaurant': cte.RESTAURANT,
'high-rise apartment': cte.RESIDENTIAL,
'hospital': 'health care',
'large hotel': 'hotel',
'large office': 'office and administration',
'medium office': 'office and administration',
'hospital': cte.HEALTH_CARE,
'large hotel': cte.HOTEL,
'large office': cte.OFFICE_ADMINISTRATION,
'medium office': cte.OFFICE_ADMINISTRATION,
'midrise apartment': cte.RESIDENTIAL,
'outpatient healthcare': 'health care',
'primary school': 'education',
'quick service restaurant': 'restaurant',
'secondary school': 'education',
'small hotel': 'hotel',
'small office': 'office and administration',
'stand-alone-retail': 'retail',
'strip mall': 'hall',
'supermarket': 'retail',
'warehouse': 'industry',
'outpatient healthcare': cte.HEALTH_CARE,
'primary school': cte.EDUCATION,
'quick service restaurant': cte.RESTAURANT,
'secondary school': cte.EDUCATION,
'small hotel': cte.HOTEL,
'small office': cte.OFFICE_ADMINISTRATION,
'stand-alone-retail': cte.RETAIL,
'strip mall': cte.HALL,
'supermarket': cte.RETAIL,
'warehouse': cte.INDUSTRY,
'residential': cte.RESIDENTIAL
}
@staticmethod
def comnet_from_usage(usage):
"""

View File

@ -1,55 +0,0 @@
"""
AshraeUsageParameters model the usage properties
SPDX - License - Identifier: LGPL - 3.0 - or -later
Copyright © 2020 Project Author Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca
"""
import sys
from imports.geometry.helpers.geometry_helper import GeometryHelper as gh
from city_model_structure.building_demand.usage_zone import UsageZone
class AshraeUsageParameters:
"""
AshraeUsageParameters class
"""
def __init__(self, city, base_path):
super().__init__(base_path, 'ashrae_archetypes.xml')
self._city = city
self._usage_archetypes = None
def enrich_buildings(self):
"""
Returns the city with the usage parameters assigned to the buildings
:return:
"""
city = self._city
for building in city.buildings:
archetype = self._search_archetype(building.function)
if archetype is None:
sys.stderr.write(f'Building {building.name} has unknown archetype for building function:'
f' {building.function}, that assigns building usage as '
f'{gh.usage_from_function(building.function)}\n')
continue
# todo: what to do with mix-usage usage from gml?
mix_usage = False
if not mix_usage:
# just one usage_zone
for thermal_zone in building.thermal_zones:
usage_zone = UsageZone()
usage_zone.volume = thermal_zone.volume
self._assign_values(usage_zone, archetype)
thermal_zone.usage_zones = [usage_zone]
def _search_archetype(self, building_usage):
for building_archetype in self._usage_archetypes:
if building_archetype.usage == building_usage:
return building_archetype
return None
@staticmethod
def _assign_values(usage_zone, archetype):
usage_zone.usage = archetype.usage
usage_zone.occupancy_density = archetype.occupancy_density
# todo: should I use this value: self._min_air_change??
usage_zone.minimum_ventilation_rate = archetype.minimum_ventilation_rate

View File

@ -41,8 +41,8 @@ class CaUsageParameters(HftUsageInterface):
# just one usage_zone
for thermal_zone in building.thermal_zones:
usage_zone = UsageZone()
usage_zone.volume = thermal_zone.volume
self._assign_values(usage_zone, archetype)
usage_zone.volume = thermal_zone.volume
thermal_zone.usage_zones = [usage_zone]
def _search_archetype(self, building_usage):

View File

@ -0,0 +1,162 @@
"""
ComnetUsageParameters model the usage properties
SPDX - License - Identifier: LGPL - 3.0 - or -later
Copyright © 2021 Project Author Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca
"""
import sys
from typing import Dict
import pandas as pd
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 city_model_structure.building_demand.usage_zone import UsageZone
from city_model_structure.building_demand.internal_gains import InternalGains
from imports.usage.data_classes.hft_usage_zone_archetype import HftUsageZoneArchetype as huza
from imports.usage.data_classes.hft_internal_gains_archetype import HftInternalGainsArchetype as higa
class ComnetUsageParameters:
"""
ComnetUsageParameters class
"""
def __init__(self, city, base_path):
self._city = city
self._base_path = str(base_path / 'comnet_archetypes.xlsx')
self._usage_archetypes = []
data = self._read_file()
for item in data['lighting']:
for usage in UsageHelper.usage_to_comnet:
comnet_usage = UsageHelper.usage_to_comnet[usage]
if comnet_usage == item:
usage_archetype = self._parse_zone_usage_type(comnet_usage, data)
self._usage_archetypes.append(usage_archetype)
def _read_file(self) -> Dict:
"""
reads xlsx file 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", skiprows=[0, 1, 2],
nrows=number_usage_types, usecols="A:Z")
lighting_data = {}
plug_loads_data = {}
occupancy_data = {}
ventilation_rate = {}
water_heating = {}
process_data = {}
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()
return {'lighting': lighting_data,
'plug loads': plug_loads_data,
'occupancy': occupancy_data,
'ventilation rate': ventilation_rate,
'water heating': water_heating,
'process': process_data}
@staticmethod
def _parse_zone_usage_type(usage, data):
if data['occupancy'][usage][0] <= 0:
occupancy_density = 0
else:
occupancy_density = 1 / data['occupancy'][usage][0]
mechanical_air_change = data['ventilation rate'][usage][0]
internal_gains = []
# lighting
latent_fraction = ch().comnet_lighting_latent
convective_fraction = ch().comnet_lighting_convective
radiative_fraction = ch().comnet_lighting_radiant
average_internal_gain = data['lighting'][usage][4]
internal_gains.append(higa(internal_gains_type=cte.LIGHTING, average_internal_gain=average_internal_gain,
convective_fraction=convective_fraction, radiative_fraction=radiative_fraction,
latent_fraction=latent_fraction))
# occupancy
latent_fraction = data['occupancy'][usage][2] / (data['occupancy'][usage][1] + data['occupancy'][usage][2])
sensible_fraction = float(1 - latent_fraction)
convective_fraction = sensible_fraction * ch().comnet_occupancy_sensible_convective
radiative_fraction = sensible_fraction * ch().comnet_occupancy_sensible_radiant
average_internal_gain = (data['occupancy'][usage][1] + data['occupancy'][usage][2]) \
* occupancy_density * cte.BTU_H_TO_WATTS
internal_gains.append(higa(internal_gains_type=cte.OCCUPANCY, average_internal_gain=average_internal_gain,
convective_fraction=convective_fraction, radiative_fraction=radiative_fraction,
latent_fraction=latent_fraction))
# plug loads
if data['plug loads'][usage][0] != 'n.a.':
latent_fraction = ch().comnet_plugs_latent
convective_fraction = ch().comnet_plugs_convective
radiative_fraction = ch().comnet_plugs_radiant
average_internal_gain = data['plug loads'][usage][0]
internal_gains.append(higa(internal_gains_type=cte.RECEPTACLE, average_internal_gain=average_internal_gain,
convective_fraction=convective_fraction, radiative_fraction=radiative_fraction,
latent_fraction=latent_fraction))
usage_zone_archetype = huza(usage=usage, internal_gains=internal_gains,
occupancy_density=occupancy_density,
mechanical_air_change=mechanical_air_change)
return usage_zone_archetype
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.usage_from_function(building.function)
height = building.average_storey_height
if height is None:
raise Exception('Average storey height not defined, ACH cannot be calculated')
if height <= 0:
raise Exception('Average storey height is zero, ACH cannot be calculated')
archetype = self._search_archetype(UsageHelper.comnet_from_usage(usage))
if archetype is None:
sys.stderr.write(f'Building {building.name} has unknown archetype for building function:'
f' {building.function}, that assigns building usage as '
f'{GeometryHelper.usage_from_function(building.function)}\n')
continue
# just one usage_zone
for thermal_zone in building.thermal_zones:
usage_zone = UsageZone()
usage_zone.usage = usage
self._assign_values(usage_zone, archetype, height)
usage_zone.volume = thermal_zone.volume
thermal_zone.usage_zones = [usage_zone]
def _search_archetype(self, building_usage):
for building_archetype in self._usage_archetypes:
if building_archetype.usage == building_usage:
return building_archetype
return None
@staticmethod
def _assign_values(usage_zone, archetype, height):
# Due to the fact that python is not a typed language, the wrong object type is assigned to
# usage_zone.internal_gains when writing usage_zone.internal_gains = archetype.internal_gains.
# Therefore, this walk around has been done.
internal_gains = []
for archetype_internal_gain in archetype.internal_gains:
internal_gain = InternalGains()
internal_gain.type = archetype_internal_gain.type
internal_gain.average_internal_gain = archetype_internal_gain.average_internal_gain * cte.METERS_TO_FEET**2
internal_gain.convective_fraction = archetype_internal_gain.convective_fraction
internal_gain.radiative_fraction = archetype_internal_gain.radiative_fraction
internal_gain.latent_fraction = archetype_internal_gain.latent_fraction
internal_gains.append(internal_gain)
usage_zone.internal_gains = internal_gains
usage_zone.occupancy_density = archetype.occupancy_density * cte.METERS_TO_FEET**2
usage_zone.mechanical_air_change = archetype.mechanical_air_change * usage_zone.occupancy_density \
* cte.HOUR_TO_MINUTES / cte.METERS_TO_FEET**3 / height

View File

@ -9,13 +9,30 @@ class HftInternalGainsArchetype:
"""
HftInternalGainsArchetype class
"""
def __init__(self, average_internal_gain=None, convective_fraction=None, radiative_fraction=None,
latent_fraction=None):
def __init__(self, internal_gains_type=None, average_internal_gain=None, convective_fraction=None, \
radiative_fraction=None, latent_fraction=None):
self._type = internal_gains_type
self._average_internal_gain = average_internal_gain
self._convective_fraction = convective_fraction
self._radiative_fraction = radiative_fraction
self._latent_fraction = latent_fraction
@property
def type(self):
"""
Get internal gains type
:return: string
"""
return self._type
@type.setter
def type(self, value):
"""
Set internal gains type
:param value: string
"""
self._type = value
@property
def average_internal_gain(self):
"""

View File

@ -36,3 +36,29 @@ class UsageHelper:
except KeyError:
sys.stderr.write('Error: keyword not found. Returned default HfT usage "residential"\n')
return UsageHelper.hft_default_value
usage_to_comnet = {
cte.RESIDENTIAL: 'BA Multifamily',
cte.INDUSTRY: 'BA Manufacturing Facility',
cte.OFFICE_ADMINISTRATION: 'BA Office',
cte.HOTEL: 'BA Hotel',
cte.HEALTH_CARE: 'BA Hospital',
cte.RETAIL: 'BA Retail',
cte.HALL: 'BA Town Hall',
cte.RESTAURANT: 'BA Dining: Bar Lounge/Leisure',
cte.EDUCATION: 'BA School/University'
}
comnet_default_value = 'BA Multifamily'
@staticmethod
def comnet_from_usage(usage):
"""
Get Comnet usage from the given internal usage key
:param usage: str
:return: str
"""
try:
return UsageHelper.usage_to_comnet[usage]
except KeyError:
sys.stderr.write('Error: keyword not found. Returned default Comnet usage "BA Multifamily"\n')
return UsageHelper.comnet_default_value

View File

@ -68,7 +68,8 @@ class HftUsageInterface:
average_internal_gain = 0
radiative_fraction = 0
internal_gains.append(higa(average_internal_gain, convective_fraction, radiative_fraction, latent_fraction))
internal_gains.append(higa(average_internal_gain=average_internal_gain, convective_fraction=convective_fraction,
radiative_fraction=radiative_fraction, latent_fraction=latent_fraction))
usage_zone_archetype = huza(usage=usage, internal_gains=internal_gains, heating_set_point=heating_setpoint,
heating_set_back=heating_setback, cooling_set_point=cooling_setpoint,
occupancy_density=occupancy_density, hours_day=hours_day, days_year=days_year,
@ -130,7 +131,8 @@ class HftUsageInterface:
average_internal_gain = usage_zone_variant['schedules']['internGains']['averageInternGainPerSqm']
if 'radiantFraction' in usage_zone_variant['schedules']['internGains']:
radiative_fraction = usage_zone_variant['schedules']['internGains']['radiantFraction']
internal_gains.append(higa(average_internal_gain, convective_fraction, radiative_fraction, latent_fraction))
internal_gains.append(higa(average_internal_gain=average_internal_gain, convective_fraction=convective_fraction,
radiative_fraction=radiative_fraction, latent_fraction=latent_fraction))
usage_zone_archetype = huza(usage=usage, internal_gains=internal_gains, heating_set_point=heating_setpoint,
heating_set_back=heating_setback, cooling_set_point=cooling_setpoint,
occupancy_density=occupancy_density, hours_day=hours_day, days_year=days_year,

View File

@ -8,7 +8,7 @@ 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.ca_usage_parameters import CaUsageParameters
from imports.usage.ashrae_usage_parameters import AshraeUsageParameters
from imports.usage.comnet_usage_parameters import ComnetUsageParameters
# todo: handle missing lambda and rise error.
@ -39,11 +39,11 @@ class UsageFactory:
"""
return CaUsageParameters(self._city, self._base_path).enrich_buildings()
def _ashrae(self):
def _comnet(self):
"""
Enrich the city by using ASHRAE information
Enrich the city with COMNET usage library
"""
AshraeUsageParameters(self._city, self._base_path).enrich_buildings()
return ComnetUsageParameters(self._city, self._base_path).enrich_buildings()
def enrich(self):
"""

View File

@ -9,9 +9,9 @@ geomeppy~=0.11.8
pathlib~=1.0.1
PyWavefront~=1.3.3
xlrd~=2.0.1
openpyxl~=3.0.7
networkx~=2.5.1
parseidf~=1.0.0
ply~=3.11
scipy==1.7.1
PyYAML==6.0
rhino3dm~=7.7.0

View File

@ -0,0 +1,49 @@
"""
TestCustomizedImportsFactory tests and validates the factory to import customized data
SPDX - License - Identifier: LGPL - 3.0 - or -later
Copyright © 2021 Project Author Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca
"""
from pathlib import Path
from unittest import TestCase
from imports.geometry_factory import GeometryFactory
from imports.construction_factory import ConstructionFactory
from imports.usage_factory import UsageFactory
from imports.customized_imports_factory import CustomizedImportsFactory
from imports.customized_imports.sanam_customized_usage_parameters import SanamCustomizedUsageParameters as scp
class TestCustomizedImportsFactory(TestCase):
"""
TestCustomizedImportsFactory TestCase
"""
def setUp(self) -> None:
"""
Configure test environment
:return:
"""
self._example_path = (Path(__file__).parent / 'tests_data').resolve()
def _get_citygml(self, file):
file_path = (self._example_path / file).resolve()
_city = GeometryFactory('citygml', file_path).city
self.assertIsNotNone(_city, 'city is none')
ConstructionFactory('nrel', _city).enrich()
UsageFactory('hft', _city).enrich()
return _city
def test_city_with_customized_data(self):
"""
Enrich the city with the usage information and verify it
:return: None
"""
file = 'one_building_in_kelowna.gml'
city = self._get_citygml(file)
CustomizedImportsFactory(scp, city).enrich()
for building in city.buildings:
self.assertIsNot(len(building.usage_zones), 0, 'no building usage_zones defined')
for usage_zone in building.usage_zones:
self.assertIsNotNone(usage_zone.mechanical_air_change, 'usage is none')

View File

@ -45,7 +45,7 @@ class TestExports(TestCase):
else:
file_path = (self._example_path / 'one_building_in_kelowna.gml').resolve()
self._complete_city = self._get_citygml(file_path)
ConstructionFactory('ca', self._complete_city).enrich()
ConstructionFactory('nrel', self._complete_city).enrich()
UsageFactory('ca', self._complete_city).enrich()
SchedulesFactory('comnet', self._complete_city).enrich()
cli = 'C:\\Users\\Pilar\\PycharmProjects\\monthlyenergybalance\\tests_data\\weather\\inseldb_Summerland.cli'

View File

@ -0,0 +1,58 @@
"""
Building test
SPDX - License - Identifier: LGPL - 3.0 - or -later
Copyright © 2020 Project Author Guille Gutierrez Morote Guillermo.GutierrezMorote@concordia.ca
"""
from pathlib import Path
from unittest import TestCase
from imports.geometry_factory import GeometryFactory
from imports.life_cycle_assessment_factory import LifeCycleAssessment
class TestLifeCycleAssessment(TestCase):
"""
TestBuilding TestCase 1
"""
def setUp(self) -> None:
"""
Test setup
:return: None
"""
self._city_gml = None
self._example_path = (Path(__file__).parent / 'tests_data').resolve()
def test_fuel(self):
city_file = "../unittests/tests_data/C40_Final.gml"
city = GeometryFactory('citygml', city_file).city
LifeCycleAssessment('fuel', city).enrich()
for fuel in city.fuels:
# print(fuel.name)
self.assertTrue(len(city.fuels) > 0)
def test_vehicle(self):
city_file = "../unittests/tests_data/C40_Final.gml"
city = GeometryFactory('citygml', city_file).city
LifeCycleAssessment('vehicle', city).enrich()
for vehicle in city.vehicles:
# print(vehicle.name)
self.assertTrue(len(city.vehicles) > 0)
def test_machine(self):
city_file = "../unittests/tests_data/C40_Final.gml"
city = GeometryFactory('citygml', city_file).city
LifeCycleAssessment('machine', city).enrich()
for machine in city.machines:
# print(machine.name)
self.assertTrue(len(city.machines) > 0)
def test_material(self):
city_file = "../unittests/tests_data/C40_Final.gml"
city = GeometryFactory('citygml', city_file).city
LifeCycleAssessment('material', city).enrich()
for material in city.materials:
print(material.material_name)
self.assertTrue(len(city.materials) > 0)

View File

@ -9,6 +9,7 @@ from unittest import TestCase
from imports.geometry_factory import GeometryFactory
from imports.usage_factory import UsageFactory
from imports.geometry.helpers.geometry_helper import GeometryHelper
from imports.construction_factory import ConstructionFactory
class TestUsageFactory(TestCase):
@ -38,7 +39,7 @@ class TestUsageFactory(TestCase):
city = self._get_citygml(file)
for building in city.buildings:
building.function = GeometryHelper.pluto_to_function[building.function]
ConstructionFactory('nrel', city).enrich()
UsageFactory('hft', city).enrich()
for building in city.buildings:
self.assertIsNot(len(building.usage_zones), 0, 'no building usage_zones defined')
@ -61,7 +62,7 @@ class TestUsageFactory(TestCase):
# case 2: CA
file = 'one_building_in_kelowna.gml'
city = self._get_citygml(file)
ConstructionFactory('nrel', city).enrich()
UsageFactory('ca', city).enrich()
for building in city.buildings:
self.assertIsNot(len(building.usage_zones), 0, 'no building usage_zones defined')

View File

@ -0,0 +1,573 @@
<?xml version="1.0" encoding="utf-8"?>
<library name="LCA">
<Fuels>
<fuel id="1" name= "Black_coal">
<carbon_emission_factor unit= "kgCO2/ kWh" > 0.32 </carbon_emission_factor>
</fuel>
<fuel id="2" name= "Brown_coal">
<carbon_emission_factor unit= "kgCO2/ kWh"> 0.4 </carbon_emission_factor>
</fuel>
<fuel id="3" name= "Brown_coal_briquette">
<carbon_emission_factor unit= "kgCO2/ kWh"> 0.4 </carbon_emission_factor>
</fuel>
<fuel id="4" name= "Brown_coal_coke">
<carbon_emission_factor unit= "kgCO2/ kWh"> 0.5 </carbon_emission_factor>
</fuel>
<fuel id="5" name= "CNG">
<carbon_emission_factor unit= "kgCO2/ kWh"> 0.18 </carbon_emission_factor>
</fuel>
<fuel id="6" name= "Coal_coke">
<carbon_emission_factor unit= "kgCO2/ kWh"> 0.39 </carbon_emission_factor>
</fuel>
<fuel id="7" name= "Crude_oil">
<carbon_emission_factor unit= "kgCO2/ kWh"> 0.27 </carbon_emission_factor>
</fuel>
<fuel id="8" name= "Diesel_Machine">
<carbon_emission_factor unit= "kgCO2/ liter"> 4.16 </carbon_emission_factor>
</fuel>
<fuel id="9" name= "Diesel_Vehicle">
<carbon_emission_factor unit= "kgCO2/ liter"> 2.24 </carbon_emission_factor>
</fuel>
<fuel id="10" name= "Ethane">
<carbon_emission_factor unit= "kgCO2/ kWh"> 0.2 </carbon_emission_factor>
</fuel>
<fuel id="11" name= "Fuel_oil">
<carbon_emission_factor unit= "kgCO2/ liter"> 3.19 </carbon_emission_factor>
</fuel>
<fuel id="12" name= "Gas_flared">
<carbon_emission_factor unit= "kgCO2/ kg"> 3.53 </carbon_emission_factor>
</fuel>
<fuel id="13" name= "Kerosene">
<carbon_emission_factor unit= "kgCO2/ kWh"> 0.27 </carbon_emission_factor>
</fuel>
<fuel id="14" name= "LNG">
<carbon_emission_factor unit= "kgCO2/ kWh"> 0.21 </carbon_emission_factor>
</fuel>
<fuel id="15" name= "LPG">
<carbon_emission_factor unit= "kgCO2/ liter"> 1.69 </carbon_emission_factor>
</fuel>
<fuel id="16" name= "Natural_gas">
<carbon_emission_factor unit= "kgCO2/ kWh"> 0.21 </carbon_emission_factor>
</fuel>
<fuel id="17" name= "Petroleum_coke">
<carbon_emission_factor unit= "kgCO2/ kWh"> 0.35 </carbon_emission_factor>
</fuel>
<fuel id="18" name= "UNG">
<carbon_emission_factor unit= "kgCO2/ kWh"> 0.18 </carbon_emission_factor>
</fuel>
<fuel id="19" name= "Biodiesel">
<carbon_emission_factor unit= "kgCO2/ liter"> 0.81 </carbon_emission_factor>
</fuel>
<fuel id="20" name= "Bioethanol">
<carbon_emission_factor unit= "kgCO2/ kg"> 1.21 </carbon_emission_factor>
</fuel>
<fuel id="21" name= "Biogas">
<carbon_emission_factor unit= "kgCO2/ kg"> 1.61 </carbon_emission_factor>
</fuel>
<fuel id="22" name= "Biomass">
<carbon_emission_factor unit= "kgCO2/ kg"> 0.11 </carbon_emission_factor>
</fuel>
<fuel id="23" name= "Methanol">
<carbon_emission_factor unit= "kgCO2/ kg"> 0.3 </carbon_emission_factor>
</fuel>
<fuel id="24" name= "Petrol_eightyfive_ethanol">
<carbon_emission_factor unit= "kgCO2/ kg"> 1.16 </carbon_emission_factor>
</fuel>
<fuel id="25" name= "Steam">
<carbon_emission_factor unit= "kgCO2/ kg"> 0.61 </carbon_emission_factor>
</fuel>
</Fuels>
<Machines>
<machine name= "Rock_drill">
<work_efficiency unit= "h/m3"> 0.347 </work_efficiency>
<energy_consumption_rate unit= "kWh/h"> 16.5 </energy_consumption_rate>
<carbon_emission_factor unit= "kgCO2/kWh"> 0.918 </carbon_emission_factor>
</machine>
<machine name= "Hydraulic_hammer">
<work_efficiency unit= "h/m3"> 0.033 </work_efficiency>
<energy_consumption_rate unit= "kg_fuel/h"> 25.2 </energy_consumption_rate>
<carbon_emission_factor unit= "kgCO2/kg_fuel"> 4.16 </carbon_emission_factor>
</machine>
<machine name= "Crawler_bulldozer">
<work_efficiency unit= "h/m3"> 0.027 </work_efficiency>
<energy_consumption_rate unit= "kg_fuel/h3"> 16.8 </energy_consumption_rate>
<carbon_emission_factor unit= "kgCO2/kg_fuel"> 2.239 </carbon_emission_factor>
</machine>
<machine name= "Crawler_excavator">
<work_efficiency unit= "h/m3"> 0.023 </work_efficiency>
<energy_consumption_rate unit= "kg_fuel/h"> 16.8 </energy_consumption_rate>
<carbon_emission_factor unit= "kgCO2/kg_fuel"> 2.239 </carbon_emission_factor>
</machine>
<machine name= "Crawler_hydraulic_rock_crusher">
<work_efficiency unit= "h/m3"> 0.109 </work_efficiency>
<energy_consumption_rate unit= "kg_fuel/h"> 25.2 </energy_consumption_rate>
<carbon_emission_factor unit= "kgCO2/kg_fuel"> 2.239 </carbon_emission_factor>
</machine>
<machine name= "Mobile_recycling_equipment">
<work_efficiency unit= "h/ton"> 0.003 </work_efficiency>
<energy_consumption_rate unit= "kg_fuel/h"> 16.4 </energy_consumption_rate>
<carbon_emission_factor unit= "kgCO2/kg_fuel"> 4.16 </carbon_emission_factor>
</machine>
<machine name= "Vibration_feeder">
<work_efficiency unit= "h/ton"> 0.002 </work_efficiency>
<energy_consumption_rate unit= "kWh/h"> 11 </energy_consumption_rate>
<carbon_emission_factor unit= "kgCO2/kWh"> 0.918 </carbon_emission_factor>
</machine>
<machine name= "Jaw_crusher">
<work_efficiency unit= "h/ton"> 0.002 </work_efficiency>
<energy_consumption_rate unit= "kWh/h"> 90 </energy_consumption_rate>
<carbon_emission_factor unit= "kgCO2/kWh"> 0.918 </carbon_emission_factor>
</machine>
<machine name= "Electromagnetic_separator">
<work_efficiency unit= "h/ton"> 0.002 </work_efficiency>
<energy_consumption_rate unit= "kWh/h"> 10 </energy_consumption_rate>
<carbon_emission_factor unit= "kgCO2/kWh"> 0.918 </carbon_emission_factor>
</machine>
<machine name= "Wind_sorting_machine">
<work_efficiency unit= "h/ton"> 0.002 </work_efficiency>
<energy_consumption_rate unit= "kWh/h"> 11 </energy_consumption_rate>
<carbon_emission_factor unit= "kgCO2/kWh"> 0.918 </carbon_emission_factor>
</machine>
<machine name= "Impact_crusher">
<work_efficiency unit= "h/ton"> 0.002 </work_efficiency>
<energy_consumption_rate unit= "kWh/h"> 132 </energy_consumption_rate>
<carbon_emission_factor unit= "kgCO2/kWh"> 0.918 </carbon_emission_factor>
</machine>
<machine name= "Double_circular_vibrating_plug">
<work_efficiency unit= " h/ton "> 0.002 </work_efficiency>
<energy_consumption_rate unit= "kWh/h"> 15 </energy_consumption_rate>
<carbon_emission_factor unit= "kgCO2/kW"> 0.918 </carbon_emission_factor>
</machine>
<machine name= "Spiral_sand_washing_machine">
<work_efficiency unit= "h/ton"> 0.002 </work_efficiency>
<energy_consumption_rate unit= "kWh/h"> 5.5 </energy_consumption_rate>
<carbon_emission_factor unit= "kgCO2/kWh"> 0.918 </carbon_emission_factor>
</machine>
<machine name= "Conveyor_belts">
<work_efficiency unit= "h/ton"> 0.002 </work_efficiency>
<energy_consumption_rate unit= "kWh/h"> 22.5 </energy_consumption_rate>
<carbon_emission_factor unit= "kgCO2/kWh"> 0.918 </carbon_emission_factor>
</machine>
</Machines>
<Vehicles>
<vehicle name= "Freight_lorry_18_ton">
<fuel_consumption_rate unit= "kg_fuel/ton.km"> 0.0123 </fuel_consumption_rate>
<carbon_emission_factor unit= "kgCO2/kg_fuel"> 2.239 </carbon_emission_factor>
</vehicle>
<vehicle name= "Freight_train">
<fuel_consumption_rate unit= "kWh/ton.km"> 0.042 </fuel_consumption_rate>
<carbon_emission_factor unit= "kgCO2/kWh"> 0.918 </carbon_emission_factor>
</vehicle>
<vehicle name= "Freight_ship">
<fuel_consumption_rate unit= "kWh/ton.km"> 0.01 </fuel_consumption_rate>
<carbon_emission_factor unit= "kgCO2/kWh"> 1.00000 </carbon_emission_factor>
</vehicle>
<vehicle name= "Freight_Air">
<fuel_consumption_rate unit= "kWh/ton.km"> 1.3 </fuel_consumption_rate>
<carbon_emission_factor unit= "kgCO2/kWh"> 1.00000 </carbon_emission_factor>
</vehicle>
</Vehicles>
<Building_materials>
<Bricks>
<brick id="1" type= "clay brick">
<density unit= "ton/m3"> 1.8 </density>
<embodied_carbon unit= "kgCO2/ton"> 560 </embodied_carbon>
<recycling_ratio> 0.8 </recycling_ratio>
<onsite_recycling_ratio> 0.3 </onsite_recycling_ratio>
<company_recycling_ratio> 0.7 </company_recycling_ratio>
<landfilling_ratio> 0.2 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</brick>
<brick id="2" type= "light clay brick">
<density unit= "ton/m3"> 1.2 </density>
<embodied_carbon unit= "kgCO2/ton"> 310 </embodied_carbon>
<recycling_ratio> 0.8 </recycling_ratio>
<onsite_recycling_ratio> 0.3 </onsite_recycling_ratio>
<company_recycling_ratio> 0.7 </company_recycling_ratio>
<landfilling_ratio> 0.2 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</brick>
<brick id="3" type= "refractory">
<density unit= "ton/m3"> 2 </density>
<embodied_carbon unit= "kgCO2/ton"> 3080 </embodied_carbon>
<recycling_ratio> 0.8 </recycling_ratio>
<onsite_recycling_ratio> 0.3 </onsite_recycling_ratio>
<company_recycling_ratio> 0.7 </company_recycling_ratio>
<landfilling_ratio> 0.2 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</brick>
<brick id="4" type= "sand-lime brick">
<density unit= "ton/m3"> 1.4 </density>
<embodied_carbon unit= "kgCO2/ton"> 300 </embodied_carbon>
<recycling_ratio> 0.8 </recycling_ratio>
<onsite_recycling_ratio> 0.3 </onsite_recycling_ratio>
<company_recycling_ratio> 0.7 </company_recycling_ratio>
<landfilling_ratio> 0.2 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</brick>
</Bricks>
<Concretes>
<concrete id="1" type= "light weight expanded clay">
<density unit= "ton/m3"> 1.6 </density>
<embodied_carbon unit= "kgCO2/ton"> 900 </embodied_carbon>
<recycling_ratio> 0.8 </recycling_ratio>
<onsite_recycling_ratio> 0 </onsite_recycling_ratio>
<company_recycling_ratio> 1 </company_recycling_ratio>
<landfilling_ratio> 0.2 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</concrete>
<concrete id="2" type= "lightweight Expanded perlite">
<density unit= "ton/m3"> 1.6 </density>
<embodied_carbon unit= "kgCO2/ton"> 2340 </embodied_carbon>
<recycling_ratio> 0.8 </recycling_ratio>
<onsite_recycling_ratio> 0 </onsite_recycling_ratio>
<company_recycling_ratio> 1 </company_recycling_ratio>
<landfilling_ratio> 0.2 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</concrete>
<concrete id="3" type= "lightweight expanded vermiculite">
<density unit= "ton/m3"> 1.6 </density>
<embodied_carbon unit= "kgCO2/ton"> 1570 </embodied_carbon>
<recycling_ratio> 0.8 </recycling_ratio>
<onsite_recycling_ratio> 0 </onsite_recycling_ratio>
<company_recycling_ratio> 1 </company_recycling_ratio>
<landfilling_ratio> 0.2 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</concrete>
<concrete id="4" type= "lightweight polystyrene">
<density unit= "ton/m3"> 1.4 </density>
<embodied_carbon unit= "kgCO2/ton"> 1840 </embodied_carbon>
<recycling_ratio> 0.8 </recycling_ratio>
<onsite_recycling_ratio> 0 </onsite_recycling_ratio>
<company_recycling_ratio> 1 </company_recycling_ratio>
<landfilling_ratio> 0.2 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</concrete>
<concrete id="5" type= "lightweight pumice">
<density unit= "ton/m3"> 1.3 </density>
<embodied_carbon unit= "kgCO2/ton"> 410 </embodied_carbon>
<recycling_ratio> 0.8 </recycling_ratio>
<onsite_recycling_ratio> 0 </onsite_recycling_ratio>
<company_recycling_ratio> 1 </company_recycling_ratio>
<landfilling_ratio> 0.2 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</concrete>
<concrete id="6" type= "concrete 20 MPa">
<density unit= "ton/m3"> 2.3 </density>
<embodied_carbon unit= "kgCO2/ton"> 160 </embodied_carbon>
<recycling_ratio> 0.8 </recycling_ratio>
<onsite_recycling_ratio> 0 </onsite_recycling_ratio>
<company_recycling_ratio> 1 </company_recycling_ratio>
<landfilling_ratio> 0.2 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</concrete>
<concrete id="7" type= "concrete 25 MPa">
<density unit= "ton/m3"> 2.3 </density>
<embodied_carbon unit= "kgCO2/ton"> 170 </embodied_carbon>
<recycling_ratio> 0.8 </recycling_ratio>
<onsite_recycling_ratio> 0 </onsite_recycling_ratio>
<company_recycling_ratio> 1 </company_recycling_ratio>
<landfilling_ratio> 0.2 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</concrete>
<concrete id="8" type= "concrete 30-32 MPa">
<density unit= "ton/m3"> 2.3 </density>
<embodied_carbon unit= "kgCO2/ton"> 230 </embodied_carbon>
<recycling_ratio> 0.8 </recycling_ratio>
<onsite_recycling_ratio> 0 </onsite_recycling_ratio>
<company_recycling_ratio> 1 </company_recycling_ratio>
<landfilling_ratio> 0.2 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</concrete>
<concrete id="9" type= "concrete 35 MPae">
<density unit= "ton/m3"> 2.4 </density>
<embodied_carbon unit= "kgCO2/ton"> 240 </embodied_carbon>
<recycling_ratio> 0.8 </recycling_ratio>
<onsite_recycling_ratio> 0 </onsite_recycling_ratio>
<company_recycling_ratio> 1 </company_recycling_ratio>
<landfilling_ratio> 0.2 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</concrete>
<concrete id="10" type= "concrete 50 MPa">
<density unit= "ton/m3"> 2.4 </density>
<embodied_carbon unit= "kgCO2/ton"> 280 </embodied_carbon>
<recycling_ratio> 0.8 </recycling_ratio>
<onsite_recycling_ratio> 0 </onsite_recycling_ratio>
<company_recycling_ratio> 1 </company_recycling_ratio>
<landfilling_ratio> 0.2 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</concrete>
<concrete id="11" type= "concrete block">
<density unit= "ton/m3"> 2.3 </density>
<embodied_carbon unit= "kgCO2/ton"> 170 </embodied_carbon>
<recycling_ratio> 0.8 </recycling_ratio>
<onsite_recycling_ratio> 0 </onsite_recycling_ratio>
<company_recycling_ratio> 1 </company_recycling_ratio>
<landfilling_ratio> 0.2 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</concrete>
<concrete id="12" type= "concrete roof tile">
<density unit= "ton/m3"> 1.2 </density>
<embodied_carbon unit= "kgCO2/ton"> 440 </embodied_carbon>
<recycling_ratio> 0.8 </recycling_ratio>
<onsite_recycling_ratio> 0 </onsite_recycling_ratio>
<company_recycling_ratio> 1 </company_recycling_ratio>
<landfilling_ratio> 0.2 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</concrete>
</Concretes>
<glasses>
<glass id="1" type= "flat glass, coated">
<density unit= "ton/m3"> 2.58 </density>
<embodied_carbon unit= "kgCO2/ton"> 2660 </embodied_carbon>
<recycling_ratio> 0.95 </recycling_ratio>
<onsite_recycling_ratio> 0 </onsite_recycling_ratio>
<company_recycling_ratio> 1 </company_recycling_ratio>
<landfilling_ratio> 0.05 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</glass>
<glass id="2" type= "glass fibre">
<density unit= "ton/m3"> 2.58 </density>
<embodied_carbon unit= "kgCO2/ton"> 5260 </embodied_carbon>
<recycling_ratio> 0.95 </recycling_ratio>
<onsite_recycling_ratio> 0 </onsite_recycling_ratio>
<company_recycling_ratio> 1 </company_recycling_ratio>
<landfilling_ratio> 0.05 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</glass>
</glasses>
<Insulations>
<Insulation id="1" type= "cellulose fibre">
<density unit= "ton/m3"> 0.06 </density>
<embodied_carbon unit= "kgCO2/ton"> 1760 </embodied_carbon>
<recycling_ratio> 0.9 </recycling_ratio>
<onsite_recycling_ratio> 0 </onsite_recycling_ratio>
<company_recycling_ratio> 1 </company_recycling_ratio>
<landfilling_ratio> 0.1 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</Insulation>
<Insulation id="2" type= "cork slab">
<density unit= "ton/m3"> 0.122 </density>
<embodied_carbon unit= "kgCO2/ton"> 3080 </embodied_carbon>
<recycling_ratio> 0.9 </recycling_ratio>
<onsite_recycling_ratio> 0 </onsite_recycling_ratio>
<company_recycling_ratio> 1 </company_recycling_ratio>
<landfilling_ratio> 0.1 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</Insulation>
<Insulation id="3" type= "polystyren foam">
<density unit= "ton/m3"> 0.028 </density>
<embodied_carbon unit= "kgCO2/ton"> 3180 </embodied_carbon>
<recycling_ratio> 0.9 </recycling_ratio>
<onsite_recycling_ratio> 0 </onsite_recycling_ratio>
<company_recycling_ratio> 1 </company_recycling_ratio>
<landfilling_ratio> 0.1 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</Insulation>
<Insulation id="4" type= "polystyrene 10% recycled">
<density unit= "ton/m3"> 0.024 </density>
<embodied_carbon unit= "kgCO2/ton"> 5140 </embodied_carbon>
<recycling_ratio> 0.9 </recycling_ratio>
<onsite_recycling_ratio> 0 </onsite_recycling_ratio>
<company_recycling_ratio> 1 </company_recycling_ratio>
<landfilling_ratio> 0.1 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</Insulation>
<Insulation id="5" type= "stone wool">
<density unit= "ton/m3"> 0.1 </density>
<embodied_carbon unit= "kgCO2/ton"> 6040 </embodied_carbon>
<recycling_ratio> 0.9 </recycling_ratio>
<onsite_recycling_ratio> 0 </onsite_recycling_ratio>
<company_recycling_ratio> 1 </company_recycling_ratio>
<landfilling_ratio> 0.1 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</Insulation>
<Insulation id="6" type= "foam glass">
<density unit= "ton/m3"> 0.3 </density>
<embodied_carbon unit= "kgCO2/ton"> 5380 </embodied_carbon>
<recycling_ratio> 0.9 </recycling_ratio>
<onsite_recycling_ratio> 0 </onsite_recycling_ratio>
<company_recycling_ratio> 1 </company_recycling_ratio>
<landfilling_ratio> 0.1 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</Insulation>
<Insulation id="7" type= "glass wool mat">
<density unit= "ton/m3"> 0.032 </density>
<embodied_carbon unit= "kgCO2/ton"> 2150 </embodied_carbon>
<recycling_ratio> 0.9 </recycling_ratio>
<onsite_recycling_ratio> 0 </onsite_recycling_ratio>
<company_recycling_ratio> 1 </company_recycling_ratio>
<landfilling_ratio> 0.1 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</Insulation>
</Insulations>
<woods>
<wood id="1" type= "fiberboard, hard">
<density unit= "ton/m3"> 0.9 </density>
<embodied_carbon unit= "kgCO2/ton"> 3420 </embodied_carbon>
<recycling_ratio> 0.6 </recycling_ratio>
<onsite_recycling_ratio> 0 </onsite_recycling_ratio>
<company_recycling_ratio> 1 </company_recycling_ratio>
<landfilling_ratio> 0.4 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</wood>
<wood id="2" type= "three layerd laminated board">
<density unit= "ton/m3"> 0.7 </density>
<embodied_carbon unit= "kgCO2/ton"> 1430 </embodied_carbon>
<recycling_ratio> 0.6 </recycling_ratio>
<onsite_recycling_ratio> 0 </onsite_recycling_ratio>
<company_recycling_ratio> 1 </company_recycling_ratio>
<landfilling_ratio> 0.4 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</wood>
<wood id="3" type= "fibreboard, soft">
<density unit= "ton/m3"> 0.65 </density>
<embodied_carbon unit= "kgCO2/ton"> 2780 </embodied_carbon>
<recycling_ratio> 0.6 </recycling_ratio>
<onsite_recycling_ratio> 0 </onsite_recycling_ratio>
<company_recycling_ratio> 1 </company_recycling_ratio>
<landfilling_ratio> 0.4 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</wood>
<wood id="4" type= "plywood">
<density unit= "ton/m3"> 0.72 </density>
<embodied_carbon unit= "kgCO2/ton"> 2190 </embodied_carbon>
<recycling_ratio> 0.6 </recycling_ratio>
<onsite_recycling_ratio> 0 </onsite_recycling_ratio>
<company_recycling_ratio> 1 </company_recycling_ratio>
<landfilling_ratio> 0.4 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</wood>
</woods>
<coverings>
<covering id="1" type= "acrylic filler">
<density unit= "ton/m3"> 1.43 </density>
<embodied_carbon unit= "kgCO2/ton"> 1070 </embodied_carbon>
<recycling_ratio> 0 </recycling_ratio>
<onsite_recycling_ratio> 0 </onsite_recycling_ratio>
<company_recycling_ratio> 0 </company_recycling_ratio>
<landfilling_ratio> 1 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</covering>
<covering id="2" type= "anhydrite floor">
<density unit= "ton/m3"> 1.43 </density>
<embodied_carbon unit= "kgCO2/ton"> 240 </embodied_carbon>
<recycling_ratio> 0 </recycling_ratio>
<onsite_recycling_ratio> 0 </onsite_recycling_ratio>
<company_recycling_ratio> 0 </company_recycling_ratio>
<landfilling_ratio> 1 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</covering>
<covering id="3" type= "base plaster">
<density unit= "ton/m3"> 1.43 </density>
<embodied_carbon unit= "kgCO2/ton"> 430 </embodied_carbon>
<recycling_ratio> 0 </recycling_ratio>
<onsite_recycling_ratio> 0 </onsite_recycling_ratio>
<company_recycling_ratio> 0 </company_recycling_ratio>
<landfilling_ratio> 1 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</covering>
<covering id="4" type= "cement cast plaster floor">
<density unit= "ton/m3"> 1.43 </density>
<embodied_carbon unit= "kgCO2/ton"> 340 </embodied_carbon>
<recycling_ratio> 0 </recycling_ratio>
<onsite_recycling_ratio> 0 </onsite_recycling_ratio>
<company_recycling_ratio> 0 </company_recycling_ratio>
<landfilling_ratio> 1 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</covering>
<covering id="5" type= "cement tile">
<density unit= "ton/m3"> 1.2 </density>
<embodied_carbon unit= "kgCO2/ton"> 440 </embodied_carbon>
<recycling_ratio> 0.8 </recycling_ratio>
<onsite_recycling_ratio> 0 </onsite_recycling_ratio>
<company_recycling_ratio> 1 </company_recycling_ratio>
<landfilling_ratio> 0.2 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</covering>
<covering id="6" type= "ceramic tile">
<density unit= "ton/m3"> 2.1 </density>
<embodied_carbon unit= "kgCO2/ton"> 1410 </embodied_carbon>
<recycling_ratio> 0.8 </recycling_ratio>
<onsite_recycling_ratio> 0 </onsite_recycling_ratio>
<company_recycling_ratio> 1 </company_recycling_ratio>
<landfilling_ratio> 0.2 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</covering>
<covering id="7" type= "clay plaster">
<density unit= "ton/m3"> 1.43 </density>
<embodied_carbon unit= "kgCO2/ton"> 250 </embodied_carbon>
<recycling_ratio> 0 </recycling_ratio>
<onsite_recycling_ratio> 0 </onsite_recycling_ratio>
<company_recycling_ratio> 0 </company_recycling_ratio>
<landfilling_ratio> 1 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</covering>
<covering id="7" type= "fiber cement corrugated slab">
<density unit= "ton/m3"> 1.44 </density>
<embodied_carbon unit= "kgCO2/ton"> 1480 </embodied_carbon>
<recycling_ratio> 0.8 </recycling_ratio>
<onsite_recycling_ratio> 0 </onsite_recycling_ratio>
<company_recycling_ratio> 1 </company_recycling_ratio>
<landfilling_ratio> 0.2 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</covering>
<covering id="7" type= "fiber cement facing tile">
<density unit= "ton/m3"> 1.44 </density>
<embodied_carbon unit= "kgCO2/ton"> 2220 </embodied_carbon>
<recycling_ratio> 0.8 </recycling_ratio>
<onsite_recycling_ratio> 0 </onsite_recycling_ratio>
<company_recycling_ratio> 1 </company_recycling_ratio>
<landfilling_ratio> 0.2 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</covering>
<covering id="7" type= "gypsum fibreboard">
<density unit= "ton/m3"> 1.27 </density>
<embodied_carbon unit= "kgCO2/ton"> 3960 </embodied_carbon>
<recycling_ratio> 0.8 </recycling_ratio>
<onsite_recycling_ratio> 0 </onsite_recycling_ratio>
<company_recycling_ratio> 1 </company_recycling_ratio>
<landfilling_ratio> 0.2 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</covering>
<covering id="7" type= "gypsum plaster board">
<density unit= "ton/m3"> 1.15 </density>
<embodied_carbon unit= "kgCO2/ton"> 760 </embodied_carbon>
<recycling_ratio> 0.8 </recycling_ratio>
<onsite_recycling_ratio> 0 </onsite_recycling_ratio>
<company_recycling_ratio> 1 </company_recycling_ratio>
<landfilling_ratio> 0.2 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</covering>
</coverings>
<metals>
<metal id="1" type= "steel">
<density unit= "ton/m3"> 8 </density>
<embodied_carbon unit= "kgCO2/ton"> 3160 </embodied_carbon>
<recycling_ratio> 0.98</recycling_ratio>
<onsite_recycling_ratio> 0 </onsite_recycling_ratio>
<company_recycling_ratio> 1 </company_recycling_ratio>
<landfilling_ratio> 0.02 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</metal>
<metal id="2" type= "aluminium">
<density unit= "ton/m3"> 2.7 </density>
<embodied_carbon unit= "kgCO2/ton"> 5370 </embodied_carbon>
<recycling_ratio> 0.98</recycling_ratio>
<onsite_recycling_ratio> 0 </onsite_recycling_ratio>
<company_recycling_ratio> 1 </company_recycling_ratio>
<landfilling_ratio> 0.02 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</metal>
<metal id="3" type= "reinforcing steel">
<density unit= "ton/m3"> 7.85 </density>
<embodied_carbon unit= "kgCO2/ton"> 3910 </embodied_carbon>
<recycling_ratio> 0.98</recycling_ratio>
<onsite_recycling_ratio> 0 </onsite_recycling_ratio>
<company_recycling_ratio> 1 </company_recycling_ratio>
<landfilling_ratio> 0.02 </landfilling_ratio>
<cost unit= "...."> .... </cost>
</metal>
</metals>
</Building_materials>
</library>