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1. Creating the City Model from a GeoJSON File

Start by using the GeometryFactory class to create a city model from a GeoJSON file. This class reads building geometries and attributes from the file and constructs a city model.

city = GeometryFactory(
  "geojson",
  input_file,
  height_field="height",
  year_of_construction_field="contr_year",
  function_field="function_c",
  adjacency_field="adjacency",
  function_to_hub=Dictionaries().montreal_function_to_hub_function
).city
  • "geojson": Specifies the format of the input file.
  • input_file: The path to your GeoJSON file.
  • height_field="height": The attribute in the GeoJSON file that contains the building height.
  • year_of_construction_field="contr_year": The attribute for the building's year of construction.
  • function_field="function_c": The attribute for the building's function or usage.
  • adjacency_field="adjacency": The attribute indicating whether the building is attached or detached.
  • function_to_hub: A dictionary that maps the building functions to standardized functions used by HUB.

The city object now contains all the buildings from the GeoJSON file with their associated attributes.


2. Enriching the City with Construction Details

Use the ConstructionFactory to enrich the city model with construction details and calculation of the thermal zones and total floor area.

ConstructionFactory('nrcan', city).enrich()
  • 'nrcan': Specifies the source of construction data, in this case, NRCan.
  • city: The city model created in the previous step.

3. Assigning Energy Demands Using Archetypes

Finally, we assign energy demands to each building using the ResultFactory class and an archetype-based demand model. This basically maps buildings to predefined archetypes and assigning corresponding energy demand profiles.

ResultFactory('archetypes', city, demand_file).enrich()
  • 'archetypes': Specifies the handler we are using which in this case is archetype-based demand model.
  • city: The city.
  • demand_file: The path to the CSV file containing the archetype demand profiles.

4. Rules for Finding Archetypes and Assigning Demands

This mapping is based on the following building attributes:

  • Function
  • Height
  • Adjacency: Whether the building is attached or is detached.
  • Year of Construction

Mapping Rules:

Based on the building's function, height, and adjacency:

  • Residential Buildings ('residential', 'multifamily house', 'single family house'):

    • Single Family House:
      • Height less than 6 meters.
      • Adjacency: 'detached'.
      • usage = 'Single Family'.
    • Row House:
      • Height less than 6 meters.
      • Adjacency: 'attached'.
      • usage = 'Row house'.
    • Duplex/Triplex:
      • Height between 6 and 10 meters.
      • Adjacency: 'detached'.
      • usage = 'Duplex/triplex'.
    • Small MURBs (Multi-Unit Residential Buildings):
      • Height between 6 and 10 meters.
      • Adjacency: 'attached'.
      • usage = 'Small MURBs'.
    • Medium MURBs:
      • Height between 10 and 15 meters.
      • usage = 'Medium MURBs'.
    • Large MURBs:
      • Height greater than 15 meters.
      • usage = 'Large MURBs'.
  • Office Buildings ('office', 'office and administration'):

    • usage = 'Office'.
  • Commercial Buildings ('commercial', 'retail shop without refrigerated food', 'retail shop with refrigerated food', 'stand alone retail', 'strip mall'):

    • If adjacency is 'attached':
      • usage = 'Commercial attached'.
    • Else:
      • usage = 'Commercial detached'.

Determine Building Vintage (vintage):

Based on the building's year of construction:

  • Pre-1947:
    • year <= 1947.
    • vintage = 'Pre 1947'.
  • 1947-1983:
    • 1947 < year <= 1983.
    • vintage = '1947-1983'.
  • 1984-2010:
    • 1983 < year <= 2010.
    • vintage = '1984-2010'.
  • Post-2010:
    • year > 2010.
    • vintage = 'Post 2010'.

Combine usage and vintage to create the key:

archetype_key = f"{usage} {vintage}"

This key is used to look up the corresponding demand profiles in the archetype demand file.


Assigning Demands:

  1. Lookup Demand Profiles:

    Using the archetype_key, retrieve the hourly demand profiles from the demand_file. Each archetype has associated hourly demands for different energy uses.

  2. Scale Demands by Floor Area:

    Multiply the demand values by the building's total floor area.

  3. Assign Demands to Building:

    Set the building's demand attributes:

    building.heating_demand = [value * area for value in demand['Heating']]
    building.cooling_demand = [value * area for value in demand['Cooling']]
    building.domestic_hot_water_heat_demand = [value * area for value in demand['DHW']]
    building.appliances_electrical_demand = [value * area for value in demand['Equipment']]
    building.lighting_electrical_demand = [value * area for value in demand['Lighting']]
    

Example:

For a residential building with the following attributes:

  • Function: 'residential'
  • Height: 9 meters
  • Adjacency: 'attached'
  • Year of Construction: 1986

Mapping Steps:

  1. Usage:

    • Height is between 6 and 10 meters.
    • Adjacency is 'attached'.
    • Therefore, usage = 'Small MURBs'.
  2. Vintage:

    • Year is 1986, which falls in 1984-2010.
    • Therefore, vintage = '1984-2010'.
  3. Archetype Key:

    • archetype_key = 'Small MURBs 1984-2010'.