Finalize building component calculation

2024-07-20 20:00:07 -04:00 · 2024-07-20 20:00:07 -04:00 · 9fd50b00f3
commit 9fd50b00f3
parent 4882023561
1 changed files with 23 additions and 18 deletions
--- a/lca_carbon_workflow.py
+++ b/lca_carbon_workflow.py
@ -54,6 +54,7 @@ class LCACarbonWorkflow:
    ConstructionFactory(self.handler, self.city).enrich()

  def calculate_building_component_emission(self, building):
+    surface_envelope_emission = []
    surface_opening_emission = []
    period_of_construction = self.nrcan_catalogs.year_to_period_of_construction(building.year_of_construction)
    print(period_of_construction)
@ -65,31 +66,38 @@ class LCACarbonWorkflow:
      '6')

    for surface in building.surfaces:
+      boundary_envelope_emission = []
      boundary_opening_emission = []
      for boundary in surface.associated_thermal_boundaries:
-        opening_emission = []
-        layer_emission = []
-        if boundary.window_ratio == 0:
-          opening_surface = 0
-          opening_material_emission = 0
-          for layer in boundary.layers:
-            layer_emission.append(EnvelopeEmission(
-              self.nrcan_catalogs.search_materials(
-                layer.material_name)['embodied_carbon'],
-              boundary.opaque_area,
-              layer.thickness).calculate_envelope_emission())
-# continue from here, but remember, since the area of windows and opaque is at hand, we may not need a conditional for window_ratio
+        opening_emission = None
+        layer_emission = self._calculate_envelope_emission(boundary)
+        boundary_envelope_emission += layer_emission

-        else:
+        if boundary.window_ratio:
          opening_emission = self._calculate_opening_emission(
            building, surface, boundary, opaque_surface_code)
        if opening_emission:
          boundary_opening_emission += opening_emission
-        print('boundary_opening_emission', boundary_opening_emission)
      if boundary_opening_emission:
        surface_opening_emission += boundary_opening_emission
+      surface_envelope_emission += boundary_envelope_emission
+    building_envelope_emission = sum(surface_envelope_emission)
    building_opening_emission = sum(surface_opening_emission)
-    # print(building_opening_emission)
+    building_component_emission = \
+      building_envelope_emission + building_opening_emission
+    print('\t\t\tbuilding_envelope_emission', building_envelope_emission)
+    print('\t\t\tbuilding_opening_emission', building_opening_emission)
+    print('\t\t\t\tbuilding_component_emission', building_component_emission)
+
+  def _calculate_envelope_emission(self, boundary):
+    layer_emission = []
+    for layer in boundary.layers:
+      if not layer.no_mass:
+        layer_emission.append(EnvelopeEmission(
+          self.nrcan_catalogs.search_materials(
+            layer.material_name)['embodied_carbon'],
+          boundary.opaque_area, layer.thickness).calculate_envelope_emission())
+    return layer_emission

  def _calculate_opening_emission(
          self, building, surface, boundary, opaque_surface_code):
@ -105,9 +113,6 @@ class LCACarbonWorkflow:
        opening.area).calculate_opening_emission())
    return opening_emission

-  def _calculate_envelope_emission(self):
-    pass
-
  def calculate_emission(self):
    for building in self.city.buildings:
      self.calculate_building_component_emission(building)