Add opening workload

This commit is contained in:
Alireza Adli 2024-07-31 15:26:12 -04:00
parent a5dc259861
commit ce5a148f54

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@ -74,13 +74,16 @@ class LCACarbonWorkflow:
for boundary in surface.associated_thermal_boundaries:
opening_emission = None
layer_emission = self._calculate_envelope_emission(boundary)
layer_emission, boundary_work_load = \
self._calculate_envelope_emission(boundary)
boundary_envelope_emission += layer_emission
boundary_volume.append(boundary.opaque_area * boundary.thickness)
if boundary.window_ratio:
opening_emission = self._calculate_opening_emission(
opening_emission, opening_workload = \
self._calculate_opening_emission(
building, surface, boundary, opaque_surface_code)
boundary_work_load += opening_workload
if opening_emission:
boundary_opening_emission += opening_emission
if boundary_opening_emission:
@ -96,6 +99,7 @@ class LCACarbonWorkflow:
def _calculate_envelope_emission(self, boundary):
layer_emission = []
boundary_workload = []
for layer in boundary.layers:
if not layer.no_mass:
layer_material = \
@ -103,12 +107,20 @@ class LCACarbonWorkflow:
layer_emission.append(EnvelopeEmission(
layer_material['embodied_carbon'],
boundary.opaque_area, layer.thickness).calculate_envelope_emission())
layer_workload = boundary.opaque_area * layer.thickness * layer_material['density']
return layer_emission
boundary_workload.append(
boundary.opaque_area * layer.thickness * layer_material['density'])
return layer_emission, sum(boundary_workload)
def _calculate_opening_emission(
self, building, surface, boundary, opaque_surface_code):
self,
building, surface, boundary, opaque_surface_code,
density=2579):
"""Windows have the assumed density of 2579 kg/m3
Window's thickness assumed the same as wall's thickness
These two values are being used to calculate window's workload
for End of Life emission evaluation."""
opening_emission = []
window_workload = []
for opening in boundary.thermal_openings:
transparent_surface_type = 'Window'
if building.year_of_construction >= 2020 and \
@ -118,7 +130,8 @@ class LCACarbonWorkflow:
self.nrcan_catalogs.search_transparent_surfaces(
transparent_surface_type, opaque_surface_code)['embodied_carbon'],
opening.area).calculate_opening_emission())
return opening_emission
window_workload.append(opening.area * boundary.thickness * density)
return opening_emission, sum(window_workload)
def calculate_emission(self):
for building in self.city.buildings: