LCA materials XML

This commit is contained in:
atiya 2021-11-18 16:55:49 -05:00
parent 5246cb27ee
commit 01ff8ddcf3
4 changed files with 220 additions and 24 deletions

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@ -12,16 +12,60 @@ class Material:
""" """
Material class Material class
""" """
def __init__(self): def __init__(self, type, material_id, material_name, density, density_unit, embodied_carbon, embodied_carbon_unit, recycling_ratio,
self._name = None onsite_recycling_ratio, company_recycling_ratio, landfilling_ratio, cost, cost_unit):
self._type = type
self._id = material_id
self._name = material_name
self._conductivity = None self._conductivity = None
self._specific_heat = None self._specific_heat = None
self._density = None self._density = density
self._density_unit = density_unit
self._solar_absorptance = None self._solar_absorptance = None
self._thermal_absorptance = None self._thermal_absorptance = None
self._visible_absorptance = None self._visible_absorptance = None
self._no_mass = False self._no_mass = False
self._thermal_resistance = None self._thermal_resistance = None
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 type(self):
"""
Get material type
:return: str
"""
return self._type
@type.setter
def type(self, value):
"""
Set material type
:param value: string
"""
self._type = str(value)
@property
def id(self):
"""
Get material id
:return: int
"""
return self._id
@id.setter
def id(self, value):
"""
Set material id
:param value: int
"""
self._id = int(value)
@property @property
def name(self): def name(self):
@ -84,12 +128,29 @@ class Material:
@density.setter @density.setter
def density(self, value): def density(self, value):
""" """
Set material density in kg/m3 Set material density
:param value: float :param value: float
""" """
if value is not None: if value is not None:
self._density = float(value) self._density = float(value)
@property
def density_unit(self) -> Union[None, str]:
"""
Get material density unit
:return: None or string
"""
return self._density_unit
@density_unit.setter
def density_unit(self, value):
"""
Set material density unit
:param value: string
"""
if value is not None:
self._density_unit = str(value)
@property @property
def solar_absorptance(self) -> Union[None, float]: def solar_absorptance(self) -> Union[None, float]:
""" """
@ -174,3 +235,139 @@ class Material:
""" """
if value is not None: if value is not None:
self._thermal_resistance = float(value) self._thermal_resistance = float(value)
@property
def embodied_carbon(self) -> Union[None, float]:
"""
Get material embodied carbon
:return: None or float
"""
return self._embodied_carbon
@embodied_carbon.setter
def embodied_carbon(self, value):
"""
Set material embodied carbon
:param value: float
"""
if value is not None:
self._embodied_carbon = float(value)
@property
def embodied_carbon_unit(self) -> Union[None, str]:
"""
Get material embodied carbon unit
:return: None or string
"""
return self._embodied_carbon
@embodied_carbon_unit.setter
def embodied_carbon_unit(self, value):
"""
Set material embodied carbon unit
:param value: string
"""
if value is not None:
self._embodied_carbon_unit = str(value)
@property
def recycling_ratio(self) -> Union[None, float]:
"""
Get material recycling ratio
:return: None or float
"""
return self._recycling_ratio
@recycling_ratio.setter
def recycling_ratio(self, value):
"""
Set material recycling ratio
:param value: float
"""
if value is not None:
self._recycling_ratio = float(value)
@property
def onsite_recycling_ratio(self) -> Union[None, float]:
"""
Get material onsite recycling ratio
:return: None or float
"""
return self._onsite_recycling_ratio
@onsite_recycling_ratio.setter
def onsite_recycling_ratio(self, value):
"""
Set material onsite recycling ratio
:param value: float
"""
if value is not None:
self._onsite_recycling_ratio = float(value)
@property
def company_recycling_ratio(self) -> Union[None, float]:
"""
Get material company recycling ratio
:return: None or float
"""
return self._company_recycling_ratio
@company_recycling_ratio.setter
def company_recycling_ratio(self, value):
"""
Set material company recycling ratio
:param value: float
"""
if value is not None:
self._company_recycling_ratio = float(value)
@property
def landfilling_ratio(self) -> Union[None, float]:
"""
Get material landfilling ratio
:return: None or float
"""
return self._landfilling_ratio
@landfilling_ratio.setter
def landfilling_ratio(self, value):
"""
Set material landfilling ratio
:param value: float
"""
if value is not None:
self._landfilling_ratio = float(value)
@property
def cost(self) -> Union[None, float]:
"""
Get material cost
:return: None or float
"""
return self._cost
@cost.setter
def cost(self, value):
"""
Set material cost
:param value: float
"""
if value is not None:
self._cost = float(value)
@property
def cost_unit(self) -> Union[None, str]:
"""
Get material cost unit
:return: None or string
"""
return self._cost_unit
@cost_unit.setter
def cost_unit(self, value):
"""
Set material cost unit
:param value: string
"""
if value is not None:
self._cost_unit = float(value)

View File

@ -9,11 +9,11 @@ class Material:
LCA Material class LCA Material class
""" """
def __init__(self, material_name, material_id, type, density, density_unit, embodied_carbon, embodied_carbon_unit, recycling_ratio, def __init__(self, type, material_id, material_name, density, density_unit, embodied_carbon, embodied_carbon_unit, recycling_ratio,
onsite_recycling_ratio, company_recycling_ratio, landfilling_ratio, cost, cost_unit): 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._type = type
self._material_id = material_id
self._material_name = material_name
self._density = density self._density = density
self._density_unit = density_unit self._density_unit = density_unit
self._embodied_carbon = embodied_carbon self._embodied_carbon = embodied_carbon

View File

@ -429,7 +429,7 @@
<landfilling_ratio> 0.4 </landfilling_ratio> <landfilling_ratio> 0.4 </landfilling_ratio>
<cost unit= "...."> .... </cost> <cost unit= "...."> .... </cost>
</material> </material>
<material type = "wood" id="1" name= "acrylic filler"> <material type = "covering" id="1" name= "acrylic filler">
<density unit= "ton/m3"> 1.43 </density> <density unit= "ton/m3"> 1.43 </density>
<embodied_carbon unit= "kgCO2/ton"> 1070 </embodied_carbon> <embodied_carbon unit= "kgCO2/ton"> 1070 </embodied_carbon>
<recycling_ratio> 0 </recycling_ratio> <recycling_ratio> 0 </recycling_ratio>
@ -438,7 +438,7 @@
<landfilling_ratio> 1 </landfilling_ratio> <landfilling_ratio> 1 </landfilling_ratio>
<cost unit= "...."> .... </cost> <cost unit= "...."> .... </cost>
</material> </material>
<material type = "wood" id="2" name= "anhydrite floor"> <material type = "covering" id="2" name= "anhydrite floor">
<density unit= "ton/m3"> 1.43 </density> <density unit= "ton/m3"> 1.43 </density>
<embodied_carbon unit= "kgCO2/ton"> 240 </embodied_carbon> <embodied_carbon unit= "kgCO2/ton"> 240 </embodied_carbon>
<recycling_ratio> 0 </recycling_ratio> <recycling_ratio> 0 </recycling_ratio>
@ -447,7 +447,7 @@
<landfilling_ratio> 1 </landfilling_ratio> <landfilling_ratio> 1 </landfilling_ratio>
<cost unit= "...."> .... </cost> <cost unit= "...."> .... </cost>
</material> </material>
<material type = "wood" id="3" name= "base plaster"> <material type = "covering" id="3" name= "base plaster">
<density unit= "ton/m3"> 1.43 </density> <density unit= "ton/m3"> 1.43 </density>
<embodied_carbon unit= "kgCO2/ton"> 430 </embodied_carbon> <embodied_carbon unit= "kgCO2/ton"> 430 </embodied_carbon>
<recycling_ratio> 0 </recycling_ratio> <recycling_ratio> 0 </recycling_ratio>
@ -456,7 +456,7 @@
<landfilling_ratio> 1 </landfilling_ratio> <landfilling_ratio> 1 </landfilling_ratio>
<cost unit= "...."> .... </cost> <cost unit= "...."> .... </cost>
</material> </material>
<material type = "wood" id="4" name= "cement cast plaster floor"> <material type = "covering" id="4" name= "cement cast plaster floor">
<density unit= "ton/m3"> 1.43 </density> <density unit= "ton/m3"> 1.43 </density>
<embodied_carbon unit= "kgCO2/ton"> 340 </embodied_carbon> <embodied_carbon unit= "kgCO2/ton"> 340 </embodied_carbon>
<recycling_ratio> 0 </recycling_ratio> <recycling_ratio> 0 </recycling_ratio>
@ -465,7 +465,7 @@
<landfilling_ratio> 1 </landfilling_ratio> <landfilling_ratio> 1 </landfilling_ratio>
<cost unit= "...."> .... </cost> <cost unit= "...."> .... </cost>
</material> </material>
<material type = "wood" id="5" name= "cement tile"> <material type = "covering" id="5" name= "cement tile">
<density unit= "ton/m3"> 1.2 </density> <density unit= "ton/m3"> 1.2 </density>
<embodied_carbon unit= "kgCO2/ton"> 440 </embodied_carbon> <embodied_carbon unit= "kgCO2/ton"> 440 </embodied_carbon>
<recycling_ratio> 0.8 </recycling_ratio> <recycling_ratio> 0.8 </recycling_ratio>
@ -474,7 +474,7 @@
<landfilling_ratio> 0.2 </landfilling_ratio> <landfilling_ratio> 0.2 </landfilling_ratio>
<cost unit= "...."> .... </cost> <cost unit= "...."> .... </cost>
</material> </material>
<material type = "wood" id="6" name= "ceramic tile"> <material type = "covering" id="6" name= "ceramic tile">
<density unit= "ton/m3"> 2.1 </density> <density unit= "ton/m3"> 2.1 </density>
<embodied_carbon unit= "kgCO2/ton"> 1410 </embodied_carbon> <embodied_carbon unit= "kgCO2/ton"> 1410 </embodied_carbon>
<recycling_ratio> 0.8 </recycling_ratio> <recycling_ratio> 0.8 </recycling_ratio>
@ -483,7 +483,7 @@
<landfilling_ratio> 0.2 </landfilling_ratio> <landfilling_ratio> 0.2 </landfilling_ratio>
<cost unit= "...."> .... </cost> <cost unit= "...."> .... </cost>
</material> </material>
<material type = "wood" id="7" name= "clay plaster"> <material type = "covering" id="7" name= "clay plaster">
<density unit= "ton/m3"> 1.43 </density> <density unit= "ton/m3"> 1.43 </density>
<embodied_carbon unit= "kgCO2/ton"> 250 </embodied_carbon> <embodied_carbon unit= "kgCO2/ton"> 250 </embodied_carbon>
<recycling_ratio> 0 </recycling_ratio> <recycling_ratio> 0 </recycling_ratio>
@ -492,7 +492,7 @@
<landfilling_ratio> 1 </landfilling_ratio> <landfilling_ratio> 1 </landfilling_ratio>
<cost unit= "...."> .... </cost> <cost unit= "...."> .... </cost>
</material> </material>
<material type = "wood" id="7" name= "fiber cement corrugated slab"> <material type = "covering" id="8" name= "fiber cement corrugated slab">
<density unit= "ton/m3"> 1.44 </density> <density unit= "ton/m3"> 1.44 </density>
<embodied_carbon unit= "kgCO2/ton"> 1480 </embodied_carbon> <embodied_carbon unit= "kgCO2/ton"> 1480 </embodied_carbon>
<recycling_ratio> 0.8 </recycling_ratio> <recycling_ratio> 0.8 </recycling_ratio>
@ -501,7 +501,7 @@
<landfilling_ratio> 0.2 </landfilling_ratio> <landfilling_ratio> 0.2 </landfilling_ratio>
<cost unit= "...."> .... </cost> <cost unit= "...."> .... </cost>
</material> </material>
<material type = "wood" id="7" name= "fiber cement facing tile"> <material type = "covering" id="9" name= "fiber cement facing tile">
<density unit= "ton/m3"> 1.44 </density> <density unit= "ton/m3"> 1.44 </density>
<embodied_carbon unit= "kgCO2/ton"> 2220 </embodied_carbon> <embodied_carbon unit= "kgCO2/ton"> 2220 </embodied_carbon>
<recycling_ratio> 0.8 </recycling_ratio> <recycling_ratio> 0.8 </recycling_ratio>
@ -510,7 +510,7 @@
<landfilling_ratio> 0.2 </landfilling_ratio> <landfilling_ratio> 0.2 </landfilling_ratio>
<cost unit= "...."> .... </cost> <cost unit= "...."> .... </cost>
</material> </material>
<material type = "wood" id="7" name= "gypsum fibreboard"> <material type = "wood" id="10" name= "gypsum fibreboard">
<density unit= "ton/m3"> 1.27 </density> <density unit= "ton/m3"> 1.27 </density>
<embodied_carbon unit= "kgCO2/ton"> 3960 </embodied_carbon> <embodied_carbon unit= "kgCO2/ton"> 3960 </embodied_carbon>
<recycling_ratio> 0.8 </recycling_ratio> <recycling_ratio> 0.8 </recycling_ratio>
@ -519,7 +519,7 @@
<landfilling_ratio> 0.2 </landfilling_ratio> <landfilling_ratio> 0.2 </landfilling_ratio>
<cost unit= "...."> .... </cost> <cost unit= "...."> .... </cost>
</material> </material>
<material type = "wood" id="7" name= "gypsum plaster board"> <material type = "covering" id="11" name= "gypsum plaster board">
<density unit= "ton/m3"> 1.15 </density> <density unit= "ton/m3"> 1.15 </density>
<embodied_carbon unit= "kgCO2/ton"> 760 </embodied_carbon> <embodied_carbon unit= "kgCO2/ton"> 760 </embodied_carbon>
<recycling_ratio> 0.8 </recycling_ratio> <recycling_ratio> 0.8 </recycling_ratio>

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@ -5,7 +5,7 @@ Copyright © 2020 Project Author Atiya
""" """
import xmltodict import xmltodict
from pathlib import Path from pathlib import Path
from city_model_structure.material import Material from city_model_structure.building_demand.material import Material
class LcaMaterial: class LcaMaterial:
def __init__(self, city, base_path): def __init__(self, city, base_path):
@ -25,11 +25,10 @@ class LcaMaterial:
# vehicle['fuel_consumption_rate']['@unit'], vehicle['carbon_emission_factor']['#text'], # vehicle['fuel_consumption_rate']['@unit'], vehicle['carbon_emission_factor']['#text'],
# vehicle['carbon_emission_factor']['@unit'])) # vehicle['carbon_emission_factor']['@unit']))
for material in self._lca["library"]["building_materials"]['material']: for material in self._lca["library"]["building_materials"]['material']:
material_name = "material" self._city.materials.append(Material(material['@type'], material['@id'], material['@name'], material['density']['#text'],
self._city.materials.append(Material(material['@type'], material['@id'], material['@name'], material['density']['#text'], material['density']['@unit'], material['density']['@unit'], material['embodied_carbon']['#text'], material['embodied_carbon']['@unit'],
material['embodied_carbon']['#text'], material['embodied_carbon']['@unit'], material['recycling_ratio'], material['recycling_ratio'], material['onsite_recycling_ratio'], material['company_recycling_ratio'],
material['onsite_recycling_ratio'], material['company_recycling_ratio'], material['landfilling_ratio'], material['landfilling_ratio'], material['cost']['#text'], material['cost']['@unit']))
material['cost']['#text'], material['cost']['@unit']))
# for concrete in self._lca["library"]["building_materials"]['concretes']['concrete']: # for concrete in self._lca["library"]["building_materials"]['concretes']['concrete']:
# material_name = "concrete" # material_name = "concrete"
# self._city.materials.append(Material(material_name, concrete['@id'], material['@type'], concrete['density']['#text'], concrete['density']['@unit'], # self._city.materials.append(Material(material_name, concrete['@id'], material['@type'], concrete['density']['#text'], concrete['density']['@unit'],