Data library
Impact Assessment Methods
Click on any method to see the available impact categories
CED
CML 4.8
EF3.1
EN15804+A2
Environmental Cost Indicator 2025
EPD supplementary indicators
ImpactWorld+ 2 - Damages version
ImpactWorld+ 2 - Midpoint version
IPCC 2021
ReCiPe 2016 - Endpoint/E
ReCiPe 2016 - Endpoint/H
ReCiPe 2016 - Endpoint/I
ReCiPe 2016 - Midpoint/E
ReCiPe 2016 - Midpoint/H
ReCiPe 2016 - Midpoint/I
Single categories
TRACI 2.1
EF3.1
Click on any impact category to see its details
Acidification
Climate change
Climate change (biogenic)
Climate change (fossil)
Climate change (land use and land use change)
Ecotoxicity, freshwater
Ecotoxicity, freshwater (inorganics)
Ecotoxicity, freshwater (organics)
EF single score
Eutrophication, freshwater
Eutrophication marine
Eutrophication, terrestrial
Human toxicity, cancer
Human toxicity, cancer (inorganics)
Human toxicity, cancer (organics)
Human toxicity, non-cancer
Human toxicity, non-cancer (inorganics)
Human toxicity, non-cancer (organics)
Ionising radiation, human health
Land use
Ozone depletion
Particulate Matter
Photochemical ozone formation, human health
Resource use, fossils
Resource use, minerals and metals
Water use
Ozone depletion
Unit: kg CFC11 equivalents
Description:
Based on 1999 WMO assessment (World Meteorological Organization 1999) 1999 WMO assessment of ozone depletion (World Meteorological Organization 1999). WMO model to calculate the relative contribution of different emissions to Ozone Depletion it is broadly accepted as the basis for all LCA midpoint models, and is very similar to the way the GHG equivalents are Calculated. Atmospheric lifetime + transport mechanisms combined with chlorine loads.Normalization factor: 0.0523483833840181 kg CFC11 equivalents
Emission factors: 468 exchanges considered