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Transcript of General Structure of Life Cycle Impact · PDF fileGeneral Structure of Life Cycle Impact...
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General Structure of Life Cycle Impact Assessment
Lecture
Mark Huijbregts Department of Environmental science
Radboud University
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• Life cycle impact assessment structure • Simple vs complex LCIA methods • Regionalisation • Assignment
Topics
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Effects of the resource use and emissions generated in a product life cycle are grouped and quantified into a limited number of impact categories which may then be weighted for importance (UNEP Life Cycle Initiative)
Definition Life Cycle Impact Assessment
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• 1970-1990 No standardization of methodology
Claims of environmental friendly products • 1990-2000 SETAC codes of practice (1993)
ISO standards (1993-1999) • 2000-now SETAC LCIA working groups (2002)
SETAC/UNEP Life cycle initiative (2002-) International research projects (2009-)
History of LCIA (I)
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History of LCIA(II)
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a) Selection and definition of impact categories, indicators and models
b) Classification c) Characterisation d) Normalisation e) Aggregation and /or weighting
Steps in Life Cycle Impact Assessment
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a. Selection of impact categories Resources Pollution ‘Physical stress’ - Abiotic
resources - Climate change
-
Land use
- Biotic resources
-
Ozone depletion
-
Victims
- Human toxicity - Eco - toxicity
-
Acidification
-
Eutrophication
-
Photochemical ozone formation
- Radioactivity - Waste heat - Odour - Noise Units are generally reference equivalents, e.g. kg CO2-eq/kg for climate change
midpoints
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Endpoints
Damage to human health (Years of Life Lost) Damage to ecosystem quality (Disappeared
fraction of species) Damage to resources (Extra energy demand) Damage to the man-made environment
(Euros)
a. Selection of impact categories
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Qualitatively determine per environ-mental intervention to which impact categorie(s) it contributes e.g. benzene contributes to human toxicity, ecotoxicity and photochemical ozone formation
b. Classification of interventions
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Quantitatively determine the impact score per environmental category A Characterisation Factor is a quantitative representation of the (relative) importance of a specific intervention e.g. the Global Warming Potential (GWP100) of Methane is 22 kg CO2-eq./kg or the human damage factor (HDF) of PM10 is 300 DALYs/kton
c. Characterisation of interventions
∑∑ ⋅=x i
ixix mCFIS ,,
IS = impact score CF = characterisation factor m = life cycle intervention x = substance i = emission compartment
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Acidification Potential SO2 NOx HCl etc.
SO2 equiv
Eutrophication Potential
NH3 NOx P etc.
N equiv
*CF = Characterization Factor IPCC 100
Global Warming Potential
CO2
CH4
SF6
etc.
CO2 equiv
CF=1
CF=25
CF=22,800
Substances/ flows Midpoint score per impact Category
Substances are multiplied by their characterization factor to convert into an equivalent substance (like CO2) and then added together to create a total for each impact category (like Global Warming Potential).
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• Schematic cause-response pathway • Endpoint reflects “issue of concern”, like flooding,
extinction of species, or human lives lost
LCI
results•CO2
•SOx
•Hg
•Oil
Environmental mechanism
Midpoint
Endpoint
Midpoint
Midpoint
p
I i di i h l h
• Impact category indicator is chosen along the environmental mechanism (midpoint)
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Example: global warming
Emissions
Emissions
Emissions
Amount of radiative forcing
Amount of radiative forcing
Atmospheric concentration Atmospheric concentration
Temp. increaseTemp. increase
Risk of species extinction
Risk of species extinction
Human life years lost
Human life years lost
Cause effect pathway
Midpoint Endpoints
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Midpoint is the first point in the pathway where impacts are unified
N2O
CH4
CO2
SF6
Environmental Mechanism (Heat Trapping)
Midpoint Infrared Radiative Forcing kg CO2 eq.
Low uncertainty in the midpoint characterization, high uncertainty in the emission leading to damage
High uncertainty in the accuracy of the result, lower uncertainty in emissions leading to damage
Temperature increase
Endpoint Human Health & Ecosystem Damage DALY, PDF
ReCiPe, 2008
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• Normalization is used to relate the environmental burden
of a product (or service) to the burden in its surroundings. In other words, “Normalization relates the micro world of an LCA study to the macro world in which the product/service is embedded”
• Normalization is an optional step
• Calculation per impact category: NS = IS/NF NS = the normalized impact score (year) IS = impact of the product system results prior to normalization (e.g. kg CO2-eq) NF = impact of the reference (e.g. kg CO2-eq/year in the world in 2005)
d. Normalisation
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Aggregation of the normalisation scores to a single environmental index with help of weighting factors (e.g. climate change is 10 times ‘worse’ compared to acidification or human health is ‘equally important’ compared to ecosystem quality)
e. Weighting
∑ ⋅=e
ee NSWFWS WS = environmental index WFe = weighting factor for impact category e NSe = Normalisation score for impact category e
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• Endpoint simplifies weighting between impact
categories • Endpoint simplifies comparison of stressors with
different modes of action • But … high uncertainty in the modeling of the full
cause-effect chain in endpoint assessment • Midpoint characterisation factors are considered
more robust comparted to endpoint characterisation factors
Midpoint versus endpoint
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ReCiPe 2008 Combining the Ecoindicator 99 and CML-method, i.e. providing midpoint and endpoint characterisation factors for the same set of interventions using the same models for quantifying the cause-effect chain
LCIA methods
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ReCiPe LCI
resultLCI
result
Rawmat.
Land use
CO2VOS
P SO2NOxCFC
CdPAHDDT
Rawmat.
Land use
CO2VOS
P SO2NOxCFC
CdPAHDDT
LCI resultLCI
result
Rawmat.
Land use
CO2VOS
P SO2NOxCFC
CdPAHDDT
Rawmat.
Land use
CO2VOS
P SO2NOxCFC
CdPAHDDT
Single score
Decr. Ozone P.
Ozone Conc.
Hazard. W. Dose
Absorbed Dose
PM10 Conc.
Infra-red ForcingClimate Change
Ozone depletion
RadiationHum tox
Particulate Form.
P. C. Ozone Form.
Resources SurpuscostDamage
Human
healthDALY
Damage
Damage
Damage
Damage
Damage
Minerals Cons.Fossil fuel Cons. Energy Content
Decrease Conc.
Hazard W. Conc.Marine Ecotox.
Marine Eutr.
Fresh water Eutr.
Fresh W. Ecotox
Algae Growth
Algae Growth.Hazard W. Conc
Nat. Land Transf.
Urban Land Occ.
Terr.Ecotox
Agr. Land Occ.Terr. Acidif.
Hazard W. Conc.
Occupied Area
Base Saturation
Transformed area
Ecosystems
Species ..yr
Terr. Damage
Fresh. Damage
MarineDamage
Water Cons. Water use
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Region-specific LCIA • Acidification • Eutrophication • Photochemical ozone formation • Toxicity On the level of nations, continents, Ecoregions, ...?
Research question Do region-specific characterisation factors show other product rankings compared to generic characterisation factors?
Regionalised LCIA on a global scale
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Midpoint: Phosphorous
Helmes et al., 2012. Int. J. LCA