Post on 14-Jul-2015
Environmental Footprintingof Organisations
MSc thesis Industrial Ecology
Sanne de Groot14 November 2013
Imagine the result
IntroductionIndustrial Ecology at ARCADIS
Leiden University - Institute of Environmental Sciences
Reinout Heijungs
TU Delft - Technology, Policy and Management
Ellen van Bueren
Arcadis Nikki Spapens
Bianca Nijhof
Koen Seghers
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B. Component
database
A. Goal and scope of method
C. Steps
E. Evaluation
Context
D. Tool
Context
ARCADIS is a member of LfN network
• Incorporating biodiversity
• Internal actions
• Business opportunities
• Need for full range of environmental
aspects
• CO2,
• Water,
• Land use,
• Materials
• Multiple sectors
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B. Component
database
A. Goal and scope of method
C. Steps
E. Evaluation
Context
D. Tool
Goals
• Product for the market
• Component database
• Avoid missing environmental aspects
• ReCiPe
• Existing methods
• Carbon Footprint
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2. Benefits
3. Boundary
1. Goals
4. Methods
B. Component
database
A. Goal and scope of method
C. Steps
E. Evaluation
D. Tool
Context
Boundary
Environmental impacts
• Focus on biodiversity
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B. Component
database
A. Goal and scope of method
C. Steps
E. Evaluation
D. Tool
Context
2. Benefits
3. Boundary
1. Goals
4. Methods
Benefits
• Regulatory risks
Stringent regulations without proactive actions
• Reputational risks
• Market and product risks
Competitive advantage and added value
• Cost reductions
Energy saving, reduction in resource use, etc.
• Operational risks
Supply chain is depending on resources
Indirect emissions could increase costs
• Financing risks
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2. Benefits
3. Boundary
1. Goals
4. Methods
B. Component
database
A. Goal and scope of method
C. Steps
E. Evaluation
D. Tool
Context
Methods
EF
Carbon Footprint
ReCiPe
• Combined human toxicity
• Land occupation
Organisational Environmental Footprint (OEF)
• Location specific
• Acidification,
• Terrestrial Eutrophication
• Water depletion
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B. Component
database
A. Goal and scope of method
C. Steps
E. Evaluation
D. Tool
Context
2. Benefits
3. Boundary
1. Goal
4. Methods
Component database
Generic environmental impact data of certain
measures
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B. Component
database
A. Goal and scope of method
C. Steps
E. Evaluation
D. Tool
Context
2. Structure
3. Component
database
1. Overview
4.
Scope 1
in
scopes
1/2/3/3+
Scope 2
Scope 3
Impact assessment
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B. Component
database
A. Goal and scope of method
C. Steps
E. Evaluation
Context
D. Tool
1 kWh electrici ty mix, NL
Global Warming [kg CO2-eq] kg CO2-eq
Sulphur emiss ions [kg SO2] mol H+ eq
Nitrogen oxide emiss ions [kg NOx eq] mol N eq
Freshwater eutr. [kg P to freshw.] kg P to freshw.
Marine eutr. [kg N to freshwater] kg N to freshw.
Terrestria l ecotox. [kg 1,4-DB eq] kg 1,4-DB eq
Freshw. ecotox. [kg 1,4-DB eq] kg 1,4-DB eq
Marine ecotox. [kg 1,4-DB eq] kg 1,4-DB eq
Agr. Land occ. [yr*m2] yr*m2
Urban land occ. [yr*m2] yr*m2
Nat. land transf. [m2] m2
Ozone depletion [kg CFC-11 eq] kg CFC-11 eq
Human toxici ty [kg 1,4-DB eq] kg 1,4-DB eq
Photochemica l ozone f.[kg NMVOC] kg NMVOC
Particulate matter [kg PM10 eq] kg PM10 eq
Ionis ing radiation [kg U235 eq] kg U235 eq
Water consumption [m3] m3 eq
Minera l cons . [kg Fe eq] kg Sb eq
Foss i l cons . [kg oi l eq]
Impact
assessm
ent,NL
Component:
EnFOrsEnvironmental Footprinting of Organisations
• Geharmoniseerd met OEF-Guide van EC
• 18 milieu indicatoren
• 3 Niveaus: Organisatie - Locatie – Product
• LCA methodiek desgewenst inclusief
upstream en downstream
• Tijdsefficiënte assessment
• Hotspot identificatie
• Vergelijking met referentie
• Besluitvorming adhv alternatieve
componenten| 6 november 2013 | © ARCADIS 2013Dia 14
B. Component
database
A. Goal and scope of method
C. Steps
E. Evaluation
D. Tool
Context
Steps
1. Doel en afbakening
2. Input van bedrijfsspecifieke data (inventory)
3. Omrekening naar impact categorieën
4. Resultaten, vergelijking met referenties
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2. Input
3. Results
1. Goal and scope of
study
4. Interpre-tation and reporting
B. Component
database
A. Goal and scope of method
C. Steps
E. Evaluation
Context
D. Tool
Goal and Scope
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ORGANISATION
LOCATION B
SUPPLY CHAIN 1• Niveau bepaling
• Scoping
2. Input
3. Results
1. Goal and scope of
study
4. Interpre-tation and reporting
B. Component
database
A. Goal and scope of method
C. Steps
E. Evaluation
Context
D. Tool
Scope 1
in
scopes
1/2/3/3+
Scope 2
Scope 3
Amount input
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2. Input
3. Results
1. Goal and scope of
study
4. Interpre-tation and reporting
B. Component
database
A. Goal and scope of method
C. Steps
E. Evaluation
1 kWh electricity mix, nl
Global Warming [kg CO2-eq] 0,1371119
Acidification [kg SO2 eq] 0,0006243
Freshwater eutr. [kg P to freshw.] 0,000146
Marine eutr. [kg N to freshwater] 3,897E-05
Terrestrial ecotox. [kg 1,4-DB eq] 3,584E-05
Freshw. ecotox. [kg 1,4-DB eq] 0,002442
Marine ecotox. [kg 1,4-DB eq] 0,0025941
Agr. Land occ. [yr*m2] 0,0033208
Urban land occ. [yr*m2] 0,0006602
Nat. land transf. [m2] 2E-05
Terr. eutr. [mol N eq] 0,0055957
Ozone depletion [kg CFC-11 eq] 1,818E-08
Human toxicity [kg 1,4-DB eq] 0,161869
Photochemical ozone f.[kg NMVOC] 0,0003255
Particulate matter [kg PM10 eq] 0,0002336
Ionising radiation [kg U235 eq] 0,7104028
Water depletion [m3 eq] 0,0048533
Mineral, fossil cons. [kg Sb eq] 0,0174815
Amount input
1.422.114 kWh,NL
Context
D. Tool
Component:
Scope 1
in
scopes
1/2/3/3+
Scope 2
Scope 3
Results
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2. Input
3. Results
1. Goal and scope of
study
4. Interpre-tation and reporting
B. Component
database
A. Goal and scope of method
C. Steps
E. Evaluation
Scope 1
in
scopes
1/2/3/3+
Scope 2
Scope 31 kWh electricity mix, nl
Global Warming [kg CO2-eq] 0,1371119 194.989
Acidification [kg SO2 eq] 0,0006243 888
Freshwater eutr. [kg P to freshw.] 0,000146 208
Marine eutr. [kg N to freshwater] 3,897E-05 55
Terrestrial ecotox. [kg 1,4-DB eq] 3,584E-05 51
Freshw. ecotox. [kg 1,4-DB eq] 0,002442 3.473
Marine ecotox. [kg 1,4-DB eq] 0,0025941 3.689
Agr. Land occ. [yr*m2] 0,0033208 4.723
Urban land occ. [yr*m2] 0,0006602 939
Nat. land transf. [m2] 2E-05 28
Terr. eutr. [mol N eq] 0,0055957 7.958
Ozone depletion [kg CFC-11 eq] 1,818E-08 0
Human toxicity [kg 1,4-DB eq] 0,161869 230.196
Photochemical ozone f.[kg NMVOC] 0,0003255 463
Particulate matter [kg PM10 eq] 0,0002336 332
Ionising radiation [kg U235 eq] 0,7104028 1.010.274
Water depletion [m3 eq] 0,0048533 6.902
Mineral, fossil cons. [kg Sb eq] 0,0174815 24.861
Amount input
1.422.114 kWh,NL
Context
D. Tool
Component:
Conclusies
• Compleet beeld (impact categorieën en
levenscyclus)
• Tijd efficiënte studie
• Vergelijking met sector gemiddelden
• Ondersteunen besluitvorming
• Input voor andere milieu standaarden (e.g.
ISO 14000, EMAS, prestatieladder Carbon
Disclosure Project)
| 6 november 2013 | © ARCADIS 2013Dia 22
B. Component
database
A. Goal and scope of method
C. Steps
E. Evaluation
Context
D. Tool
| 6 november 2013 | © ARCADIS 2013Dia 23