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Environmental and Health Impact Assessment of Biofuels for Transportation. CEEH Workshop February 6, 2008 Steen Solvang Jensen Department of Atmospheric Environment National Environmental Research Institute University of Aarhus, Denmark [email protected]. About the project. - PowerPoint PPT Presentation
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National Environmental Research Institute, University of Aarhus, Denmark
Environmental and Health Impact Assessment of Biofuels for Transportation
CEEH Workshop February 6, 2008
Steen Solvang JensenDepartment of Atmospheric EnvironmentNational Environmental Research InstituteUniversity of Aarhus, [email protected]
National Environmental Research Institute, University of Aarhus, Denmark
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About the project• The project is funded by the Strategic Research Council, Program
Committee for Energy and Environment in Denmark
• The budget for the project is 15 million DKK (3 million US$) for the period 2007 to 2010.
• 7 institutes participate in the project:– National Environmental Research Institute (Department of Policy
Analysis), University of Aarhus– National Environmental Research Institute (Department of Atmospheric
Environment), University of Aarhus– Risø National Laboratory (Department of System Analysis), Technical
University of Denmark – Danish Transport Research Institute, Technical University of Denmark – Danish Technological Institute (Renewable Energy and Transport)– Department of Chemical Engineering, Technical University of Denmark– Institute of Public Health, University of Copenhagen
National Environmental Research Institute, University of Aarhus, Denmark
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Background• Use of biofuels for transport in political focus due to:
– reduce climate change emissions– enhance energy supply security
• For the European Union– EU Biofuel Directive has target of 5.75% by 2010 for the biofuel
share of transport fuels– EC has proposed a target of 10 % by 2020– EC has proposed
• at least 20 % of the total energy use in EU in 2020 should be renewable energy
• a reduction in the energy consumption of 20 %• a reduction in the GHG emissions of 20 %
• important to carry out detailed analyses of the nation- and EU-wide implications in terms of changes in emissions, land-use and other environmental effects.
National Environmental Research Institute, University of Aarhus, Denmark
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Objectives
• To carry out a multi-disciplinary integrated impact assessment of introducing biofuels in Denmark, by covering both application and resource sides, and addressing a broad range of impacts, i.e. – emission and air quality changes– health aspects– resource and land-use changes– economic and sociological aspects.
• To compare impacts of using– biofuels against using conventional fossil fuels in the transport sector.– biofuels in the transport sector against using biofuels in other sectors
(combined heat and power).
National Environmental Research Institute, University of Aarhus, Denmark
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Project organisationProject coordinatorPia Frederiksen
Steering committeeJytte Illerup, Finn Palmgren Jensen, Steen
Solvang Jensen, Henrik Gudmundsson,Flemming Møller, Pia Frederiksen,
Peter Arndt Jensen
Advisory BoardCharles Nielsen (Dong Energy)
Jørgen E. Olesen (Danish Institute of Agricultural Sciences)Bo R. Larsen (European Commission)
Michael M. Jensen (Danish Petroleum Industry Association)Peder Jensen (European Environment Agency)Dorte Kubel (Environmental Protection Agency)
Kathrine H. Madsen (Danish Agricultural Advisory Service)Peter Trier (Danish Energy Authority)
Scenarios Henrik
Gudmundsson(Chair)
Kaj Jørgensen
Welfare economicanalyses
Flemming Møller(Chair)
Monica Campos
Land Use changePia Frederiksen
(Chair)Steen Gyldenkærne
Environment and healthSteen Solvang Jensen
(Chair)Steffen Loft
Emission projectionsMorten Winther
(Chair)Jytte Illerup
Sociological aspectsMette Jensen (Chair)Anne Holst Andersen
Emission measurementsand modelling
Finn Palmgren Jensen(Chair)
Peter Arndt JensenFrank Elefsen
National Environmental Research Institute, University of Aarhus, Denmark
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WP IScenarios in a renewable energy system
ResultThree different scenarios to 2030 for two biofuels (ethanol and diesel).These scenarios form the basis for all the other WPs.
Content• A baseline scenario based on national energy projections, and EC
policies and resource assessments. • The baseline scenario but with increasing use of biofuels from 2010 to
2030.• An impact-adopted scenario in which the use of biofuels is adopted to
given environmental limits.
National Environmental Research Institute, University of Aarhus, Denmark
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WP II Emission inventory and projections
ResultQuantification and comparison of the ‘Well to wheel’ (WTW) emissions from the scenarios described in WP I.
Content• WTW emission estimates for
– greenhouse gases (CO2, CH4 and N2O)– air pollutants SO2, NOx, NMVOC (including PAHs and carbonyls)– PM (particle number, size distribution and chemical composition).
• Projection of national emissions by means of forecast emission models for stationary combustion and mobile sources.
• Geographic distribution of emissions
National Environmental Research Institute, University of Aarhus, Denmark
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WP III + IV Emission measurements
ResultMeasurements of exhaust emissions from biofueled diesel engines and assessment of emission factors.
Content• Selection of engines
– Modern diesel engine with low NOx emission and particle filter (Peugeot 1,6 HDI)– Modern diesel engine with low particle emission and with NOx catalyst (Peugeot
1,6 HDI)– Older diesel engine (Golf 1.8, EURO II)
• Selection of fuels– Normal diesel and 20% added biodiesel
• Emission measurements on engines on a test rig.– CO2, NO/NOx, HC og CO– PM for analysis of organics– PM size distribution
• Literature studies• Development of models for particle formation and combustion in engines.
Simulations will be compared with experimental results (PhD study).
National Environmental Research Institute, University of Aarhus, Denmark
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WP V Environmental and health impact assessment Result
Description of impacts of using biofuels with focus on:– air quality and deposition– human exposure and public health
Content• Environmental impact assessment• In vitro toxicological assessment • Health impact assessment
National Environmental Research Institute, University of Aarhus, Denmark
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Environmental impact assessment
• air pollution impact assessment of the baseline and various biofuel scenarios at different geographic scales (regional to local) based on air quality modelling
• impacts covered are:• air quality (e.g. PM2.5, PM10, O3, NO2)• human exposure (combining air pollution data with population data)• deposition to the environment (e.g. N, S, AOT40, nitrate, sulphate)
• results related to:– WHO and EU air quality limit values– critical loads for various natural environments
National Environmental Research Institute, University of Aarhus, Denmark
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Linked modelling approach
Regional background concentrationsby DEHM
Urban background concentrationsby UBM
Street concentrationsby OSPM
National Environmental Research Institute, University of Aarhus, Denmark
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Regional background levels– Danish Eulerian Hemispheric
Model - (DEHM)• a nested transport-chemistry model
for the Northern Hemisphere• 150x150 km2 resolution over NH,
50x50 km2 resolution over Europe and 16.67x16.67 km2 resolution over Denmark
• emissions from GEIA, EDGAR, GENEMIS, EMEP (50x50 km2)
• meteorological data from MM5 or Eta by THOR system (150, 50 and 16.67 km2 from MM5, 39 km2 from Eta)
• hourly time-series of e.g. NOx, NO2, nitrate, N-deposition, SO2, sulphate, S-deposition, O3, CO and secondary particles incl. PM2.5, PM10
Brandt et al.
Europe
Denmark
Northern Hemisphere
National Environmental Research Institute, University of Aarhus, Denmark
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Urban background levels• Urban Background Model
(UBM)• area source plume model• simple photo-chemistry• interaction with regional
background• hourly time-series of NOx, NO2, O3,
CO, benzene and particles
• Emissions• 1x1 km2 emission grids for area
sources
• Meteorology • meteorological data from Eta by
THOR system (modelled) or from synoptic and radio-soundings (measured)
Example of UBM calculations for NO2
for the Greater Copenhagen Area
Berkowicz, R. (2000)
NO2 (µg/m3)10 - 1212 - 1515 - 1717 - 2121 - 2626 - 33
National Environmental Research Institute, University of Aarhus, Denmark
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Operational Street Pollution Model (OSPM)
• OSPM is a street air pollution model• output
• calculates one hour time-series of CO, benzene, NO2, O3 and particles (particle numbers, PM2.5, PM10)
• input• meteorology (hourly)• background conc. (hourly)• traffic (hourly)• emission factors
– COPERT– NERI emission factors
• Street configuration data
Roof level wind
Recirculating air
Direct plumeLeewardside
Windwardside
Background pollution
NO + O3 NO2
NO2 + hv O3 + NO
(Berkowicz et al. 1997;2000)
National Environmental Research Institute, University of Aarhus, Denmark
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AirGIS - system for exposure assessment
AirGIS uses AQ models, digital maps, registers and GIS to estimateAQ and exposure at address level or for routes
(Jensen et al. 2001)
Addresses Traffic
Population (CPR)
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National and local databases
Building height(gutter-terrainor BBR)
Digital maps- buildings- roads- addresses
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0 4 8 12 K ilo m eters
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ÅD T25 - 380 2380 3 - 1 059 5105 96 - 177 99178 00 - 281 14281 15 - 547 81
N O 2 å rs m idde l i 201 0 (µ g/m 3)# 18 - 29# 29 - 40# 40 - 44# 44 - 52# 52 - 63
Air quality at street level • AIRGIS makes it
possible to model air quality at large number of streets in an operational way
• Street configuration data is generated for the OSPM model by a GIS program
Example from Copenhagen: About 80 exceedances of NO2 limit value out of 138 streets in 2010
National Environmental Research Institute, University of Aarhus, Denmark
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Health assessment• Toxicological assessment in vitro
• assess particulate emissions sampled in WP III with respect to mechanisms and outcome in cell cultures, representing the lung and cardiovascular system
• compare with existing database on different particles (diesel exhaust, wood smoke and inert carbon black particles)
• Health impact assessment• estimation of dose-response relationships related to biofuels
will be provided• health impact assessment based on the above hazard data
and literature survey
Steffen LoftDept. of Occupational and
Environmental HealthUniversity of Copenhagen
Denmark
National Environmental Research Institute, University of Aarhus, Denmark
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Particulate emissions from WP III tested in cell lines and compared with database including particles from diesel emission, streets, wood smoke etc.
Cell lines- A549 lung cells- THP-1 monocytes (white blood cells)- HUVEC (or similar) vascular endothelium cells
End points related to cancer, lung disease and cardiovascular disease- LDH release (unspecific cell damage/death)- Reactive oxygen species formation (oxidative stress)- DNA damage – pure DNA and cells (oxidative stress and cancer)- inflammation (all diseases)- adhesion molecule expression (cardiovascular disease)- vascular function (atheroslerosis)
Establishment of dose-response
Part of PhD Study
Toxicological work
National Environmental Research Institute, University of Aarhus, Denmark
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Health Impact Assessment• Dose-response functions:
– based on toxicology work of the project– discussion of existing dose-response functions from:
• CAFE (Clean Air For Europe) (EU and also WHO)• ExternE (economic model of the EU Commission)
• Health impact assessment– will be based on the dose-response functions and the
exposure assessment for the different biofuel scenarios
– particles dominants health impact assessment
National Environmental Research Institute, University of Aarhus, Denmark
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Potential health end-points• Long-term effects (cases per year)
– years lost– mortality (premature death)– childhood mortality– new incidences of chronic bronchitis– death due to lung cancer
• Short-term effects (cases per year)– hospital admissions (heart decease, stroke, air ways
symptoms, asthma)– days with lower respiratory symptoms, use of asthma
medicine, asthma attacks– chronic coughing – restricted activity days
National Environmental Research Institute, University of Aarhus, Denmark
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Key health effect literature• ExternE
– European Commission (2005): ExternE Externalities of Energy. Methodology 2005 Update.– Danish EVA-system: Andersen, M.S., Frohn, L.M., Jensen, S.S., Nielsen, J.S., Sørensen, P.B., Hertel, O., Brandt, J.,
Christensen, J. (2004): Health Effect of Air Pollution – Social Unit Costs). NERI Technical Report No. 507, 2004 p. 88. • CAFE and WHO
– Systematic review of health effects of air pollution in Europe (WHO, June 2004)– Health aspects of air pollution with particulate matter, ozone and nitrogen dioxide. Report on a WHO working group.
Copenhagen, WHO Regional Office for Europe, 2003 (document EUR/03/5042688) (http://www.euro.who.int/document/e79097.pdf, accessed 13 May 2004).
– Meta-analysis of time-series studies and panel studies of particulate matter (PM) and ozone (O3). Copenhagen, WHO Regional Office for Europe, 2004 (document EUR/04/5042688) (http://www.euro.who.int/document/E82792.pdf, accessed13 May 2004).
– Health aspects of air pollution – answers to follow-up questions from CAFE. Report on a WHO working group. Copenhagen, WHO Regional Office for Europe, 2004 (document EUR/04/5046026) (http://www.euro.who.int/document/E82790.pdf, accessed 13 May 2004).
– The effects of air pollution on children’s health and development: a review of the evidence. Report on a WHO working group. Copenhagen, WHO Regional Office for Europe, 2004.
• The six city study:– Dockery, D.W.; Pope, C.A., III; Xu, X.; Spengler, J.D.; Ware, J.H.; Fay, M.E.; Ferris, B.G.; Speizer, F.A. An Association
between Air Pollution and Mortality in Six U.S. Cities; N. Engl. J. Med. 1993, 329, 1753-1759.• American Cancer Society study (151 U.S. cities)
– Pope, C.A., III; Thun, M.J.; Namboodiri, M.M.; Dockery, D.W.; Evans, J.S.; Speizer, F.E.; Heath, J.C.W. Particulate Air Pollution as a Predictor of Mortality in a Prospective Study of U.S. Adults; Am. J. Respir. Crit. Care. Med. 1995, 151, 669-674.
• The Adventist Health Study of Smog in US– Abbey, D.E.; Nishino, N.; McDonnell, W.F.; Burchette, R.J.; Knusten, S.F.; Beeson, W.L.; Yang, J.X. Long-Term Inhalable
Particles and Other Air Pollutants Related to Mortality in Nonsmokers; Am. J. Respir. Crit. Care Med. 1999, 159, 373-382.• Dutch cohort study
– Hoek, G., Brunekreef, B., Goldbohm, S., Fischer, P., van den Brandt, P.A. (2002): Association between mortality and indicators of traffic-related air pollution in the Netherlands: a cohort study. Lancet 2002; 360: 1203–09.
National Environmental Research Institute, University of Aarhus, Denmark
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Supplementary slides
National Environmental Research Institute, University of Aarhus, Denmark
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Project plan
• Eight different work packages (WP) covering:
– scenario development– emission measurements and modelling– air quality and exposure modelling – land-use modelling– socioeconomic and sociological analyses
National Environmental Research Institute, University of Aarhus, Denmark
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WP V Environmental and health impact assessment Result
Description of impacts of using biofuels with focus on air quality, deposition, human exposure and public health.
Content• Estimate
– air quality by means of air quality models– dose-response relationships related to biofuels
• In vitro toxicological assessment of PM exposure with respect to– inflammation– oxidative stress (PhD study).
National Environmental Research Institute, University of Aarhus, Denmark
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eWP VIProduction of biomass, its spatial distribution and its impact on the environment Result
Estimation of potentially available biomass resources from agriculture crop production and environmental impacts of land-use change scenarios.
Content• Develop models for spatial distribution of non-food crop production. • Assess the effects of the land-use change on nutrition and pesticide
emissions, and changes in carbon sequestration potential in biomass and soil.
• Develop spatial land-use scenarios which balance the demand for biomass production with environmental, nature and landscape protection (PhD study)
Inputs from WPI: ScenariosOutput to WP I and VII: Scenarios and welfare economic analyses
National Environmental Research Institute, University of Aarhus, Denmark
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WP VIIWelfare economic analyses of biofuel
production and use Result
‘Well to wheel’ welfare economic analyses of various biofuel scenarios.
ContentThe welfare cost-benefit analyses will include economic evaluation of • costs of production and use of biofuels• environmental and health consequences (positive and negative)• effects on the Danish agricultural landscape• impacts of increased energy security (Post Doc)
Inputs from WP V: Environment and health and WP VI: Biomass production
National Environmental Research Institute, University of Aarhus, Denmark
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WP VIIISociological aspects of scenarios for biofuels in the transport sectorResult: Sociological analysis of attitudes among the Danish population to the
consequences of the use of biofuels.
Content:The study will include in-depth interview with selected respondents as well as a number of focus-group interviews.– ethical and environmental questions– cultural approaches and future perspectives
Input from WP I: Scenarios Output to WP I: Scenarios
National Environmental Research Institute, University of Aarhus, Denmark
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Applications of the project
• Contribution to the scientific debate on biofuels in Denmark.
• Providing a solid foundation for the national and European policy process, and for decision-making by, among others, the European Environment Agency.
• Serving as input to environmental declarations and certification of biofuels.
National Environmental Research Institute, University of Aarhus, Denmark
WP VIII:Sociological
aspects
WP I:Scenarios
WP VI:Biomass production- spatial distribution
and environmental impact
WP II:Emission
calculations
WP III:Measurements
WP: Formation and transformation of pollutants
WP VII:Welfare economic
analyses
WP V:Environment and health
Project approach