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Environmental Aspects of the Biofuels for Transport in Europe G. Jungmeier JOANNEUM RESEARCH, Austria Biomass & Bioenergy Confenrece 2008 27 th – 29 th.

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Presentation on theme: "Environmental Aspects of the Biofuels for Transport in Europe G. Jungmeier JOANNEUM RESEARCH, Austria Biomass & Bioenergy Confenrece 2008 27 th – 29 th."— Presentation transcript:

1 Environmental Aspects of the Biofuels for Transport in Europe G. Jungmeier JOANNEUM RESEARCH, Austria Biomass & Bioenergy Confenrece 2008 27 th – 29 th February, Estonia Fair Center, Tallinn, Estonia

2 Greenhouse Gas Concentration in Atmosphere Source: IPCC 2007

3 Observed Changes

4 Outline Introduction Overview Biofuels Assessment of Biofuels Outlook Examples FT-Diesel

5 Source: www.ipcc.ch Global Anthropogenic Greenhouse Gas Emissions 2004

6 Source: www.ipcc.ch Greenhouse Gas Emissions per Sector 2004

7 Source: www.ipcc.ch Development Greenhouse Gas Emissions per Sector 2004

8 Source: www.ipcc.ch Vehicle Ownership 1900 - 2003

9 Source: www.ipcc.ch Global Energy Flow 2005

10 Source: www.ipcc.ch Global Energy Flow Outlook 2030

11 Overview of the Global Potential of Biomass for Energy World Primary Energy consumption (2006): 400 EJ/a

12 Role of Biofuels in the Energy Economy System “Energy Saving” – Reduction of useful energy consumption with same energy service, e.g. insulation of buildings Increasing of Energy Efficiency in energy conversion, e.g. hybrid vehicles (further) Increase of using Renewable Energy e.g. biofuels, solar energy Reduction of Greenhouse Gas Emissions, e.g. Kyoto-Target: minus 13% (2008-2012 ref. 1990) Reduction of local pollutants e.g. PM10, NO x Increasing of Energy Security e.g. domestic renewable energy Long term goal High efficient sustainable energy system based on 100% renewable energy

13 Outline Introduction Overview Biofuels Assessment of Biofuels Outlook Examples FT-Diesel

14 Overview Transportation Biofuels 1 st and 2 nd Generation 1)(pure) Vegetable oil 2)Biodiesel a)conventional biodiesel via esterification b)hydro-treated biodiesel via hydration 3)Bioethanol a) conventional bioethanol from sugar and starch b) lignocellulosic bioethanol 4)Biobutanol 5)Biogas 6)Synthetic biofuels a) Fischer-Tropsch biofuels (z.B. FT-Diesel) b) Synthetic natural gas (SNG) c) Dimethylester (DME) d) Methanol e) Synthetic hydrogen 7)Biological hydrogen 8)(upgraded) Pyrolyses oil 9)Biofuels from direct liquifaction a)HTU-Biofuels from hydro-thermal upgrading b)CLC-Biofuels from catalytic low temperature conversion

15 Overview Transportation Biofuels 1 st Generation 1)(pure) Vegetable oil 2)Biodiesel a)conventional biodiesel via esterification b)hydro-treated biodiesel via hydration 3)Bioethanol a) conventional bioethanol from sugar and starch b) lignocellulosic bioethanol 4)Biobutanol 5)Biogas 6)Synthetische Biotreibstoffe a) Fischer-Tropsch biofuels (z.B. FT-Diesel) b) Synthetic natural gas (SNG) c) Dimethylester (DME) d) Methanol e) Synthetic hydrogen 7)Biological hydrogen 8)(upgraded) Pyrolyses oil 9)Biofuels from direct liquifaction a)HTU-Biofuels from hydro-thermal upgrading b)CLC-Biofuels from catalytic low temperature conversion

16 Overview Transportation Biofuels 2 nd Generation 1)(pure) vegetable oil 2)Biodiesel a)conventional biodiesel via esterification b)hydro-treated biodiesel via hydration 3)Bioethanol a) conventional bioethanol from sugar and starch b) lignocellulosic bioethanol 4)Biobutanol 5)Biogas 6)Synthetic biofuels a) Fischer-Tropsch biofuels (z.B. FT-Diesel) b) Synthetic natural gas (SNG) c) Dimethylester (DME) d) Methanol e) Synthetic hydrogen 7)Biological hydrogen 8)(upgraded) Pyrolyses oil 9)Biofuels from direct liquifaction a)HTU-Biofuels from hydro-thermal upgrading b)CLC-Biofuels from catalytic low temperature conversion

17 Overview Biomass Raw Materials Biomass resources Forestry - Residues from thinning - Residues from harvesting Agriculture - oil crops e.g. rape, sunflower - sugar crops: e.g. sugar beet, sugar cane - starch crops: e.g. wheat, maize - lignocellulosic-crops: e.g. short rotation forestry, miscanthus - residues: e.g. straw, manure, grass Trade & Industry - sawn industry residues: e.g. bark - wood industry wastes: e.g. shavings - food and feed industry residues - bark - black liquour - organic fraction of MSW - sewage sludge

18 From Raw Material to Transportation Biofuels Raw materials  Oil crops  Sugar crops  Starch crops  Lignocellulosic crops  Residues  others Conversion processes  Bio-chemical  Thermo-chemical  Physical-chemical  others e.g. hydration Transportation Biofuels 1) (pure) Vegetable oil 2) Biodiesel 3) Bioethanol 4) Biobutanol 5) Biogas 6) Synthetic biofuels 7) Biological hydrogen 8) (upgraded) Pyrolyses oil 9) Biofuels from direct liquifaction Currently about 40 combinations Raw material/Conversion/Biofuel under discussion

19 State of Technology Lab-scale Process developing unit PDU Pilotplant Demoplant Commercial plant

20 State of Technology Lab-scale Process developing unit PDU Pilotplant Demoplant Commercial plant Conventional biodiesel Vegetable oil Conventional bioethanol

21 State of Technology Lab-scale Process developing unit PDU Pilotplant Demoplant Commercial plant Conventional biodiesel Vegetable oil Conventional bioethanol Biolog. hydrogen Biomethanol CLC-biofuel Pyrolyses oil

22 State of Technology Lab-scale Process developing unit PDU Pilotplant Demoplant Commercial plant Conventional biodiesel Vegetable oil Hydrotreated biodiesel Conventional bioethanol Biogas Biolog. hydrogen Biomethanol CLC-biofuel Pyrolyses oil

23 State of Technology Lab-scale Process developing unit PDU Pilotplant Demoplant Commercial plant Conventional biodiesel Vegetable oil Hydrotreated biodiesel Conventional bioethanol (ligno)cellulosic bioethanol Fischer-Tropsch (FT)-Biofuel Biogas Biolog. hydrogen Biobutanol Synthetic natural gas (SNG) BiomethanolBio-DME HTU-biofuel CLC-biofuel Pyrolyses oil

24 State of Technology Lab-scale Process developing unit PDU Pilotplant Demoplant Commercial plant Conventional biodiesel Vegetable oil Conventional bioethanol (ligno)cellulosic bioethanol Biogas Biolog. hydrogen Biobutanol Synthetic natural gas (SNG) BiomethanolBio-DME HTU-biofuel CLC-biofuel Pyrolyses oil Hydrotreated biodiesel Fischer-Tropsch (FT)-Biofuel 1 st generation2 nd generation

25 Outline Introduction Overview Biofuels Assessment of Biofuels Outlook Examples FT-Diesel

26 LCA Methodology According to ISO 14 040 „Life Cycle assessment“ Standard Methodology of IEA Bioenergy Task 38 „Greenhouse Gas Balances of Bioenergy systems“ Recommendations of COST Action E9 „Life Cycle Assess- ment of Forestry and Forest Products“ JRC/CONCAWE/EUCAR: Well-to-Wheels analysis of future automotive fuels and powertrains in the European context Common methodology available

27 Transportation Service Fossil Energy extraction Fossil Energy Transport Refinery Fossil Fuel Distribution Fossil Fuel Vehicle Biofuels Reference System Processes of LCA for Biofuels Biomass Production Biomass Transport Biofuel Production Biofuel Distribution Biofuel Vehicle Area Biomasse Reference- use By-products Conventional products

28 Greenhouse Gas Emissions Technology 2010 - 2020 Source: JRC/CONCAWE/EUCAR 2007 2 nd generation biofuels 1 st generation biofuels fossil fuels

29 Greenhouse Gas Emissions Technology 2010 - 2020 Source: JRC/CONCAWE/EUCAR 2007 2 nd generation biofuels 1 st generation biofuels fossil fuels

30 Greenhouse Gas Emissions Technology 2010 - 2020 Source: JRC/CONCAWE/EUCAR 2007 2 nd generation biofuels 1 st generation biofuels fossil fuels

31 Primary Energy Consumption Technology 2010 - 2020 2 nd generation biofuels 1 st generation biofuels fossil fuels Source: JRC/CONCAWE/EUCAR 2007

32 Primary Energy Consumption Technology 2010 - 2020 2 nd generation biofuels 1 st generation biofuels fossil fuels Source: JRC/CONCAWE/EUCAR 2007

33 Primary Energy Consumption Technology 2010 - 2020 2 nd generation biofuels 1 st generation biofuels fossil fuels Source: JRC/CONCAWE/EUCAR 2007

34 Outline Introduction Overview Biofuels Assessment of Biofuels Outlook Examples FT-Diesel

35 Wood Biofuel Polygeneration of Wood FT-Diesel Demonstration-Plant Heat Electricity Wood chips (4.6 t/h)35,000 t/a Biofuel (450 l/h)3.4 Mio. l/a Fuel Electricity (netto) Heat (70/90°C) 15 MW f 1.6 MW el 5.8 MW th Efficiencies (electr. 11%, heat 40%, biofuel 29%) 80%

36 Scheme Polygeneration of FT- Biofuel&Electricity&Heat

37 Greenhouse Gas Emissions - 87%

38 Outline Introduction Overview Biofuels Assessment of Biofuels Outlook Examples FT-Diesel

39 Major Influences on Environmental Aspects Environmental performance fuel consumption of vehicle use of by-products biomass resource uncertainty concerning future technology development amount of renewable energy in the energy system heating value: e.g. bioethanol propulsion system e.g. N 2 O

40 Indicators for „Sustainable Biomass“ 1. Environment:  Greenhouse gas balance (> 35%)  Land use change  Change of carbon storage pools  Loss of biodiversity  Competition  agriculture for food and feed  forestry: construction materials, wooden products, local energy use  Others: soil erosion, water resource, plant protection agents, GMOs... 2. Economic prosperity: e.g. labour creation, land owner ship 3. Social welfare: e.g. working conditions, healthiness Certification of biomasse raw materials and biofuels result

41 3. Full-chain biofuels cost analysis Types of results: mix development

42 3. Full-chain biofuels cost analysis Types of results: resource mix

43 Outlook Source: 4 th Assessment Report, www.ipcc.ch

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