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Life cycle assessment of flax shives derived second generation ethanol fueled automobiles in Spain

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  • González-García, Sara
  • Luo, Lin
  • Moreira, Mª Teresa
  • Feijoo, Gumersindo
  • Huppes, Gjalt

Abstract

Biofuel use seems to have certain environmental, energy and socioeconomic advantages versus fossil fuel consumption. The substitution of fossil fuels with biofuels can be a useful tool to fulfil the Spanish and European policy in relation to mitigation of greenhouse gas (GHG) emissions and increase the security in energy supply. The continuous increase in energy consumption, dependence on energy and high petroleum prices has motivated increasing support for renewable energy promotion. In Spain (the third ethanol producer in Europe in 2007), ethanol from lignocellulosic feedstocks could be one of the most valuable and interesting possibilities for renewable transportation fuels due to the limited competition with food production and high net reduction of GHG emissions. This study is focused on flax shives, obtained as an agricultural co-product from flax crops dedicated to fibre production for specialty paper pulp manufacture as lignocellulosic biomass to produce second generation ethanol involving the use of cellulosic technology. The life cycle assessment (LCA) methodology was used to evaluate the environmental impacts of the production and use in a flexi fuel vehicle (FFV) of ethanol blends (10 and 85% in volume of ethanol with gasoline) versus conventional gasoline, throughout their whole life cycle in order to highlight the main sources of these impacts. The system boundaries include cultivation, extraction, processing and final use of fuels. Mass and economic allocation were considered to determine the effect on the results of different allocation approaches. The results of the study show that the allocation methods are essential for outcomes and decision-making. Using ethanol as transportation fuel could present better environmental performance than conventional gasoline in terms of global warming and fossil fuel consumption according to mass allocation. However, environmental credits could be achieved in terms of acidification, fossil fuel consumption and human toxicity according to economic allocation. Contributions to other impact categories such as eutrophication and photochemical oxidants formation were lower for conventional gasoline regardless of the allocation procedure selected. Agricultural activities related to feedstock production are notable contributors to the environmental performance. Thus, high yielding varieties, reduction of tillage activities and reduction in fertilization should help to reduce these impacts.

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  • González-García, Sara & Luo, Lin & Moreira, Mª Teresa & Feijoo, Gumersindo & Huppes, Gjalt, 2009. "Life cycle assessment of flax shives derived second generation ethanol fueled automobiles in Spain," Renewable and Sustainable Energy Reviews, Elsevier, vol. 13(8), pages 1922-1933, October.
    • Handle: RePEc:eee:rensus:v:13:y:2009:i:8:p:1922-1933
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    2. Carneiro, Maria Luisa N.M. & Pradelle, Florian & Braga, Sergio L. & Gomes, Marcos Sebastião P. & Martins, Ana Rosa F.A. & Turkovics, Franck & Pradelle, Renata N.C., 2017. "Potential of biofuels from algae: Comparison with fossil fuels, ethanol and biodiesel in Europe and Brazil through life cycle assessment (LCA)," Renewable and Sustainable Energy Reviews, Elsevier, vol. 73(C), pages 632-653.
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    4. Wiloso, Edi Iswanto & Heijungs, Reinout & de Snoo, Geert R., 2012. "LCA of second generation bioethanol: A review and some issues to be resolved for good LCA practice," Renewable and Sustainable Energy Reviews, Elsevier, vol. 16(7), pages 5295-5308.
    5. Saner, Dominik & Juraske, Ronnie & Kübert, Markus & Blum, Philipp & Hellweg, Stefanie & Bayer, Peter, 2010. "Is it only CO2 that matters? A life cycle perspective on shallow geothermal systems," Renewable and Sustainable Energy Reviews, Elsevier, vol. 14(7), pages 1798-1813, September.
    6. Menten, Fabio & Chèze, Benoît & Patouillard, Laure & Bouvart, Frédérique, 2013. "A review of LCA greenhouse gas emissions results for advanced biofuels: The use of meta-regression analysis," Renewable and Sustainable Energy Reviews, Elsevier, vol. 26(C), pages 108-134.
    7. Ling-Chin, J. & Heidrich, O. & Roskilly, A.P., 2016. "Life cycle assessment (LCA) – from analysing methodology development to introducing an LCA framework for marine photovoltaic (PV) systems," Renewable and Sustainable Energy Reviews, Elsevier, vol. 59(C), pages 352-378.
    8. Dufour, Javier & Iribarren, Diego, 2012. "Life cycle assessment of biodiesel production from free fatty acid-rich wastes," Renewable Energy, Elsevier, vol. 38(1), pages 155-162.
    9. Hijazi, O. & Munro, S. & Zerhusen, B. & Effenberger, M., 2016. "Review of life cycle assessment for biogas production in Europe," Renewable and Sustainable Energy Reviews, Elsevier, vol. 54(C), pages 1291-1300.
    10. Nourelhouda Boukaous & Lokmane Abdelouahed & Mustapha Chikhi & Abdeslam-Hassen Meniai & Chetna Mohabeer & Taouk Bechara, 2018. "Combustion of Flax Shives, Beech Wood, Pure Woody Pseudo-Components and Their Chars: A Thermal and Kinetic Study," Energies, MDPI, vol. 11(8), pages 1-16, August.
    11. Forte, Annachiara & Zucaro, Amalia & Faugno, Salvatore & Basosi, Riccardo & Fierro, Angelo, 2018. "Carbon footprint and fossil energy consumption of bio-ethanol fuel production from Arundo donax L. crops on marginal lands of Southern Italy," Energy, Elsevier, vol. 150(C), pages 222-235.
    12. Zhang, XiaoHong & Pan, HengYu & Cao, Jun & Li, JinRong, 2015. "Energy consumption of China’s crop production system and the related emissions," Renewable and Sustainable Energy Reviews, Elsevier, vol. 43(C), pages 111-125.
    13. Borrion, Aiduan Li & McManus, Marcelle C. & Hammond, Geoffrey P., 2012. "Environmental life cycle assessment of lignocellulosic conversion to ethanol: A review," Renewable and Sustainable Energy Reviews, Elsevier, vol. 16(7), pages 4638-4650.
    14. Tahereh Soleymani Angili & Katarzyna Grzesik & Anne Rödl & Martin Kaltschmitt, 2021. "Life Cycle Assessment of Bioethanol Production: A Review of Feedstock, Technology and Methodology," Energies, MDPI, vol. 14(10), pages 1-18, May.
    15. Daylan, B. & Ciliz, N., 2016. "Life cycle assessment and environmental life cycle costing analysis of lignocellulosic bioethanol as an alternative transportation fuel," Renewable Energy, Elsevier, vol. 89(C), pages 578-587.
    16. Menten, Fabio & Tchung-Ming, Stéphane & Lorne, Daphné & Bouvart, Frédérique, 2015. "Lessons from the use of a long-term energy model for consequential life cycle assessment: The BTL case," Renewable and Sustainable Energy Reviews, Elsevier, vol. 43(C), pages 942-960.
    17. González-García, Sara & Gasol, Carles M. & Gabarrell, Xavier & Rieradevall, Joan & Moreira, Ma Teresa & Feijoo, Gumersindo, 2010. "Environmental profile of ethanol from poplar biomass as transport fuel in Southern Europe," Renewable Energy, Elsevier, vol. 35(5), pages 1014-1023.
    18. González-García, Sara & Gasol, Carles M. & Gabarrell, Xavier & Rieradevall, Joan & Moreira, Mª Teresa & Feijoo, Gumersindo, 2009. "Environmental aspects of ethanol-based fuels from Brassica carinata: A case study of second generation ethanol," Renewable and Sustainable Energy Reviews, Elsevier, vol. 13(9), pages 2613-2620, December.
    19. Faleh, Nahla & Khila, Zouhour & Wahada, Zeineb & Pons, Marie-Noëlle & Houas, Ammar & Hajjaji, Noureddine, 2018. "Exergo-environmental life cycle assessment of biodiesel production from mutton tallow transesterification," Renewable Energy, Elsevier, vol. 127(C), pages 74-83.

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    More about this item

    Keywords

    Allocation Ethanol fuels E10 E85 Flax shives Life cycle assessment (LCA);

    JEL classification:

    • E10 - Macroeconomics and Monetary Economics - - General Aggregative Models - - - General

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