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Biofuel impact on food prices index and land use change Shrestha DS, Staab BD, Duffleld JA Biomass & Bioenergy, 124, 43, 2019 |
2 |
Low-ILUC-risk ethanol from Hungarian maize Brinkman MLJ, Wicke B, Faaij APC Biomass & Bioenergy, 99, 57, 2017 |
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Strategic optimisation of biomass-based energy supply chains for sustainable mobility d'Amore F, Bezzo F Computers & Chemical Engineering, 87, 68, 2016 |
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Indirect land use change - Help beyond the hype? Finkbeiner M Biomass & Bioenergy, 62, 218, 2014 |
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Indirect land use change and biofuels: Mathematical analysis reveals a fundamental flaw in the regulatory approach Kim S, Dale BE, Heijungs R, Azapagic A, Darlington T, Kahlbaum D Biomass & Bioenergy, 71, 408, 2014 |
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System expansion for handling co-products in LCA of sugar cane bio-energy systems: GHG consequences of using molasses for ethanol production Nguyen TLT, Hermansen JE Applied Energy, 89(1), 254, 2012 |
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An alternative approach to indirect land use change: Allocating greenhouse gas effects among different uses of land Kim S, Dale BE, Ong RG Biomass & Bioenergy, 46, 447, 2012 |
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Comparing environmental consequences of anaerobic mono- and co-digestion of pig manure to produce bio-energy - A life cycle perspective De Vries JW, Vinken TMWJ, Hamelin L, De Boer IJM Bioresource Technology, 125, 239, 2012 |
9 |
The role of controversy, regulation and engineering in UK biofuel development Boucher P Energy Policy, 42, 148, 2012 |
10 |
Consequential life cycle assessment of the environmental impacts of an increased rapemethylester (RME) production in Switzerland Reinhard J, Zah R Biomass & Bioenergy, 35(6), 2361, 2011 |