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LITERATURE CITED

  • 1
    H.R. 6–110th Congress: Energy Independence and Security Act of 2007. (2007). In www.GovTrack.us. Retrieved March 14, 2013, from http://www.govtrack.us/congress/bills/110/hr6.
  • 2
    Brodeur-Campbell, M.J., Jensen, J.R., Eatmon, T.J., Sutherland, J.W., & Shonnard, D.R. (2008). Political feasibility, environmental sustainability, and economic efficiency analysis of conventional and advanced biofuels technologies in the U.S. Proceedings of the Global Conference on Sustainable Product Development and Life Cycle Engineering: Busan, Korea; Sept. 28-Oct. 1, 2008, 46–51.
  • 3
    US DOE. (2011). US Department of Energy. 2011. US billion-ton update: Biomass supply for a bioenergy and bioproducts industry. R.D. Perlack and B.J. Stokes (Leads), ORNL/TM-2011/224. Oak Ridge National Laboratory, Oak Ridge, TN. 227 p.
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    Shonnard, D.R., Brodeur-Campbell, M., Martin-Garcia, A.R., & Kalnes, T.K. (2012). Chemical engineering of bioenergy plants: Concepts and strategies. In C. Kole, C. Joshi, & D.R. Shonnard (Eds.), Handbook of bioenergy crop plants, CRC Press-Taylor and Francis, Boca Raton, FL, 133–164.
  • 5
    Jones, S.B., Valkenburg, C., Walton, C., Elliot, D.C., Holladay, J.E., Stevens, D.J., Kinchin, C., & Czernik, S. (2009). Production of gasoline and diesel from biomass via fast pyrolysis, hydrotreating and hydrocracking: a design case. Richland, WA: Pacific Northwest National Laboratory.
  • 6
    Wright, M.M., Daugaard, D.E., Satrio, J.A., & Brown, R.C. (2010). Techno-economic analysis of biomass fast pyrolysis to transportation fuels, Fuel 89 (Suppl. 1), S2S10.
  • 7
    Anex, R.P., Aden, A., Kabir Kazi, F., Fortman, J.A., Swanson, R.M., Wright, M.M., Satrio, J.A., Brown, R.C., Daugaard, D.E., Platon, A., Kothandaraman, G., Hsu, D.D., & Dutta, A. (2010). Techno-economic comparison of biomass-to-transportation fuels via pyrolysis, gasification, and biochemical pathways, Fuel, 89 (Suppl. 1), S29S35.
  • 8
    Hsu, D.D. (2011). Life cycle assessment of gasoline and diesel produced via fast pyrolysis and hydroprocessing, National Renewable Energy Laboratory, Technical Report NREL/TP-6A20–49341, http://www.nrel.gov/docs/fy11osti/49341.pdf.
  • 9
    Marker, T.L., Felix, L.G., Linck, M.B., & Roberts, M.J. (2012). Integrated hydropyrolysis and hydroconversion (IH2) for the direct production of gasoline and diesel fuels or blending components from biomass, part 1: Proof of principle testing, Environmental Progress and Sustainable Energy, 31, 191199.
  • 10
    Wang, M. (2011). Biofuel life-cycle analysis with the GREET Model, center for transportation research, Argonne National Laboratory, August 23, 2011. Available at: http://www.usbiomassboard.gov/pdfs/wang_tac_ q3_2011.pdf.
  • 11
    Marker, T.L., Felix, L.G., & Linck, M.B. (2010). Integrated hydropyrolysis and hydroconversion process for production of gasoline and diesel fuel from biomass, Biomass 2010. Available at: http://www1.eere.energy.gov/biomass/biomass2010/breakout_hydrocarbon_fuels.html.
  • 12
    ISO 14040. (2006). International organization for standardization, Life Cycle Assessment-Requirements and Guidelines, ISO 14044.
  • 13
    Eggleston, S., Buendia, L., Miwa, K., Ngara, T., & Tanabe, K. (2006). IPCC Guidlines for National Greenhouse Gas Inventories, Prepared by the National Greenhouse Gas Inventories Programme. Japan: IGES.
  • 14
    US EPA. (2011). eGRID. Available at: eGRID www.wapa.gov/es/greennews/default, Environmental Protection Agency, Accessed March 7.
  • 15
    Morey, R.V., Kaliyan, N., Tiffany, D.G., & Schmidt, D.R. (2010). Corn stover supply logistic system, Applied Engineering Agriculture and Biological Engineers, 26, 455461.
  • 16
    Maleche, E.A. (2012). Life Cycle Assessment of Biofuels Produced by the New Integrated Hydropyrolysis-Hydroconversion (IH2) Process, MS Thesis, Department of Chemical Engineering, Michigan Technological University, Houghton, MI USA, p. 75.
  • 17
    Handler, R.H., Canter, C.E., Kalnes, T.N., Lupton, F.S., Kholiqov, O., Shonnard, D.R., & Blowers, P. (2012). Evaluation of environmental impacts from microalgae cultivation in open-air raceway ponds: Analysis of the prior literature and investigation of wide variance in predicted impacts, Algal Research, 1, 8392.
  • 18
    Fan, J., Kalnes, T.N., Alward, M., Klinger, J., Sadehvandi, A., & Shonnard, D.R. (2011). Life cycle assessment of electricity generation using fast pyrolysis bio-oil, Renewable Energy, 36, 632641.
  • 19
    Skone, T.J. & Gerdes, K. (2009). Development of baseline data and analysis of life cycle greenhouse gas emissions of petroleum-based fuels. US Department of energy, national energy technology laboratory, office of systems, analysis and planning, DOE/NETL-2009/1346, November 26, 2008.