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TC-Biomass 2011 Special Issue

Techno-economics for conversion of lignocellulosic biomass to ethanol by indirect gasification and mixed alcohol synthesis

  1. Abhijit Dutta1,*,
  2. Michael Talmadge1,
  3. Jesse Hensley1,
  4. Matt Worley2,
  5. Doug Dudgeon2,
  6. David Barton3,
  7. Peter Groenendijk4,
  8. Daniela Ferrari4,
  9. Brien Stears4,
  10. Erin Searcy5,
  11. Christopher Wright5,
  12. J. Richard Hess5

Article first published online: 30 MAR 2012

DOI: 10.1002/ep.10625

Issue

Environmental Progress & Sustainable Energy

Environmental Progress & Sustainable Energy

Special Issue: tcbiomass2011, The International Conference on Thermochemical Conversion Science

Volume 31, Issue 2, pages 182–190, July 2012

Additional Information

How to Cite

Dutta, A., Talmadge, M., Hensley, J., Worley, M., Dudgeon, D., Barton, D., Groenendijk, P., Ferrari, D., Stears, B., Searcy, E., Wright, C. and Hess, J. R. (2012), Techno-economics for conversion of lignocellulosic biomass to ethanol by indirect gasification and mixed alcohol synthesis. Environ. Prog. Sustainable Energy, 31: 182–190. doi: 10.1002/ep.10625

Author Information

  1. 1

    National Bioenergy Center, National Renewable Energy Laboratory, Golden, CO

  2. 2

    Harris Group Inc., Atlanta, Georgia and Seattle, WA

  3. 3

    Core Research and Development, The Dow Chemical Company, Midland, MI

  4. 4

    Hydrocarbons Research and Development, The Dow Chemical Company, Midland, MI

  5. 5

    Biofuels and Renewable Energy, Idaho National Laboratory, Idaho Falls, ID

*National Bioenergy Center, National Renewable Energy Laboratory, Golden, CO

Publication History

  1. Issue published online: 14 APR 2012
  2. Article first published online: 30 MAR 2012
  3. Manuscript Accepted: 9 OCT 2011
  4. Manuscript Revised: 5 OCT 2011
  5. Manuscript Received: 21 JUL 2011

Funded by

  • U.S. Department of Energy's Biomass Program

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Keywords:

  • biomass;
  • thermochemical conversion;
  • indirect gasification;
  • tar reforming;
  • mixed alcohols;
  • process design

Abstract

This techno-economic study investigates the production of ethanol and a higher alcohols coproduct by conversion of lignocelluosic biomass to syngas via indirect gasification followed by gas-to-liquids synthesis over a precommercial heterogeneous catalyst. The design specifies a processing capacity of 2,205 dry U.S. tons (2,000 dry metric tonnes) of woody biomass per day and incorporates 2012 research targets from NREL and other sources for technologies that will facilitate the future commercial production of cost-competitive ethanol. Major processes include indirect steam gasification, syngas cleanup, and catalytic synthesis of mixed alcohols, and ancillary processes include feed handling and drying, alcohol separation, steam and power generation, cooling water, and other operations support utilities. The design and analysis is based on research at NREL, other national laboratories, and The Dow Chemical Company, and it incorporates commercial technologies, process modeling using Aspen Plus software, equipment cost estimation, and discounted cash flow analysis. The design considers the economics of ethanol production assuming successful achievement of internal research targets and nth-plant costs and financing. The design yields 83.8 gallons of ethanol and 10.1 gallons of higher-molecular-weight alcohols per U.S. ton of biomass feedstock. A rigorous sensitivity analysis captures uncertainties in costs and plant performance. © 2012 American Institute of Chemical Engineers Environ Prog, 2012

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