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Thermochemical production of methanol from biomass in Hawaii

Author

Listed:
  • Phillips, V.D.
  • Kinoshita, C.M.
  • Neill, D.R.
  • Takahashi, P.K.

Abstract

Sufficient trees or grasses can be grown in Hawaii and converted into enough methanol to replace all of the gasoline and diesel fuel consumed in the State for ground transportation. A recent Hawaii Natural Energy Institute study shows that methanol can be produced from biomass via partial oxidation for $0·16 liter-1 (wholesale price at the plant gate), based on a 760 million liter per year (MLPY) methanol plant processing 7000 tonnes day-1 of biomass feedstock (50% moisture content) from a recurring annual harvest of approximately 36 000 hectares of intensively managed, short-rotation energy crops. The capital cost of this methanol-from-biomass facility would be roughly $280 million. Sufficient hydrogen added to the synthesis gas to convert all of the biomass carbon into methanol carbon would more than double the methanol produced from the same biomass base, yielding 1700 MLPY at $0·28 liter-1 at a capital cost of $335 million.

Suggested Citation

  • Phillips, V.D. & Kinoshita, C.M. & Neill, D.R. & Takahashi, P.K., 1990. "Thermochemical production of methanol from biomass in Hawaii," Applied Energy, Elsevier, vol. 35(3), pages 167-175.
    • Handle: RePEc:eee:appene:v:35:y:1990:i:3:p:167-175
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    Citations

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    Cited by:

    1. Panwar, N.L. & Kothari, Richa & Tyagi, V.V., 2012. "Thermo chemical conversion of biomass – Eco friendly energy routes," Renewable and Sustainable Energy Reviews, Elsevier, vol. 16(4), pages 1801-1816.
    2. Zhang, Hanfei & Desideri, Umberto, 2020. "Techno-economic optimization of power-to-methanol with co-electrolysis of CO2 and H2O in solid-oxide electrolyzers," Energy, Elsevier, vol. 199(C).
    3. Huda, A.S.N. & Mekhilef, S. & Ahsan, A., 2014. "Biomass energy in Bangladesh: Current status and prospects," Renewable and Sustainable Energy Reviews, Elsevier, vol. 30(C), pages 504-517.
    4. Zhang, Hanfei & Wang, Ligang & Pérez-Fortes, Mar & Van herle, Jan & Maréchal, François & Desideri, Umberto, 2020. "Techno-economic optimization of biomass-to-methanol with solid-oxide electrolyzer," Applied Energy, Elsevier, vol. 258(C).
    5. Liu, Yigang & Li, Guoxuan & Chen, Zhengrun & Shen, Yuanyuan & Zhang, Hongru & Wang, Shuai & Qi, Jianguang & Zhu, Zhaoyou & Wang, Yinglong & Gao, Jun, 2020. "Comprehensive analysis of environmental impacts and energy consumption of biomass-to-methanol and coal-to-methanol via life cycle assessment," Energy, Elsevier, vol. 204(C).
    6. Abdelkareem, Mohammad Ali & Allagui, Anis & Sayed, Enas Taha & El Haj Assad, M. & Said, Zafar & Elsaid, Khaled, 2019. "Comparative analysis of liquid versus vapor-feed passive direct methanol fuel cells," Renewable Energy, Elsevier, vol. 131(C), pages 563-584.
    7. Yang, Chi-Jen & Jackson, Robert B., 2012. "China's growing methanol economy and its implications for energy and the environment," Energy Policy, Elsevier, vol. 41(C), pages 878-884.
    8. Ferreira, Sérgio & Monteiro, Eliseu & Brito, Paulo & Vilarinho, Cândida, 2017. "Biomass resources in Portugal: Current status and prospects," Renewable and Sustainable Energy Reviews, Elsevier, vol. 78(C), pages 1221-1235.

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