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Bioconversion of synthesis gas to second generation biofuels: A review

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  • Mohammadi, Maedeh
  • Najafpour, Ghasem D.
  • Younesi, Habibollah
  • Lahijani, Pooya
  • Uzir, Mohamad Hekarl
  • Mohamed, Abdul Rahman

Abstract

The ever increasing concerns over fluctuating price of oil and the possible future supply constrains have reinforced the need for alternative fuel resources. Use of synthesis gas (syngas) to generate fuels through a microbial route would likely be an option to address part of this challenge. Syngas fermentation offers a pathway for sustainable synthesis of fuels and chemicals with lots of advantages over catalytic syngas conversion. This work reviews the available literature on production of second generation biofuels from syngas using various biocatalysts. The potential of syngas fermentation using acetogenic, hydrogenogenic and methanogenic organisms have been surveyed. A vast variety of biofuels and biochemicals including ethanol, acetate, hydrogen, butanol, butyrate, methane and etc. have been produced from gaseous substrates using microbial catalysts. The role of various parameters including medium composition, fermentation pH, trace elements, reducing agents and mass transfer limitations on bioconversion process has been extensively discussed. From this survey of literature it has been deduced that despite years of research and endeavors, fermentation of syngas to biofuels is still a relatively immature technology and long-term view for this potential conversion should be undertaken for future commercial deployments.

Suggested Citation

  • Mohammadi, Maedeh & Najafpour, Ghasem D. & Younesi, Habibollah & Lahijani, Pooya & Uzir, Mohamad Hekarl & Mohamed, Abdul Rahman, 2011. "Bioconversion of synthesis gas to second generation biofuels: A review," Renewable and Sustainable Energy Reviews, Elsevier, vol. 15(9), pages 4255-4273.
    • Handle: RePEc:eee:rensus:v:15:y:2011:i:9:p:4255-4273
    DOI: 10.1016/j.rser.2011.07.124
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    References listed on IDEAS

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    1. Fatih Demirbas, M., 2009. "Biorefineries for biofuel upgrading: A critical review," Applied Energy, Elsevier, vol. 86(Supplemen), pages 151-161, November.
    2. Alauddin, Zainal Alimuddin Bin Zainal & Lahijani, Pooya & Mohammadi, Maedeh & Mohamed, Abdul Rahman, 2010. "Gasification of lignocellulosic biomass in fluidized beds for renewable energy development: A review," Renewable and Sustainable Energy Reviews, Elsevier, vol. 14(9), pages 2852-2862, December.
    3. Damartzis, T. & Zabaniotou, A., 2011. "Thermochemical conversion of biomass to second generation biofuels through integrated process design--A review," Renewable and Sustainable Energy Reviews, Elsevier, vol. 15(1), pages 366-378, January.
    4. Naik, S.N. & Goud, Vaibhav V. & Rout, Prasant K. & Dalai, Ajay K., 2010. "Production of first and second generation biofuels: A comprehensive review," Renewable and Sustainable Energy Reviews, Elsevier, vol. 14(2), pages 578-597, February.
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    6. Abubackar, Haris Nalakath & Bengelsdorf, Frank R. & Dürre, Peter & Veiga, María C. & Kennes, Christian, 2016. "Improved operating strategy for continuous fermentation of carbon monoxide to fuel-ethanol by clostridia," Applied Energy, Elsevier, vol. 169(C), pages 210-217.
    7. Tang, Yunheng & Huang, Yun & Gan, Wentian & Xia, Ao & Liao, Qiang & Zhu, Xianqing, 2021. "Ethanol production from gas fermentation: Rapid enrichment and domestication of bacterial community with continuous CO/CO2 gas," Renewable Energy, Elsevier, vol. 175(C), pages 337-344.
    8. Jack, Joshua & Lo, Jonathan & Donohue, Bryon & Maness, Pin-Ching & Jason Ren, Zhiyong, 2020. "High rate CO2 valorization to organics via CO mediated silica nanoparticle enhanced fermentation," Applied Energy, Elsevier, vol. 279(C).

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