Syngas fermentation

From Wikipedia, the free encyclopedia

Syngas fermentation, also known as synthesis gas fermentation, is a microbial process. In this process, a mixture of hydrogen, carbon monoxide, and carbon dioxide, known as syngas, is used as carbon and energy sources, and then converted into fuel and chemicals by microorganisms[1]. The main products of syngas fermentation include ethanol, butanol, acetic acid, butyric acid, and methane[2].

There are several microorganisms which can produce fuels and chemicals by syngas utilization. These microorganisms are mostly known as acetogens including Clostridium ljungdahlii[3], Clostridium autoethanogenum[4], Eurobacterium limosum[5], Clostridium carboxidivorans P7[6], Peptostreptococcus products[7], and Butyribacterium methylotrophicum[8].

Syngas fermentation process has advantages over a chemical process since it takes places at lower temperature and pressure, has higher reaction specificity, tolerates higher amounts of sulfur compounds, and does not require a specific CO:H2[2]. On the other hand, syngas fermentation has limitations such as:

[edit] Footnotes

  1. ^ a b (Brown, 2003)
  2. ^ a b c Worden, R.M., Bredwell, M.D., and Grethlein, A.J. (1997). Engineering issues in synthesis gas fermentations, Fuels and Chemicals from Biomass. Washington, DC: American Chemical Society, 321-335
  3. ^ Klasson, K.T., Ackerson, M. D., Clausen, E. C., and Gaddy, J.L. (1992). Bioconversion of synthesis gas into liquid or gaseous fuels. Enzyme and Microbial Technology, 14(8), 602-608.
  4. ^ Abrini, J., Naveau, H., and Nyns, E.J. (1994). Clostridium autoethanogenum, Sp-Nov, an Anaerobic bacterium that produces ethanol from carbon monoxide. Archives of Microbiology, 161(4), 345-351.">
  5. ^ Chang, I. S., Kim, B. H., Lovitt, R. W., and Bang, J. S. (2001). Effect of CO partial pressure on cell-recycled continuous CO fermentation by Eurobacterium limosum KIST612. Process Biochemistry, 37(4), 411-421..
  6. ^ Ahmed, A, and Lewis, R.S. (2007). Fermentation of biomass generated syngas:Effect of nitric oxide. Biotechnology and Bioengineering, 97(5), 1080-1086.
  7. ^ Misoph, M., and Drake, H.L. (1996). Effect of CO2 on the fermentation capacities of the acetogen Peptostreptococus products U-1. Journal of Bacteriology, 178(11), 3140-3145.
  8. ^ a b Henstra, A.M., Sipma, J., Reinzma, A., and Stams, A.J.M. (2007). Microbiology of synthesis gas fermentation for biofuel production. Current Opinion in Biotechnology, 18(3), 200-206

[edit] References

  • Brown, Robert F. (2003). Biorenewable resources: engineering new products from agriculture. Ames, Iowa: Iowa State Press. ISBN 0-8138-2263-7. 
This article is part of WikiProject Energy development, an attempt to better organize information in articles related to Energy development. If you would like to participate, you can edit the article attached to this page, or visit the project page, where you can join the project and/or contribute to the discussion.