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Electromethanogenesis is a form of electrofuel production where methane is produced by direct biological conversion from electrical current and carbon dioxide.^[1]^[2]^[3] The reduction process is carried out in a microbial electrolysis cell. An 2009 article by Cheng and Logan reports that a current capture efficiency of 96% can be achieved using a 1.0 V current.^[1]

References

^ ^a ^b Shaoan Cheng, Defeng Xing, Douglas F. Call and Bruce E. Logan (March 26, 2009). "Direct Biological Conversion of Electrical Current into Methane by Electromethanogenesis". Environ. Sci. Technol. 43 (10). American Chemical Society: 3953. doi:10.1021/es803531g. PMID 19544913. Retrieved 2009-04-07.{{cite journal}}: CS1 maint: multiple names: authors list (link)
^ Tuomas Kangasniemi, (2009-04-07). "Aurinkosähkön varastoinnin ongelmat ohi: bakteeri syö sähköä, tekee metaania". Tekniikka & Talous (in Template:Fi icon). Tallentum. Retrieved 2009-04-07.{{cite journal}}: CS1 maint: extra punctuation (link) CS1 maint: unrecognized language (link)
^ "Researchers Show Direct Bacterial Production of Methane from Electricity and CO2". Green Car Congress. 30 March 2009. Retrieved 2009-04-09.

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[Cheng2009-1] Shaoan Cheng, Defeng Xing, Douglas F. Call and Bruce E. Logan (March 26, 2009). "Direct Biological Conversion of Electrical Current into Methane by Electromethanogenesis". Environ. Sci. Technol. 43 (10). American Chemical Society: 3953. doi:10.1021/es803531g. PMID 19544913. Retrieved 2009-04-07.{{cite journal}}: CS1 maint: multiple names: authors list (link)

[TT-2] Tuomas Kangasniemi, (2009-04-07). "Aurinkosähkön varastoinnin ongelmat ohi: bakteeri syö sähköä, tekee metaania". Tekniikka & Talous (in Template:Fi icon). Tallentum. Retrieved 2009-04-07.{{cite journal}}: CS1 maint: extra punctuation (link) CS1 maint: unrecognized language (link)

[Green_Car-3] "Researchers Show Direct Bacterial Production of Methane from Electricity and CO2". Green Car Congress. 30 March 2009. Retrieved 2009-04-09.

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	'''Electromethanogenesis''' is a form of [[electrofuel]] production where [[methane]] is produced by direct biological conversion from [[electrical current]] and [[carbon dioxide]].<ref name="Cheng2009" >{{Cite journal \| title = Direct Biological Conversion of Electrical Current into Methane by Electromethanogenesis \| url = http://pubs.acs.org/doi/abs/10.1021/es803531g \| author = Shaoan Cheng, Defeng Xing, Douglas F. Call and Bruce E. Logan \| journal = Environ. Sci. Technol.\| publisher = American Chemical Society \|date = March 26, 2009 \| pmid = 19544913 \| accessdate = 2009-04-07 \| doi = 10.1021/es803531g \| volume = 43 \| issue = 10 \| pages = 3953 }}</ref><ref name="TT" >{{Cite journal \| title = Aurinkosähkön varastoinnin ongelmat ohi: bakteeri syö sähköä, tekee metaania \| url = http://www.tekniikkatalous.fi/tk/article268796.ece \| author = Tuomas Kangasniemi, \| journal = Tekniikka & Talous \| publisher = Tallentum \| date = 2009-04-07 \| accessdate = 2009-04-07 \| language = {{fi icon}}}}</ref><ref name="Green Car" >{{Cite web \| title = Researchers Show Direct Bacterial Production of Methane from Electricity and CO2 \| url = http://www.greencarcongress.com/2009/03/researchers-show-direct-bacterial-production-of-methane-from-electricity-and-co2.html \| work = Green Car Congress \| date = 30 March 2009 \| accessdate = 2009-04-09 }}</ref> The [[Redox\|reduction]] process is carried out in a [[microbial electrolysis cell]]. An 2009 article by Cheng and Logan reports that a current capture efficiency of 96% can be achieved using a 1.0 V current.<ref name="Cheng2009" />		'''Electromethanogenesis''' is a form of [[Electrocehmical energy conversion\|electrofuel]] production where [[methane]] is produced by direct biological conversion from [[electrical current]] and [[carbon dioxide]].<ref name="Cheng2009" >{{Cite journal \| title = Direct Biological Conversion of Electrical Current into Methane by Electromethanogenesis \| url = http://pubs.acs.org/doi/abs/10.1021/es803531g \| author = Shaoan Cheng, Defeng Xing, Douglas F. Call and Bruce E. Logan \| journal = Environ. Sci. Technol.\| publisher = American Chemical Society \|date = March 26, 2009 \| pmid = 19544913 \| accessdate = 2009-04-07 \| doi = 10.1021/es803531g \| volume = 43 \| issue = 10 \| pages = 3953 }}</ref><ref name="TT" >{{Cite journal \| title = Aurinkosähkön varastoinnin ongelmat ohi: bakteeri syö sähköä, tekee metaania \| url = http://www.tekniikkatalous.fi/tk/article268796.ece \| author = Tuomas Kangasniemi, \| journal = Tekniikka & Talous \| publisher = Tallentum \| date = 2009-04-07 \| accessdate = 2009-04-07 \| language = {{fi icon}}}}</ref><ref name="Green Car" >{{Cite web \| title = Researchers Show Direct Bacterial Production of Methane from Electricity and CO2 \| url = http://www.greencarcongress.com/2009/03/researchers-show-direct-bacterial-production-of-methane-from-electricity-and-co2.html \| work = Green Car Congress \| date = 30 March 2009 \| accessdate = 2009-04-09 }}</ref> The [[Redox\|reduction]] process is carried out in a [[microbial electrolysis cell]]. An 2009 article by Cheng and Logan reports that a current capture efficiency of 96% can be achieved using a 1.0 V current.<ref name="Cheng2009" />

	==See also==		==See also==

Revision as of 16:18, 21 March 2011

See also

References