2007
DOI: 10.1002/bit.21427
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Microbial production of hydrogen and ethanol from glycerol‐containing wastes discharged from a biodiesel fuel production plant in a bioelectrochemical reactor with thionine

Abstract: H(2) and ethanol production from glycerol-containing wastes discharged from a biodiesel fuel production plant by Enterobacter aerogenes NBRC 12010 was demonstrated in bioelectrochemical cells. Thionine as an exogenous electron transfer mediator was reduced by E. aerogenes, and was re-oxidized by a working electrode applied at +0.2 V against a Ag/AgCl reference electrode by a potentiostat (electrode system). At the initial glycerol concentration of 110 mM, 92.9 mM glycerol was consumed in the electrode system w… Show more

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Cited by 94 publications
(31 citation statements)
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“…performance of these engineered strains was superior to that reported for the conversion of glycerol to ethanol and hydrogen or ethanol and formate by other microorganisms (Ito et al, 2005;Jarvis et al, 1997;Sakai and Yagishita, 2007) and similar to that achieved with E. coli strains engineered to convert cellulosic sugars to ethanol (Underwood et al, 2002). In addition to producing ethanol, strain EF06 [pZSKLMgldA] produces formate, which implies an overall yield and rate of product synthesis almost twice of that reported for the production of ethanol from sugars.…”
Section: Engineered Strains For the Conversion Of Glycerol To Ethanolsupporting
confidence: 51%
“…performance of these engineered strains was superior to that reported for the conversion of glycerol to ethanol and hydrogen or ethanol and formate by other microorganisms (Ito et al, 2005;Jarvis et al, 1997;Sakai and Yagishita, 2007) and similar to that achieved with E. coli strains engineered to convert cellulosic sugars to ethanol (Underwood et al, 2002). In addition to producing ethanol, strain EF06 [pZSKLMgldA] produces formate, which implies an overall yield and rate of product synthesis almost twice of that reported for the production of ethanol from sugars.…”
Section: Engineered Strains For the Conversion Of Glycerol To Ethanolsupporting
confidence: 51%
“…In this case, hydrogen production rate was 63 mmol/L/h with ethanol yield of 0.85 mol/mol. In turn, Sakai & Yagishita (2007) reported crude glycerol bioconversion to hydrogen and ethanol by bioelectrochemical cells of wild type of Enterobacter aerogenes NBCR 12010 using thionine as an exogenous electron transfer mediator. On the basis of conducted experiments, one can say that the yield of hydrogen as well as ethanol reached more than 80%.…”
Section: Hydrogen and Ethanol Co-productionmentioning
confidence: 99%
“…For this purpose, strains unable to produce 1,3-propanediol are preferred in order to decrease the sideproduct formation. Examples of such strains are E. coli and Enterobacter aerogenes (Dharmadi et al, 2006;Homann et al, 1990;Sakai and Yagishita, 2007).…”
Section: Introductionmentioning
confidence: 99%