1. Biohydrogen production by dark fermentation of glycerol using Enterobacter and Citrobacter Sp
- Author
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Alberto M. Stchigel, Magda Constantí, Jesús E. Sueiras, Biniam T. Maru, and Francesc Medina
- Subjects
Glycerol ,Ethanol ,Time Factors ,biology ,Enterobacter ,Dark fermentation ,biology.organism_classification ,Citrobacter freundii ,chemistry.chemical_compound ,Citrobacter ,chemistry ,Biochemistry ,Fermentation ,Biohydrogen ,Food science ,Biotechnology ,Hydrogen production ,Hydrogen - Abstract
Glycerol is an attractive substrate for biohydrogen production because, in theory, it can produce 3 mol of hydrogen per mol of glycerol. Moreover, glycerol is produced in substantial amounts as a byproduct of producing biodiesel, the demand for which has increased in recent years. Therefore, hydrogen production from glycerol was studied by dark fermentation using three strains of bacteria: namely, Enterobacter spH1, Enterobacter spH2, and Citrobacter freundii H3 and a mixture thereof (1:1:1). It was found that, when an initial concentration of 20 g/L of glycerol was used, all three strains and their mixture produced substantial amounts of hydrogen ranging from 2400 to 3500 mL/L, being highest for C. freundii H3 (3547 mL/L) and Enterobacter spH1 (3506 mL/L). The main nongaseous fermentation products were ethanol and acetate, albeit in different ratios. For Enterobacter spH1, Enterobacter spH2, C. freundii H3, and the mixture (1:1:1), the ethanol yields (in mol EtOH/mol glycerol consumed) were 0.96, 0.67, 0.31, and 0.66, respectively. Compared to the individual strains, the mixture (1:1:1) did not show a significantly higher hydrogen level, indicating that there was no synergistic effect. Enterobacter spH1 was selected for further investigation because of its higher yield of hydrogen and ethanol. © 2012 American Institute of Chemical Engineers Biotechnol. Prog., 2013
- Published
- 2012