yields, ethanol tolerance, high robustness and high resistance to toxic inhibitors.
Lower production of ethanol (1.38 g/L) was observed after 72 h by E. aerogenes. However, E.
aerogenes yielded high hydrogen production (1,416 mL/L) after 12 h of cultivation (Fig. 2b). E.
aerogenes can convert various carbohydrates, such as sugars and sugar alcohols, to H2, ethanol, 2,3-
butanediol, lactate and acetate. Ito et al. [16] reported that E. aerogenes HU-101 mainly produces H2 and
ethanol with a minimal production of other by-products when glycerol was used as substrate.
yields, ethanol tolerance, high robustness and high resistance to toxic inhibitors.Lower production of ethanol (1.38 g/L) was observed after 72 h by E. aerogenes. However, E.aerogenes yielded high hydrogen production (1,416 mL/L) after 12 h of cultivation (Fig. 2b). E.aerogenes can convert various carbohydrates, such as sugars and sugar alcohols, to H2, ethanol, 2,3-butanediol, lactate and acetate. Ito et al. [16] reported that E. aerogenes HU-101 mainly produces H2 andethanol with a minimal production of other by-products when glycerol was used as substrate.
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