 Optimizing strategy for Escherichia coli growth and hydrogen production during glycerol fermentation in batch culture: Effects of some heavy metal ions and their mixturesKaren Trchounian, Anna Poladyan and Armen Trchounian Applied Energy, 2016, vol. 177, issue C, 335-340 Abstract: Hydrogen (H2) is well-known effective, ecologically clean and renewable fuel. Bacterial H2 production is a promising one and its use in industrial level is expected to increase in the nearest future to establish sustainable and renewable energy source. Escherichia coli wild type BW25113 growth yield was shown to be stimulated 1.3–1.5-fold by nickel (Ni2+), iron (Fe2+, Fe3+) ions and by some metal ion mixtures: Ni2++Fe2+ + molybdenum (Mo6+), Ni2++Fe3+, Ni2++Fe2+ and Mo6++Fe3+ in low concentrations (<0.05mM) stimulated the growth during glycerol (10gL−1) fermentation up to stationary phase at pH 6.5; Ni2++Fe2+ mixture showed the maximal effect. However, the same concentrations of these metals and their mixtures had no effects or slightly inhibited bacterial specific growth rate: it was suppressed ∼1.2-fold upon Ni2+, Fe3+, Mo6+ and Ni2++Mo6+ mixture supplementation. H2 production by E. coli from glycerol was observed with the yield of 0.75±0.02mmolL−1. Moreover, H2 yield was markedly stimulated 1.7–3-fold in the presence of Ni2++Fe3+, Ni2++Fe3++Mo6+ and Fe3++Mo6+ mixtures, but not sole metals: maximal stimulation was established by Fe3++Mo6+ mixture with the concentrations of 0.05mM and 0.02mM, respectively. While copper (Cu+, Cu2+) ions in low concentration (0.1mM) had H2 production suppressing effect. The results point out that some heavy metal ions and their mixtures can stimulate E. coli growth, as well as enhance bio-hydrogen production. Discrimination between Fe2+ and Fe3+ was important for H2 production. Some interaction of Ni2+ with Fe2+ was suggested to be effective factor increasing bacterial biomass and determining activity of H2 producing hydrogenases together with Fe3+. Mo6+ was significant for H2 production. The results obtained were important to develop H2 production biotechnology using glycerol as cheap substrate and optimizing the technological conditions by some heavy metals and their mixtures at low concentrations. Keywords: Optimizing strategy for applied energy; Glycerol fermentation; Bacterial growth and biomass; H2 production; Heavy metal ions; Escherichia coli (search for similar items in EconPapers) Downloads: (external link) Related works: Export reference: BibTeX RIS (EndNote, ProCite, RefMan) HTML/Text Persistent link: https://EconPapers.repec.org/RePEc:eee:appene:v:177:y:2016:i:c:p:335-340 Ordering information: This journal article can be ordered from DOI: 10.1016/j.apenergy.2016.05.129 Access Statistics for this article Applied Energy is currently edited by J. Yan More articles in Applied Energy from Elsevier |
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