Enzymatic versus Nonenzymatic Conversions during the Reduction of EDTA-Chelated Fe(III) in BioDeNOx Reactors

P.M.F. van der Maas, S. Peng, A. Klapwijk, P.N.L. Lens

Research output: Contribution to journalArticleAcademicpeer-review

56 Citations (Scopus)

Abstract

Reduction of EDTA-chelated Fe(III) is one of the core processes in the BioDeNOx process, a chemically enhanced technique for biological NOx removal from industrial flue gases. The capacity of Escherichia coli, three mixed cultures from full scale methanogenic granular sludge reactors, one denitrifying sludge, and a BioDeNOx sludge to reduce Fe(III)EDTA- (25 mM) was determined at 37 and 55°C using batch experiments. Addition of catalytic amounts of sulfide greatly accelerated Fe(III)EDTA- reduction, indicating that biological Fe(III)EDTA - reduction is not a direct, enzymatic conversion but an indirect reduction with involvement of an electron-mediating compound, presumably polysulfides. It is suggested that not thermophilic dissimilatory iron-reducing bacteria but reducers of elemental sulfur or polysulfides are primarily involved in the reduction of EDTA-chelated Fe(III) in BioDeNOx reactors.
Original languageEnglish
Pages (from-to)2616-2623
JournalEnvironmental Science and Technology
Volume39
Issue number8
DOIs
Publication statusPublished - 2005

Keywords

  • microbial fuel-cells
  • dissimilatory fe(iii)
  • reducing bacteria
  • iron
  • oxidation
  • environments
  • mechanisms
  • metals
  • sludge
  • methanogenesis

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