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Methane abatement in a gas-recycling biotrickling filter: Evaluating innovative operational strategies to overcome mass transfer limitations
Ist Teil von
Chemical engineering journal (Lausanne, Switzerland : 1996), 2014-10, Vol.253, p.385-393
Ort / Verlag
Elsevier B.V
Erscheinungsjahr
2014
Quelle
Alma/SFX Local Collection
Beschreibungen/Notizen
[Display omitted]
•Internal gas recycling in a BTF was successful at enhancing CH4 removal.•Stable CH4 elimination capacities above 30gm−3h−1 were obtained.•Type I methanotrophs were dominant in the highly diverse community in the BTF.•The BTF faced non gas–liquid mass transfer limitations due to biomass overgrowth.
The present study aimed at maximizing the performance of a standard biotrickling filter (BTF) devoted to the treatment of CH4 at low concentrations by enhancing the mass transfer using optimum liquid recycling rates and an innovative gas recycling strategy. Internal gas recycling favored CH4 abatement in the early stages of BTF operation and supported stable elimination capacities (ECs) above 30gm−3h−1 at an empty bed residence time of 4min and a liquid recycling velocity of 5mh−1 higher than most ECs achieved in single phase BTFs to date. The BTF exhibited a high microbial diversity (Shannon–Wiener indices of 2.5–2.8) dominated by Type I methanotrophs, likely due to the presence of high Cu2+ concentrations. Mass transfer limitations from the aqueous phase to the microorganisms, attributed to biomass accumulation in the packing material, were identified under the long term operation.