Performance evaluation of down-flow hanging sponge reactor for direct treatment of actual textile wastewater; Effect of effluent recirculation to performance and microbial community

•Biotreatment of an actual low-strength textile wastewater.•Performance evaluation of a down-flow hanging sponge (DHS) reactor.•Assessment of HRT and effluent recirculation effects on the DHS performance.•Determination of potential microbial communities for dye biodegradation in the DHS. The textile...

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Bibliographic Details
Published in:Journal of water process engineering Vol. 39; p. 101724
Main Authors: Watari, Takahiro, Hata, Yuya, Hirakata, Yuga, Nguyet, Phan Nhu, Nguyen, Thu Huong, Maki, Shinya, Hatamoto, Masashi, Sutani, Daisuke, Setia, Tjandra, Yamaguch, Takashi
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-02-2021
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Summary:•Biotreatment of an actual low-strength textile wastewater.•Performance evaluation of a down-flow hanging sponge (DHS) reactor.•Assessment of HRT and effluent recirculation effects on the DHS performance.•Determination of potential microbial communities for dye biodegradation in the DHS. The textile industry discharges large amounts of polluted wastewater containing synthetic dyes. A down-flow hanging sponge (DHS) reactor is a novel aerobic wastewater treatment process that utilizes a sponge as a biomass-retaining carrier. This sponge carrier has both aerobic and anaerobic zones owing to different dissolved oxygen concentrations. In this study, the process performance of a DHS reactor treating actual textile wastewater obtained from a factory in Japan was evaluated. The effects of hydraulic retention time (HRT) and effluent recirculation (recirculation ratio = 1) on the DHS process performance were investigated. The DHS reactor showed good organic (up to 93 ± 13% of BOD) and nitrogen removal (56 ± 14% of TN) abilities during the entire experimental period. The color removal efficiencies of the DHS reactor were 55 ± 15%, 53 ± 26%, 72 ± 34%, and 35 ± 22% with HRTs of 4 h, 4 h + effluent recirculation (R = 1), 8 h + effluent recirculation (R = 1), and 8 h, respectively. Microbial community structure analysis of the DHS retained sludge showed that genus Acinetobacter was detected predominantly and reported as an azo dye-degrading bacterium. Effluent recirculation was also observed to increase the presence of aromatic-degrading bacteria and protists in the DHS reactor. These results suggest that the DHS reactor is suitable for textile wastewater treatment. Furthermore, the effluent recirculation is effective for enhancing decolorization performance.
ISSN:2214-7144
2214-7144
DOI:10.1016/j.jwpe.2020.101724