Degradation of chlorine dioxide bleaching wastewater and response of bacterial community in the intimately coupled system of visible-light photocatalysis and biodegradation

Intimate coupling of visible-light photocatalysis and biodegradation (ICPB) offers potential for degrading chlorine dioxide bleaching wastewater. In this study, we reported a TiO2-coated sponge biofilm carrier with significant adhesion of TiO2 and the ability to accumulate biomass in its interior. F...

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Veröffentlicht in:Environmental research 2021-04, Vol.195, p.110840, Article 110840
Hauptverfasser: Liang, Yinna, Jiao, Chunlin, Pan, Liushu, Zhao, Tianyu, Liang, Jiaxiang, Xiong, Jianhua, Wang, Shuangfei, Zhu, Hongxiang, Chen, Guoning, Lu, Lihai, Song, Hainong, Yang, Qifeng, Zhou, Qianyi
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Sprache:eng
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Zusammenfassung:Intimate coupling of visible-light photocatalysis and biodegradation (ICPB) offers potential for degrading chlorine dioxide bleaching wastewater. In this study, we reported a TiO2-coated sponge biofilm carrier with significant adhesion of TiO2 and the ability to accumulate biomass in its interior. Four mechanisms possibly acting in ICPB were tested separately: adsorption of chlorine dioxide bleaching wastewater to the carrier, photolysis, photocatalysis, and biodegradation by the biofilm inside the carrier. The carrier had an adsorption capacity of 17% and 16% for CODcr and AOX, respectively, in the wastewater. The photodegradation rate of wastewater was very low and could be ignored. Both biodegradation (AOX 30.1%, CODcr 33.8%, DOC 26.2%) and photocatalysis (AOX 65.1%, CODcr 71.2%, DOC 62.3%) possessed a certain degradation efficiency of wastewater. However, the removal rate of AOX, CODcr, and DOC in wastewater treatment by protocol ICPB reached 80.3%, 90.5%, and 86.7%. FT-IR and GC-MS analysis showed that the ICPB system had photocatalytic activity on the surface of the porous carrier in vitro, which could transform organic into small molecules for microbial utilization or complete mineralization. Moreover, the biofilm in the interior of the TiO2-coated sponge carrier could mineralize the photocatalytic products, which enhanced the removal of AOX, CODcr, and DOC by more than 15.2%, 20.0%, and 24.0%, respectively. The biofilm in the carrier of the ICPB system evolved, enriched in Proteobacteria, Chloroflexi, Bacteroidetes, and Actinobacteria, microorganisms known to play active roles in the biodegradation of papermaking wastewater. •Chlorine dioxide bleaching wastewate is of high yield and harmful to human beings.•Intimately coupled system of visible-light photocatalysis and biodegradation (ICPB).•ICPB accelerated the AOX and CODcr removal by 80.3% and 19.3% over photocatalysis.•Mineralization was enhanced by 24.4%, as photocatalytic products were biodegraded In ICPB system.•Proteobacteria, Chloroflexi, Bacteroidota and Actinobacteria were the dominant bacteria.
ISSN:0013-9351
1096-0953
DOI:10.1016/j.envres.2021.110840