New insight into continuous recirculation-process for treating arsenate using bacterial biosorbent

•Biosorbent prepared from fermentation biowaste removed As(V) efficiently.•New recirculation reactor system for continuous As(V) removal was developed.•The arsenate removal performance of the new reactor was evaluated by experiments and modeling.•The new reactor maintains biosorbent performance in c...

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Veröffentlicht in:	Bioresource technology 2020-11, Vol.316, p.123961-123961, Article 123961
Hauptverfasser:	Kim, Namgyu, Seo, Ji Hae, Yun, Yeoung-Sang, Park, Donghee
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Sprache:	eng
Schlagworte:	Arsenate Biosorption Continuous system Recirculation
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creator	Kim, Namgyu Seo, Ji Hae Yun, Yeoung-Sang Park, Donghee
description	•Biosorbent prepared from fermentation biowaste removed As(V) efficiently.•New recirculation reactor system for continuous As(V) removal was developed.•The arsenate removal performance of the new reactor was evaluated by experiments and modeling.•The new reactor maintains biosorbent performance in continuous process. In this study, a new recirculation column reactor system for arsenate removal using a polyethylenimine coated bacterial biosorbent was developed. Solution pH was the most important factor in process design and operation. In order to control and optimize solution pH favorable for arsenate removal, a pH control and recirculation system was added to a column reactor. The effects of recycle ratio, initial arsenate concentration, and flow rate on the arsenate removal performance of the developed process were examined. Thomas and Yoon-Nelson models were used to interpret the breakthrough curve of arsenate removal. The maximum arsenate adsorption amount of the new reactor was determined to be 50.86 mg/g by the Thomas model. Importantly, the new reactor showed unimpeded adsorption performance compared with that in the batch experiments. The desorption study also showed excellent reusability. The results indicated that the newly developed process could be a promising application prospect for removing arsenate.
doi_str_mv	10.1016/j.biortech.2020.123961
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In this study, a new recirculation column reactor system for arsenate removal using a polyethylenimine coated bacterial biosorbent was developed. Solution pH was the most important factor in process design and operation. In order to control and optimize solution pH favorable for arsenate removal, a pH control and recirculation system was added to a column reactor. The effects of recycle ratio, initial arsenate concentration, and flow rate on the arsenate removal performance of the developed process were examined. Thomas and Yoon-Nelson models were used to interpret the breakthrough curve of arsenate removal. The maximum arsenate adsorption amount of the new reactor was determined to be 50.86 mg/g by the Thomas model. Importantly, the new reactor showed unimpeded adsorption performance compared with that in the batch experiments. The desorption study also showed excellent reusability. 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In this study, a new recirculation column reactor system for arsenate removal using a polyethylenimine coated bacterial biosorbent was developed. Solution pH was the most important factor in process design and operation. In order to control and optimize solution pH favorable for arsenate removal, a pH control and recirculation system was added to a column reactor. The effects of recycle ratio, initial arsenate concentration, and flow rate on the arsenate removal performance of the developed process were examined. Thomas and Yoon-Nelson models were used to interpret the breakthrough curve of arsenate removal. The maximum arsenate adsorption amount of the new reactor was determined to be 50.86 mg/g by the Thomas model. Importantly, the new reactor showed unimpeded adsorption performance compared with that in the batch experiments. The desorption study also showed excellent reusability. 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In this study, a new recirculation column reactor system for arsenate removal using a polyethylenimine coated bacterial biosorbent was developed. Solution pH was the most important factor in process design and operation. In order to control and optimize solution pH favorable for arsenate removal, a pH control and recirculation system was added to a column reactor. The effects of recycle ratio, initial arsenate concentration, and flow rate on the arsenate removal performance of the developed process were examined. Thomas and Yoon-Nelson models were used to interpret the breakthrough curve of arsenate removal. The maximum arsenate adsorption amount of the new reactor was determined to be 50.86 mg/g by the Thomas model. Importantly, the new reactor showed unimpeded adsorption performance compared with that in the batch experiments. The desorption study also showed excellent reusability. 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subjects	Arsenate Biosorption Continuous system Recirculation
title	New insight into continuous recirculation-process for treating arsenate using bacterial biosorbent
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