Potential application of an Aspergillus strain in a pilot biofilter for benzene biodegradation

Da Sun; Kun Zhang; Chuanren Duan; Wei Wu; Daiyong Deng; Donghong Yu; M. Babar Shahzad; Dake Xu; Ju Tang; Li Luo; Jia Chen; Jinxuan Wang; Yidan Chen; Xiang Xie; Guixue Wang

doi:10.1038/srep46059

Potential application of an Aspergillus strain in a pilot biofilter for benzene biodegradation

Da Sun, Kun Zhang, Chuanren Duan, Wei Wu, Daiyong Deng, Donghong Yu, M. Babar Shahzad, Dake Xu, Ju Tang, Li Luo, Jia Chen, Jinxuan Wang, Yidan Chen, Xiang Xie, Guixue Wang^*

^*Kontaktforfatter

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › peer review

3 Citationer (Scopus)

Abstract

A biofilter with fungus was developed for efficient degradation of benzene, which can overcome the potential risk of leakage commonly found in such services. Results indicated that the optimum parameter values were temperature 40 °C, pH 6, and 500 mg L â '1 of the initial benzene concentration. Besides, the empty bed residence time and inlet load range of biofilter were set to 20 s and 21.23-169.84 g m â '3 h â '1 respectively. Under these conditions, this biofilter can obtain the maximum removal efficiency of more than 90%, the eliminating capacity could be up to 151.67 g m â '3 h â '1. Furthermore, scanning electron microscopy was used to investigate three filler materials for packing fungus biofilm. This is the first study introducing an Aspergillus strain for benzene removal and these results highlight that the development of this biofilter has the potential scaling-up application as gas-processing of industrial wastes.

Originalsprog	Engelsk
Artikelnummer	46059
Tidsskrift	Scientific Reports
Vol/bind	7
Antal sider	9
ISSN	2045-2322
DOI	https://doi.org/10.1038/srep46059
Status	Udgivet - 6 apr. 2017

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10.1038/srep46059

https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5382587/pdf/srep46059.pdf

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title = "Potential application of an Aspergillus strain in a pilot biofilter for benzene biodegradation",

abstract = "A biofilter with fungus was developed for efficient degradation of benzene, which can overcome the potential risk of leakage commonly found in such services. Results indicated that the optimum parameter values were temperature 40 °C, pH 6, and 500 mg L {\^a} '1 of the initial benzene concentration. Besides, the empty bed residence time and inlet load range of biofilter were set to 20 s and 21.23-169.84 g m {\^a} '3 h {\^a} '1 respectively. Under these conditions, this biofilter can obtain the maximum removal efficiency of more than 90%, the eliminating capacity could be up to 151.67 g m {\^a} '3 h {\^a} '1. Furthermore, scanning electron microscopy was used to investigate three filler materials for packing fungus biofilm. This is the first study introducing an Aspergillus strain for benzene removal and these results highlight that the development of this biofilter has the potential scaling-up application as gas-processing of industrial wastes.",

author = "Da Sun and Kun Zhang and Chuanren Duan and Wei Wu and Daiyong Deng and Donghong Yu and Shahzad, {M. Babar} and Dake Xu and Ju Tang and Li Luo and Jia Chen and Jinxuan Wang and Yidan Chen and Xiang Xie and Guixue Wang",

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T1 - Potential application of an Aspergillus strain in a pilot biofilter for benzene biodegradation

AU - Sun, Da

AU - Zhang, Kun

AU - Duan, Chuanren

AU - Wu, Wei

AU - Deng, Daiyong

AU - Yu, Donghong

AU - Shahzad, M. Babar

AU - Xu, Dake

AU - Tang, Ju

AU - Luo, Li

AU - Chen, Jia

AU - Wang, Jinxuan

AU - Chen, Yidan

AU - Xie, Xiang

AU - Wang, Guixue

PY - 2017/4/6

Y1 - 2017/4/6

N2 - A biofilter with fungus was developed for efficient degradation of benzene, which can overcome the potential risk of leakage commonly found in such services. Results indicated that the optimum parameter values were temperature 40 °C, pH 6, and 500 mg L â '1 of the initial benzene concentration. Besides, the empty bed residence time and inlet load range of biofilter were set to 20 s and 21.23-169.84 g m â '3 h â '1 respectively. Under these conditions, this biofilter can obtain the maximum removal efficiency of more than 90%, the eliminating capacity could be up to 151.67 g m â '3 h â '1. Furthermore, scanning electron microscopy was used to investigate three filler materials for packing fungus biofilm. This is the first study introducing an Aspergillus strain for benzene removal and these results highlight that the development of this biofilter has the potential scaling-up application as gas-processing of industrial wastes.

AB - A biofilter with fungus was developed for efficient degradation of benzene, which can overcome the potential risk of leakage commonly found in such services. Results indicated that the optimum parameter values were temperature 40 °C, pH 6, and 500 mg L â '1 of the initial benzene concentration. Besides, the empty bed residence time and inlet load range of biofilter were set to 20 s and 21.23-169.84 g m â '3 h â '1 respectively. Under these conditions, this biofilter can obtain the maximum removal efficiency of more than 90%, the eliminating capacity could be up to 151.67 g m â '3 h â '1. Furthermore, scanning electron microscopy was used to investigate three filler materials for packing fungus biofilm. This is the first study introducing an Aspergillus strain for benzene removal and these results highlight that the development of this biofilter has the potential scaling-up application as gas-processing of industrial wastes.

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SN - 2045-2322

VL - 7

JO - Scientific Reports

JF - Scientific Reports

M1 - 46059

ER -

Potential application of an Aspergillus strain in a pilot biofilter for benzene biodegradation

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