High efficient alternating anaerobic/aerobic process for polyester resin wastewater treatment : performance and microbial community structure

This study investigated organics removal and microbial community in a two-stage alternating anaerobic/aerobic (A1/O1/A2/O2) process for polyester resin wastewater treatment. It was found that chemical oxygen demand (COD) concentration could be reduced to below 500 mg L−1 from 12,880 mg L−1 with aver...

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Main Authors: Sun Faqian, Hu Jian, Zhou Yan, Mei Rongwu, Wang Changzhi, He Yangyang, Wu Weixiang
Other Authors: School of Civil and Environmental Engineering
Format: Article
Language:English
Published: 2020
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Online Access:https://hdl.handle.net/10356/136911
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Institution: Nanyang Technological University
Language: English
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spelling sg-ntu-dr.10356-1369112020-09-26T21:57:52Z High efficient alternating anaerobic/aerobic process for polyester resin wastewater treatment : performance and microbial community structure Sun Faqian Hu Jian Zhou Yan Mei Rongwu Wang Changzhi He Yangyang Wu Weixiang School of Civil and Environmental Engineering Advanced Environmental Biotechnology Centre Nanyang Environment and Water Research Institute Engineering::Civil engineering Polyester Resin Wastewater Alternating Anaerobic/aerobic This study investigated organics removal and microbial community in a two-stage alternating anaerobic/aerobic (A1/O1/A2/O2) process for polyester resin wastewater treatment. It was found that chemical oxygen demand (COD) concentration could be reduced to below 500 mg L−1 from 12,880 mg L−1 with average COD removal rate of 2.79, 4.37, 0.50 and 0.97 kg m−3 d−1 in four reactors, respectively. Two important chemical compounds in the wastewater, namely, purified terephthalic acid (PTA) (625 mg L−1) and phenol (480 mg L−1), did not display inhibitory effects on COD removal while they were almost completely degraded in the first-stage A/O process. Further, the majority of esters, alkanes, phenols, acids and alcohols could be removed in the system. However, two hazardous refractory compounds, 5,5-dimethyl-1,3-dioxane and 1,4-dioxane, were still present as major components in the final effluent. 16S rRNA high-throughput sequencing results revealed that a distinct preference of selected bacterial groups towards anaerobic/aerobic reactors and operating conditions. High abundance of Lewinella genus (2.4–34.0%), which was correlated to ester-hydrolyzing ability, may play an important role in the high efficiency of organics removal. Accepted version 2020-02-05T04:31:02Z 2020-02-05T04:31:02Z 2018 Journal Article Sun, F., Hu, J., Zhou, Y., Mei, R., Wang, C., He, Y., & Wu, W. (2018). High efficient alternating anaerobic/aerobic process for polyester resin wastewater treatment : performance and microbial community structure. Biochemical Engineering Journal, 138, 121-130. doi:10.1016/j.bej.2018.07.005 1369-703X https://hdl.handle.net/10356/136911 10.1016/j.bej.2018.07.005 2-s2.0-85050150324 138 en Biochemical Engineering Journal © 2018 Elsevier B.V. All rights reserved. This paper was published in Biochemical Engineering Journal and is made available with permission of Elsevier B.V. application/pdf
institution Nanyang Technological University
building NTU Library
country Singapore
collection DR-NTU
language English
topic Engineering::Civil engineering
Polyester Resin Wastewater
Alternating Anaerobic/aerobic
spellingShingle Engineering::Civil engineering
Polyester Resin Wastewater
Alternating Anaerobic/aerobic
Sun Faqian
Hu Jian
Zhou Yan
Mei Rongwu
Wang Changzhi
He Yangyang
Wu Weixiang
High efficient alternating anaerobic/aerobic process for polyester resin wastewater treatment : performance and microbial community structure
description This study investigated organics removal and microbial community in a two-stage alternating anaerobic/aerobic (A1/O1/A2/O2) process for polyester resin wastewater treatment. It was found that chemical oxygen demand (COD) concentration could be reduced to below 500 mg L−1 from 12,880 mg L−1 with average COD removal rate of 2.79, 4.37, 0.50 and 0.97 kg m−3 d−1 in four reactors, respectively. Two important chemical compounds in the wastewater, namely, purified terephthalic acid (PTA) (625 mg L−1) and phenol (480 mg L−1), did not display inhibitory effects on COD removal while they were almost completely degraded in the first-stage A/O process. Further, the majority of esters, alkanes, phenols, acids and alcohols could be removed in the system. However, two hazardous refractory compounds, 5,5-dimethyl-1,3-dioxane and 1,4-dioxane, were still present as major components in the final effluent. 16S rRNA high-throughput sequencing results revealed that a distinct preference of selected bacterial groups towards anaerobic/aerobic reactors and operating conditions. High abundance of Lewinella genus (2.4–34.0%), which was correlated to ester-hydrolyzing ability, may play an important role in the high efficiency of organics removal.
author2 School of Civil and Environmental Engineering
author_facet School of Civil and Environmental Engineering
Sun Faqian
Hu Jian
Zhou Yan
Mei Rongwu
Wang Changzhi
He Yangyang
Wu Weixiang
format Article
author Sun Faqian
Hu Jian
Zhou Yan
Mei Rongwu
Wang Changzhi
He Yangyang
Wu Weixiang
author_sort Sun Faqian
title High efficient alternating anaerobic/aerobic process for polyester resin wastewater treatment : performance and microbial community structure
title_short High efficient alternating anaerobic/aerobic process for polyester resin wastewater treatment : performance and microbial community structure
title_full High efficient alternating anaerobic/aerobic process for polyester resin wastewater treatment : performance and microbial community structure
title_fullStr High efficient alternating anaerobic/aerobic process for polyester resin wastewater treatment : performance and microbial community structure
title_full_unstemmed High efficient alternating anaerobic/aerobic process for polyester resin wastewater treatment : performance and microbial community structure
title_sort high efficient alternating anaerobic/aerobic process for polyester resin wastewater treatment : performance and microbial community structure
publishDate 2020
url https://hdl.handle.net/10356/136911
_version_ 1681056307348504576