Effects of two fillers and process conditions on the water treatment efficiency of a continuous packed bed biofilm reactor-Reference-Cited by-同舟云学术

Effects of two fillers and process conditions on the water treatment efficiency of a continuous packed bed biofilm reactor

Published:2024-07-01 Issue:7 Volume:77 Page:
ISSN:1472-765X
Container-title:Letters in Applied Microbiology
language:en
Short-container-title:

Author:

Fang Yijing¹²³^ORCID,Li Zhifei³⁴,Wang Guangjun³⁴,Xia Yun³⁴,Zhang Kai³⁴,Gong Wangbao³⁴,Yu Ermeng³⁴,Xie Wenping³⁴,Li Hongyan³⁴,Tian Jingjing³⁴,Xie Jun³⁴,Xu Qiyou¹²

Affiliation:

1. College of Life Science, Huzhou Normal University , Huzhou 313000 , China

2. Nation Local Joint Engineering Laboratory of Aquatic Animal Genetic Breeding and Nutrition, Zhejiang Provincial Key Laboratory of Aquatic Bioresource Conservation and Development Technology , Huzhou 313000 , China

3. Key Laboratory of Tropical and Subtropical Fishery Resource Application and Cultivation, Pearl River Fisheries Research Institute, Chinese Academy of Fishery Sciences , Guangzhou 510380 , China

4. Guangdong Ecological Remediation of Aquaculture Pollution Research Center , Guangzhou 510380 , China

Abstract

Abstract This study evaluated the treatment efficiency of two selected fillers and their combination for improving the water quality of aquaculture wastewater using a packed bed biofilm reactor (PBBR) under various process conditions. The fillers used were nanosheet (NS), activated carbon (AC), and a combination of both. The results indicated that the use of combined fillers and the hydraulic retention time (HRT) of 4 h significantly enhanced water quality in the PBBR. The removal rates of chemical oxygen demand, NO2−─N, total suspended solids（TSS）, and chlorophyll a were 63.55%, 74.25%, 62.75%, and 92.85%, respectively. The microbiota analysis revealed that the presence of NS increased the abundance of microbial phyla associated with nitrogen removal, such as Nitrospirae and Proteobacteria. The difference between the M1 and M2 communities was minimal. Additionally, the microbiota in different PBBR samples displayed similar preferences for carbon sources, and carbohydrates and amino acids were the most commonly utilized carbon sources by microbiota. These results indicated that the combination of NS and AC fillers in a PBBR effectively enhanced the treatment efficiency of aquaculture wastewater when operated at an HRT of 4 h. The findings provide valuable insights into optimizing the design of aquaculture wastewater treatment systems.

Funder

CAFS

Guangdong Basic and Applied Basic Research Foundation

National Natural Science Foundation of China

Publisher

Oxford University Press (OUP)

Link

https://academic.oup.com/lambio/advance-article-pdf/doi/10.1093/lambio/ovae060/58401106/ovae060.pdf

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