影响采用生物载体和空气提升循环的一阶段部分亚硝化和厌氧氨氧化系统性能和微生物群落的关键因素。

Key factors governing the performance and microbial community of one-stage partial nitritation and anammox system with bio-carriers and airlift circulation.

机构信息

Key Laboratory of Water-Sediment Sciences and Water Disaster Prevention of Hunan Province, School of Hydraulic Engineering, Changsha University of Science & Technology, Changsha 410004, China; Laboratory of Environmental Protection Engineering, Department of Civil and Environmental Engineering, Graduate School of Engineering, Tohoku University, 6-6-06 Aza-Aoba, Aramaki, Aoba Ward, Sendai, Miyagi 980-8579, Japan.

Key Laboratory of Water-Sediment Sciences and Water Disaster Prevention of Hunan Province, School of Hydraulic Engineering, Changsha University of Science & Technology, Changsha 410004, China.

出版信息

Bioresour Technol. 2021 Mar;324:124668. doi: 10.1016/j.biortech.2021.124668. Epub 2021 Jan 6.

DOI:10.1016/j.biortech.2021.124668

PMID:33453520

Abstract

A one-stage airlift internal circulation biofilm reactor was continuously operated for 668 days to treat 50 mg/L of ammonia wastewater to pursue the long-term stability of partial nitritation and anammox (PNA) process. The operational performance and microbial community structure of the biofilm and the flocs were investigated. A nitrogen removal efficiency (NRE) of 70% was obtained successfully at a dissolved oxygen (DO) of 0.05-0.15 mg/L by regulating aeration rate. The microbial analysis indicated Candidatus Brocadia (29.5%) and Nitrosomonas (6.8%) were dominant in both biofilms and flocs. It was found that DO control and aeration rate were the key factors in performance stability, and a stable performance could be recovered and maintained under oxygen-limiting conditions. Further, the achievement of activated ammonia oxidation bacteria (AOB), dominated anammox bacteria (AMX), suppressed NOB, and controlled heterotrophic bacteria (HB) in the biofilms played a major role in the long-term stable operation.

摘要

采用单级气提内循环生物膜反应器连续运行 668 天，处理 50mg/L 氨氮废水，旨在探索短程硝化-厌氧氨氧化（PNA）工艺的长期稳定性。考察了生物膜和絮体的运行性能和微生物群落结构。通过调节曝气量，在溶解氧（DO）为 0.05-0.15mg/L 时成功获得了 70%的氮去除效率（NRE）。微生物分析表明，生物膜和絮体中优势菌分别为Candidatus Brocadia（29.5%）和Nitrosomonas（6.8%）。结果表明，DO 控制和曝气率是性能稳定的关键因素，在限氧条件下可以恢复和维持稳定的性能。此外，生物膜中活性氨氧化菌（AOB）、优势厌氧氨氧化菌（AMX）、抑制硝酸菌（NOB）和控制异养菌（HB）的实现对长期稳定运行起着重要作用。

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Key factors governing the performance and microbial community of one-stage partial nitritation and anammox system with bio-carriers and airlift circulation.影响采用生物载体和空气提升循环的一阶段部分亚硝化和厌氧氨氧化系统性能和微生物群落的关键因素。

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影响采用生物载体和空气提升循环的一阶段部分亚硝化和厌氧氨氧化系统性能和微生物群落的关键因素。

Key factors governing the performance and microbial community of one-stage partial nitritation and anammox system with bio-carriers and airlift circulation.

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