Enhanced nitrogen removal at low temperature with mixed anoxic/oxic process

IF 3.7 Q1 WATER RESOURCES Water science and engineering Pub Date : 2023-03-01 DOI:10.1016/j.wse.2022.08.005

Xiang-kun Li , Ying-jun Yang , Gai-ge Liu , Dou-dou Sun , Xiao-chen Ma

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引用次数: 1

Abstract

Different hydraulic retention times (HRTs) were tested in a mixed anoxic/oxic (A/O) system at 5°C and 10°C to investigate the effects of HRT and carrier on nitrogen removal in wastewater at low temperatures. The results showed that the addition of the fillers improved the treatment effect of each index in the system. With an optimal HRT of 7.5 h at 5°C, the removal efficiencies of ${NH}_{4}^{+} - N$ and total nitrogen (TN) reached 91.2% and 75.6%, respectively. With an HRT of 6 h at 10°C, the removal efficiencies of ${NH}_{4}^{+} - N$ and TN were 96.7% and 82.9%, respectively. The results of high-throughput sequencing showed that the addition of the suspended carriers in the aerobic zone could improve the treatment efficiency of nitrogen at low temperatures. The microbial analysis indicated that the addition of the suspended carriers enhanced the enrichment of nitrogen removal bacteria. Nitrospira, Nitrotoga, and Nitrosomonas were found to be the bacteria responsible for nitrification, and their relative concentrations on the biofilm at 5°C and 10°C accounted for 98.11%, 92.79%, and 69.98% of all biological samples, respectively.

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厌氧/好氧混合工艺强化低温脱氮

在5°C和10°C的混合缺氧/氧(a /O)系统中测试了不同的水力停留时间(HRT)，以研究HRT和载体对低温废水中氮的去除效果。结果表明，填料的加入提高了体系中各项指标的处理效果。在5℃条件下，最佳HRT为7.5 h时，对NH4+-N和总氮(TN)的去除率分别达到91.2%和75.6%。在10℃条件下，HRT为6 h时，对NH4+-N和TN的去除率分别为96.7%和82.9%。高通量测序结果表明，在好氧区添加悬浮载体可以提高低温下氮的处理效率。微生物学分析表明，悬浮载体的加入增强了脱氮菌的富集。硝基螺旋菌、硝基托加菌和硝化单胞菌是负责硝化作用的细菌，在5°C和10°C时，它们在生物膜上的相对浓度分别占所有生物样品的98.11%、92.79%和69.98%。

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来源期刊

Water science and engineering WATER RESOURCES-

CiteScore

6.60

自引率

5.00%

发文量

573

审稿时长

50 weeks

期刊介绍： Water Science and Engineering journal is an international, peer-reviewed research publication covering new concepts, theories, methods, and techniques related to water issues. The journal aims to publish research that helps advance the theoretical and practical understanding of water resources, aquatic environment, aquatic ecology, and water engineering, with emphases placed on the innovation and applicability of science and technology in large-scale hydropower project construction, large river and lake regulation, inter-basin water transfer, hydroelectric energy development, ecological restoration, the development of new materials, and sustainable utilization of water resources.