一种新型耦合工艺，以取代传统的多级厌氧氨氧化工艺——硫自养反硝化耦合厌氧氨氧化系统。

A novel coupling process to replace the traditional multi-stage anammox process-sulfur autotrophic denitrification coupled anammox system.

作者信息

Yao Sai, Zhang Kuo, Yang Song, Li Zijun, Wang Youzhao, Ma Feng, Chen Pu, Zhu Tong

机构信息

Institute of Process Equipment and Environmental Engineering, School of Mechanical Engineering and Automation, Northeastern University, 3-11, Wenhua Road, Heping District, Shenyang, 110004, People's Republic of China.

College of Environmental Sciences and Engineering, Peking University, Beijing, 100871, People's Republic of China.

出版信息

Biodegradation. 2024 Aug;35(5):565-582. doi: 10.1007/s10532-024-10077-2. Epub 2024 Jun 6.

DOI:10.1007/s10532-024-10077-2

PMID:38844743

Abstract

A novel coupling process to replace the traditional multi-stage anammox process-sulfur autotrophic denitrification (SAD) coupled anaerobic ammonium oxidation (anammox) system was designed, which solved problems of nitrate produced in anammox process and low nitrate conversion rate caused by nitrite accumulation in SAD process. Different filter structures (SAD filter and anammox granular sludge) were investigated to further explore the excellent performance of the novel integrated reactor. The results of sequential batch experiments indicated that nitrite accumulation occurred during SAD, which inhibited the conversion of nitrate to dinitrogen gas. When SAD filter and anammox granular sludge were added to packed bed reactor simultaneously, the nitrate removal rate increased by 37.21% and effluent nitrite concentration decreased by 100% compared to that achieved using SAD. The stratified filter structure solved groove flow. Different proportion influence of SAD filter and anammox granular sludge on the stratified filter structure was evaluated. More suitable ratio of SAD filter to anammox granular sludge was 2:1. Proteobacteria (57.26%), Bacteroidetes (20.12%) and Chloroflexi (9.95%) were the main phyla. The dominant genera of denitrification functional bacteria were Thiobacillus (39.80%), Chlorobaculum (3.99%), norank_f_PHOs-HE36 (2.90%) and Ignavibacterium (2.64%). The dominant genus of anammox bacterium was Candidatus_Kuenenia (3.05%).

摘要

设计了一种新型耦合工艺，以取代传统的多级厌氧氨氧化工艺——硫自养反硝化（SAD）耦合厌氧氨氧化（anammox）系统，该工艺解决了厌氧氨氧化过程中产生硝酸盐以及硫自养反硝化过程中亚硝酸盐积累导致硝酸盐转化率低的问题。研究了不同的滤池结构（SAD滤池和厌氧氨氧化颗粒污泥），以进一步探索新型一体化反应器的优异性能。序批实验结果表明，硫自养反硝化过程中发生了亚硝酸盐积累，这抑制了硝酸盐向氮气的转化。与使用硫自养反硝化相比，当将硫自养反硝化滤池和厌氧氨氧化颗粒污泥同时添加到填充床反应器中时，硝酸盐去除率提高了37.21%，出水亚硝酸盐浓度降低了100%。分层滤池结构解决了沟流问题。评估了硫自养反硝化滤池和厌氧氨氧化颗粒污泥对分层滤池结构的不同比例影响。硫自养反硝化滤池与厌氧氨氧化颗粒污泥更合适的比例为2:1。变形菌门（57.26%）、拟杆菌门（20.12%）和绿弯菌门（9.95%）是主要的菌门。反硝化功能细菌的优势属为硫杆菌属（39.80%）、绿菌属（3.99%）、norank_f_PHOs - HE36（2.90%）和迟缓杆菌属（2.64%）。厌氧氨氧化细菌的优势属为“库氏假单胞菌”（3.05%）。

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一种新型耦合工艺，以取代传统的多级厌氧氨氧化工艺——硫自养反硝化耦合厌氧氨氧化系统。

A novel coupling process to replace the traditional multi-stage anammox process-sulfur autotrophic denitrification coupled anammox system.

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