厌氧氨氧化菌
活性污泥
废水
亚硝基单胞菌
污水处理
流出物
化学
反硝化
制浆造纸工业
环境化学
生物反应器
生物量(生态学)
环境工程
反硝化细菌
氮气
硝化作用
环境科学
生物
生态学
有机化学
工程类
作者
Chao Rong,Zibin Luo,Tianjie Wang,Yu Qin,Jiang Wu,Yan Guo,Yisong Hu,Zhe Kong,Taira Hanaoka,Shinichi Sakemi,Masami Ito,Shigeki Kobayashi,Masumi Kobayashi,Yu‐You Li
出处
期刊:Water Research
[Elsevier BV]
日期:2022-10-01
卷期号:225: 119194-119194
被引量:75
标识
DOI:10.1016/j.watres.2022.119194
摘要
Partial nitritation-anammox (PN/A) is a promising deammonification process to develop energy-neutral wastewater treatment plants. However, the mainstream application of PN/A still faces the challenges of low nitrogen concentration and low temperatures, and has not been studied under a realistic condition of large-scale reactor (kiloliter level), real municipal wastewater (MWW) and seasonal temperatures. In this research, a pilot-scale one-stage PN/A, with integrated fixed-film activated sludge (IFAS) configuration, was operated to treat the real MWW pretreated by anaerobic membrane bioreactor. The removal efficiency of total nitrogen (TN) was 79.4%, 75.7% and 65.9% at 25, 20 and 15°C, corresponding to the effluent TN of 7.3, 9.7 and 12.0 mg/L, respectively. The suppression of ammonium-oxidizing bacteria (AOB) and anammox bacteria (AnAOB) occurred at lower temperatures, and the significant decrease in AOB treatment capacity was the reason for the poorer nitrogen removal at 15°C. Biomass retention and microbial segregation were successfully achieved. Specifically, Candidatus_Brocadia and Candidatus_Kuenenia were main AnAOB genera and mainly enriched on carriers, Nitrosomonas and uncultured f_Chitinophagaceae were main AOB genera and mainly distributed in suspended sludge and retained by sedimentation tank. Moreover, nitrite-oxidizing bacteria (NOB) were sufficiently suppressed by intermittent aeration and low dissolved oxygen, the presence of heterotrophic bacteria upgraded the PN/A to a simultaneous partial nitritation, anammox, denitrification, and COD oxidation (SNADCO) system, which improved the overall removal of TN and COD. The results of this investigation clearly evidence the strong feasibility of PN/A as a mainstream nitrogen removal process in temperate climates.
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