Autotrophic Sulfur-Driven Partial Denitrification as a Sustainable Nitrite Supply Pathway for Anammox: Insights on Enhanced Nitrogen Removal and Microbial Synergies

厌氧氨氧化菌 反硝化 自养 硫黄 亚硝酸盐 环境化学 化学 氮气 环境科学 反硝化细菌 细菌 生物 硝酸盐 有机化学 遗传学
作者
Ziyi Du,Jiahui Wang,Fangzhai Zhang,Yongzhen Peng
出处
期刊:ACS ES&T water [American Chemical Society]
卷期号:4 (10): 4604-4614 被引量:9
标识
DOI:10.1021/acsestwater.4c00610
摘要

Anaerobic ammonia oxidation (Anammox) has garnered growing attention as an energy-efficient bioprocess. However, the sustainable provision of nitrite remains a crucial challenge. This study aimed to assess a promising alternative to existing partial nitrification- and heterotrophic partial denitrification (PDN)-based Anammox processes by substituting the nitrite supply with autotrophic sulfur-driven PDN. After 200 days, the desirable nitrogen removal efficiency of 96.1% was obtained in the S-PDN coupling Anammox process (S-PDN/A) with a high-quality effluent total nitrogen of 3.1 mg N/L. Additional experiments identified S-PDN/A as a stepwise reaction with generated S0 as an intermediate. Initially, S2– was oxidized to S0 [21.2 mg of S/(g of SS·h)], coupled with ultrafast denitrification [NO3– → N2, 3.9 mg of N/(g of SS·h)]. Subsequently, S0 served as an electron donor for S-PDN (NO3– → NO2–), efficiently facilitating Anammox as the dominant nitrogen removal pathway contributing up to 71.0% with a reaction rate of 1.7 mg N/(g SS·h). Distinct from reported prevalence of Candidatus brocadia in the Anammox technology for low-strength wastewater treatment, Candidatus kuenenia (0.12% → 3.4%) unexpectedly triumphed due to unique ecological niche provided by S-PDN. S-PDN/A offers fresh insights into Anammox application, enabling a potential reduction of up to 100% in organics demand, 43.0% savings in aeration energy consumption, and 69.9% decrease in biomass generation when compared to conventional bioprocesses.
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