Realization of nitrite accumulation in a sulfide-driven autotrophic denitrification process: Simultaneous nitrate and sulfur removal

反硝化 硝酸盐 亚硝酸盐 自养 硫黄 化学 实现(概率) 硫化物 环境化学 氮气 有机化学 细菌 生物 数学 遗传学 统计
作者
Shuo Huang,Deshuang Yu,Guanghui Chen,Yanyan Wang,Peng Tang,Chengcheng Liu,Tian Yuan,Meng Zhang
出处
期刊:Chemosphere [Elsevier]
卷期号:278: 130413-130413 被引量:56
标识
DOI:10.1016/j.chemosphere.2021.130413
摘要

The study was based on the removal of nitrate and sulfide, and aimed to nitrite accumulation. The process of autotrophic denitrification driven by sulfide as an electron donor was investigated in a sequencing batch reactor. The research showed that autotrophic denitrification successfully started on day 22, and the removal rates of NO 3 − -N and S 2- -S were 95.8% and 100%, respectively, when the S/N molar ratio was 1.45. When the S/N ratio was reduced to 0.94, the phenomenon of NO 2 − -N accumulation was observed. NO 2 − -N continuously accumulated, and the maximum accumulation rate was 55.3% when the S/N ratio was 0.8. In the batch test, the study showed that NO 2 − -N accumulation was optimal when the S/N ratio was 0.8, and the NO 2 − -N concentration increased with increasing NO 3 − -N concentration at the same S/N ratio. Microbial communities also changed based on the high-throughput analysis, and Proteobacteria (59.5%–84%) was the main phylum. Arenimonas (11.4%–28.2%) and uncultured_f_ Chromatiaceae (5.7%–27.5%) were the dominant bacteria, which complete denitrification and desulfurization throughout the operating system. Therefore, this study provided a theoretical basis for the simultaneous removal of NO 3 − -N and S 2- -S, as well as the accumulation of nitrite, and provided material support for anaerobic ammonia oxidation technology. • Autotrophic denitrification driven by sulfide as an electron donor was researched. • Nitrite can stably accumulate when the S/N ratio of 0.8 • Phototrophic and autotrophic denitrifying bacteria synergistically remove pollutants.
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