1. Effective recovery of the nitritation process through hydrogen peroxide.
- Author
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Deng, Cuilan, Chen, Zhenguo, Li, Yonggan, Chen, Haochuan, Chen, Yongxing, Zhou, Songwei, Niu, Rong, and Tan, Yuemin
- Subjects
AMMONIA-oxidizing bacteria ,NUCLEOTIDE sequencing ,INHIBITION (Chemistry) ,OPERATING costs ,SEQUENCE analysis ,HYDROGEN peroxide - Abstract
This study successfully achieved stable nitritation by adding hydrogen peroxide (H
2 O2 ) to the nitrification sludge whose nitritation stability had been destroyed. The batch experiment demonstrated that, the activity of ammonia-oxidizing bacteria (AOB) was restored more rapidly than that of nitrite oxidizing bacteria (NOB) after the addition of H2 O2 , thereby selectively promoting AOB enrichment and NOB washout. When the H2 O2 concentration was 6.25 mg/L, the NOB activity was significantly reduced and the nitrite accumulation rate (NAR) was more than 95% after 18 cycles of nitrifying sludge restoration. As a result, H2 O2 treatment enabled a nitrifying reactor to recover stable nitritation performance via H2 O2 treatment, with the NAR and ammonia removal efficiency (ARE) both exceeding 90%. High-throughput sequencing analysis revealed that H2 O2 treatment was successful in restoring nitritation, as the relative abundance of Nitrosomonas in the nitrifying reactor increased from 6.43% to 41.97%, and that of Nitrolancea decreased from 17.34% to 2.37%. Recovering nitritation by H2 O2 inhibition is a low operational cost, high efficiency, and non-secondary pollution nitritation performance stabilization method. By leveraging the varying inhibition degrees of H2 O2 on AOB and NOB, stable nitrification can be efficiently restored at a low cost and without causing secondary pollution. [ABSTRACT FROM AUTHOR]- Published
- 2024
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