Abstract

ABSTRACT In order to solve the complicated control of dissolved oxygen (DO) for partial nitrification in bioreactors treating high NH 4 + − N wastewater, a large height-diameter ratio anammox pre-reactor system was developed. And in this reactor, NO 2 − − N accumulation rate can reach 85.76% by alternate feeding with high NH 4 + − N wastewater (150 mg NH 4 + − N / L ) and low NH 4 + − N wastewater (50 mg c) with low DO (0.19 mg/L–0.62 mg/L). Based on 16S rRNA identification technology, it was found that Nitrosomonas had a significant effect on NH 4 + − N oxidization in this study. And when the reactor treated higher concentration wastewater (250 mg NH 4 + − N / L ), the growth rate of Nitrosomonas was higher than that of Nitrospira (nitrite-oxidizing bacteria, NOB), which was conducive to improving the NO 2 − − N accumulation rate and realizing partial nitrification stably. It was also found that the material exchange frequency of the microbial flora during alternate feeding with different NH 4 + − N concentration wastewaters was higher than that during feeding with higher NH 4 + − N concentration wastewater (250 mg/L) by Kyoto Encyclopedia of Genes and Genomes (KEGG) metabolism pathways analysis. This study can provide valuable insights and lay the foundation for building anammox pre-reactors.

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