Nitrogen removal eciency and microbial community analysis of a high-eciency honeycomb fixed-bed bioreactor

Abstract

Based on the concept of microbial community multi-processing in integrated spatial bacterial succession (ISBS), this study constructs a highly ecient cellular fixed-bed bioreactor that follows the growth of biological flora in the wastewater treatment process. The reactor is organically partitioned based on synergistic laws and in accordance with environmental and microbial metabolic changes, and sewage is subjected to unitized and specialized biological treatment under direct current conditions. The results show that the ISBS reactor exhibits stable nitrogen removal performance under a low-carbon source. Compared with traditional sewage biochemical treatment technology, the microbial concentration is increased by 2-3 times and even up to 12 times, and the ammonia nitrogen removal rate is maintained at 99%. The removal rate reaches 90% (hydraulic retention time of 14 h). High-throughput sequencing analysis based on 16S rDNA reveals the microbial community structure succession at dierent depths of the same section of the reactor. The microbial community is rich under the influence of environmental factors and exhibits dierent responses. The intervals vary. An analysis of the microbial community function explains why the ISBS reactor has high nitrogen removal eciency.