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曝气量和进水碳氮比对地下污水渗透系统中污染物去除、气体排放、功能基因和细菌群落有何影响?

How do aeration mode and influent carbon/nitrogen ratio affect pollutant removal, gas emission, functional genes and bacterial community in subsurface wastewater infiltration systems?

机构信息

These authors contributed equally to this study and share first authorship. E-mail:

These authors contributed equally to this study and share first authorship.

出版信息

Water Sci Technol. 2023 Dec;88(11):2793-2808. doi: 10.2166/wst.2023.383.

DOI:10.2166/wst.2023.383
PMID:38096069
Abstract

This study investigated the influences of aeration mode and influent carbon/nitrogen ratio on matrix oxygen concentration, pollutant removal, greenhouse gas emission, functional gene abundances and bacterial community in subsurface wastewater infiltration systems (SWISs). Intermittent or continuous aeration enhanced oxygen supply at 0.6 m depth in the matrix, which improved organics removal, nitrogen removal, the abundances of bacterial 16S rRNA, amoA, nxrA, narG, napA, nirK, nirS, norB, nosZ genes, bacterial community Alpha diversity, the relative abundances of Actinobacteria at 0.6 m depth, the relative abundances of Chloroflexi, Gemmatimonadetes, Bacteroidetes and Firmicutes at 0.9 and 1.2 m depth and reduced CH and NO conversion efficiencies, the abundance of mcrA gene with carbon/nitrogen ratio of 12 and 16 compared with non-aeration. Increased carbon/nitrogen ratio resulted in higher TN removal efficiencies and lower CH and NO conversion efficiencies in aeration SWISs than those in non-aeration SWIS. Intermittent aeration SWIS obtained high removal efficiencies of 83.2, 85.4 and 90.8% for TN, NH -N and COD and low conversion efficiency of 0.21 and 0.65% for NO and CH with optimal carbon/nitrogen ratio of 12. However, high TN (82.6%), NH -N (84.9%) and COD (92.2%) removal efficiencies and low CH (0.67%) and NO (0.23%) conversion efficiencies were achieved in continuous aeration SWIS with carbon/nitrogen ratio of 16.

摘要

本研究调查了曝气方式和进水碳氮比对地下污水渗滤系统(SWISs)基质氧浓度、污染物去除、温室气体排放、功能基因丰度和细菌群落的影响。间歇或连续曝气增强了基质 0.6m 深处的氧气供应,从而提高了有机物去除、氮去除、细菌 16S rRNA、amoA、nxrA、narG、napA、nirK、nirS、norB、nosZ 基因、细菌群落α多样性、0.6m 深处放线菌相对丰度、0.9m 和 1.2m 深处绿弯菌门、芽单胞菌门、拟杆菌门和厚壁菌门的相对丰度,并降低了 CH 和 NO 的转化效率,与不曝气相比,碳氮比为 12 和 16 时 mcrA 基因的丰度。与不曝气 SWIS 相比,曝气 SWIS 中随着碳氮比的增加,TN 去除效率提高,CH 和 NO 的转化效率降低。间歇曝气 SWIS 以最佳碳氮比 12 获得了 TN、NH -N 和 COD 的高去除效率(83.2%、85.4%和 90.8%)和低转化效率(0.21%和 0.65%),而连续曝气 SWIS 以碳氮比 16 获得了高 TN(82.6%)、NH -N(84.9%)和 COD(92.2%)去除效率和低 CH(0.67%)和 NO(0.23%)转化效率。

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