生物炭
硝酸盐
生物降解
化学
制浆造纸工业
生物量(生态学)
废物管理
环境化学
热解
有机化学
生物
农学
工程类
作者
Wen Zhang,Jianing Shen,Huifen Zhang,C. Zheng,Ruping Wei,Yan Gao,Liuyan Yang
标识
DOI:10.1016/j.biortech.2020.124324
摘要
The performance of nitrate removal by Pseudomonas mendocina GL6 cells immobilized on bamboo biochar was investigated. The results showed that immobilized bacterial cells performed better nitrate removal than the free bacterial cells, and the nitrate removal rate increased from 6.51 mg/(L·h) of free cells to 8.34 mg/(L·h) of immobilized cells. The nitrate removal of immobilized bacterial cells fitted well to the zero-order kinetics model. Moreover, bath experiments showed that immobilized bacterial cells displayed more nitrate removal capacity under different conditions than free bacterial cells due to the protection of biochar carrier. The subsequent mechanistic study suggested that biochar promoted the expression level of denitrification functional genes (napA and nirK) and electron transfer genes involved in denitrification (napB and napC), which resulted in the increase of nitrate removal efficiency. Thus, biochar-immobilized P. mendocina GL6 has much potential to remove nitrate from wastewater via aerobic denitrification.
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