阿替洛尔
亚硝酸
厌氧氨氧化菌
化学
生物降解
氮气
氨
缺氧水域
色谱法
铵
环境化学
生物化学
无机化学
反硝化
反硝化细菌
医学
有机化学
血压
放射科
作者
Shi Chen,Lai Peng,Yifeng Xu,Ning Wang,Xi Wang,Chuanzhou Liang,Kang Song,Yan Zhou
标识
DOI:10.1021/acs.est.3c10107
摘要
FNA. Model simulation showed that the nitritation efficiency of ∼99% and atenolol removal efficiency of 57.5% in the PN process could be achieved simultaneously by controlling pH at 8.5, while 89.2% total nitrogen and 57.1% atenolol were removed to the maximum at pH of 7.0 in PN coupling with the anammox process. The pH-based operational strategy to regulate FNA levels was mathematically demonstrated to be effective for achieving the simultaneous removal of nitrogen and atenolol in PN-based sidestream processes.
科研通智能强力驱动
Strongly Powered by AbleSci AI