摘要
环境中的抗生素污染日益严重,其诱导产生的抗生素抗性成为人类健康的重大威胁.通过对世界多地污水处理厂进、出水中抗生素浓度水平的文献调研汇总,发现当前的污水处理工艺不能实现抗生素的有效去除.吸附和生物降解是污水中抗生素的主要去除途径,因此本文深入地分析了吸附的作用机制和不同种类抗生素吸附程度的差异;从生物降解性能、降解菌和降解产物等方面分析抗生素在污水生物处理过程中的生物降解作用;分析讨论了水力停留时间、污泥停留时间、温度和工艺选型(传统活性污泥法、膜生物反应器和生物脱氮工艺)等污水生物处理工艺的运行条件对吸附和生物降解途径的影响,进而解析对抗生素去除效果的影响.菌群组成、生长基质供应情况和微污染物共存情况等因素对污水生物处理中抗生素迁移转化的影响需要更深入地研究.
Antibiotic pollution in the environment is becoming increasingly serious,and the induced antibiotic resistance has become a major threat to human health. A literature review of the antibiotic concentration in the influent and effluent of many sewage treatment plants around the world has shown that current sewage treatment processes do not effectively remove antibiotics. Studies have shown that adsorption and biodegradation are the main ways of removing antibiotics from sewage. The mechanisms of adsorption and the different adsorption extents of diverse antibiotics were analyzed in this paper. Biodegradation of antibiotics in a biological sewage treatment process were analyzed in terms of biodegradability,degrading bacteria,and degradation products. The effects of the operation conditions of biological sewage treatment processes,such as hydraulic retention time,sludge retention time,temperature,and process selection( conventional activated sludge, membrane bioreactor, or biological nitrogen removal processes), on adsorption and biodegradation pathways as well as on the removal efficiency of antibiotics are also discussed. The effects of bacterial composition,growth substrate,and coexisting micro-pollutants on the fate of antibiotics in biological wastewater treatment require more in-depth research.
作者
张翔宇
李茹莹
季民
ZHANG Xiang-yu, LI Ru-ying, JI Min(School of Environmental Science and Engineering, Tianjin University, Tianjin 300350, China)
出处
《环境科学》
EI
CAS
CSCD
北大核心
2018年第11期5276-5288,共13页
Environmental Science
基金
国家自然科学基金项目(21407113)
关键词
抗生素
生物降解
吸附
污水生物处理
污泥停留时间
antibiotics
biodegradation
adsorption
biological sewage treatment
sludge retention time