Ciprofloxacin degradation in UV/chlorine advanced oxidation process: Influencing factors, mechanisms and degradation pathways

DOI：10.1016/j.jphotochem.2018.10.043 期刊：Journal of Photochemistry and Photobiology A: Chemistry 出版年份：2019 更新时间：2025-09-10 09:29:36

摘要： Ciprofloxacin (CIP) is a widely used third generation fluoroquinolone antibiotics, and has been often detected in wastewater treatment plants. Finding an effective way to remove them from wastewater is of great concern. Ultraviolet (UV)/chlorine advanced oxidation process (AOP) has many advantages in micropollutant removal. In this study, CIP degradation in UV/chlorine process was investigated. Only 41.2% of CIP was degraded by UV photolysis and 30.5% by dark chlorination in 30 min, while 98.5% of CIP was degraded by UV/chlorine process in 9 min. HCO3- had markedly inhibition, NO3- and SO42- had slight inhibition, and Cl- had a marginal inhibition on the CIP degradation in UV/chlorine system. The degradation of CIP in UV/chlorine process was mainly attributed to the attack of reactive species. The relative contributions of hydrated electrons (eaq-), hydroxyl radicals (HO.), chlorine atoms (Cl.), and UV photolysis were investigated. Under neutral condition in aqueous solution, CIP degradation had highest pseudo first-order reaction rate constants, in which eaq- followed by Cl., HO., and UV photolysis. The intermediates and byproducts were identified and the degradation pathway was proposed. The total organic chlorine (TOCl) and biotoxicity were further assessed. CIP and natural organic matters (NOMs) were removed efficiently in real water. UV/chlorine showed the potential for the wastewater treatment containing CIP.

关键词： advance oxidation process UV/chlorine process UV photolysis reactive species wastewater Ciprofloxacin

作者： Jia Deng，Guangxue Wu，Shoujun Yuan，Xinmin Zhan，Wei Wang，Zhen-Hu Hu

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研究概述实验方案设备清单

研究目的

Investigating the degradation of ciprofloxacin (CIP) in UV/chlorine advanced oxidation process (AOP), including the influencing factors, mechanisms, and degradation pathways.

研究成果

The UV/chlorine AOP was effective in degrading CIP, with a degradation efficiency of 98.5% in 9 minutes under optimal conditions. The process was influenced by the presence of anions and humic acid, with HCO3- showing marked inhibition. The study identified the key reactive species involved in CIP degradation and proposed a degradation pathway. The UV/chlorine process showed potential for treating wastewater containing CIP, despite some limitations in real water applications.

研究不足

The study acknowledges the inhibition effects of certain anions and humic acid on CIP degradation in the UV/chlorine process. The presence of natural organic matters (NOMs) in real water bodies was found to consume reactive species, potentially reducing the efficiency of the process.

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