超声协同光催化法降解水中土霉素

戴娟秀; 陶鸿燕; 翟璐; 赵世霖; 魏丽纯; 夏宜馨; 陈志鸿; 黎姿茵; 黄明元

doi:10.13421/j.cnki.hjwsxzz.2017.02.013

超声协同光催化法降解水中土霉素

Degradation of Oxytetracycline (OTC) in Water by Ultrasound Coupled with Photocatalysis and Titanium Dioxide

摘要

摘要:
目的利用超声协同光催化法降解水中的土霉素，探讨影响其对水中土霉素的降解效果因素。
方法利用超声（US）、紫外光/二氧化钛（UA/TiO₂）以及超声/紫外光/二氧化钛（US/UA/TiO₂）三种方法对土霉素样品进行处理，采用高效液相色谱仪对处理后的样品进行检测。
结果利用超声协同光催化法降解水中的土霉素，其最佳的条件为：光照时间75 min，超声功率200 W，超声时间30 min，催化剂浓度10 mg/L，pH=10.8，硝酸根浓度2 mg/L。
结论利用超声协同光催化降解水中的土霉素具有技术简单、环保、高效省时的优点，可以将其应用至系统化的土霉素污水的处理。

Abstract:
Objective To investigate the effect of ultrasound coupled with photocatalysis and titanium dioxide (TiO₂) on the degradation of oxytetracycline (OTC) in water.
Method Ultrasound (US), UV/TiO₂ and US/UV/TiO₂ three methods were used to degrade oxytetracycline in water samples, and the processed sample was detected by HPLC.
Results Oxytetracycline in water was degraded in combining ultrasound and photocatalysis reaction; the optimal condition for degradation was illuminating for 75 min, using an ultrasonic power of 200 W for 30 min; in an initial OTC concentration of 0.5 mg/L, an initial catalyst concentration of 10 mg/L, pH=10.8 and a nitrate concentration of 2 mg/L.
Conclusions The advantage of using the combination of ultrasound and photocatalytic reaction system to degrade the oxytetracycline in water was simple, environment-friendly, efficient and time-saving. This method could be used systematically in the degradation of oxytetracycline in wastewater.

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