使用涂覆在石英管上的TiO降解水溶液中的紫外线过滤剂二苯甲酮-3。

Degradation of UV-filter Benzophenon-3 in aqueous solution using TiO coated on quartz tubes.

作者信息

Moradi Nazanin, Amin Mohammad Mehdi, Fatehizadeh Ali, Ghasemi Zahra

机构信息

1Department of Environmental Health Engineering, School of Health, Isfahan University of Medical Sciences, Isfahan, Iran.

2Student Research Committee, School of Health, Isfahan University of Medical Sciences, Isfahan, Iran.

出版信息

J Environ Health Sci Eng. 2018 Aug 15;16(2):213-228. doi: 10.1007/s40201-018-0309-3. eCollection 2018 Dec.

DOI:10.1007/s40201-018-0309-3

PMID:30728993

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6277332/

Abstract

BACKGROUND

Benzophenone-3 (BP-3), one of the emerging pollutants, is commercially synthesized as UV filter used in cosmetics and other personal care products and its occurrence in the aquatic environment has widely been reported. The goal of this study was to enhance an AOP method for degradation of UV filter Benzophenone-3 in aqueous solutions

METHOD

In this study, sol-gel method was applied to synthesis TiO nanoparticles. Subsequently, the nanoparticles were successfully coated on quartz tubes. The synthesized catalyst was characterized using XRD, FE-SEM and EDX analysis. Then, the efficiency of photocatalytic process using TiO coated quartz tubes for BP-3 degradation from synthetic and real aqueous solution was assessed.

RESULT

The optimum contact time and solution pH for the highest BP-3 degradation in the synthetic solution were found at 15 min and 10, respectively. The maximum degradation (98%) of BP-3 by photocatalytic process was observed at 1 mg/L initial BP-3 concentration using 225 cm of catalyst surface area. Among the three applied kinetic models, the experimental data were found to follow the first-order equation more closely with the rate constant of 0.2, 0.048 and 0.035 1/min for 1, 3 and 5 mg/L of initial BP-3 concentration, respectively. In order to investigate the potential of this process for real effluent, the treatment of swimming pool water and wastewater treatment plant was examined and BP-3 degradation close to 88% and 32.1 was achieved, respectively.

CONCLUSION

Based on the obtained data, the photocatalytic process could successfully be applied for water treatment in swimming pools and other effluent containing BP-3 with low turbidity. The advantage of this study is that the synthesized catalyst can be used repeatedly needless to remove catalyst from the treated solution. In addition, AOP can effectively eliminate organic compounds in aqueous phase, rather than transferring pollutants into another phase. The limitation of this study is that in solution with high turbidity photocatalytic degradation can be hampered and pre- treatment is needed to reduce turbidity.

摘要

背景

二苯甲酮 - 3（BP - 3）是一种新兴污染物，作为紫外线过滤剂在化妆品和其他个人护理产品中进行商业合成，其在水环境中的出现已有广泛报道。本研究的目的是改进一种高级氧化工艺方法，用于降解水溶液中的紫外线过滤剂二苯甲酮 - 3。

方法

在本研究中，采用溶胶 - 凝胶法合成二氧化钛纳米颗粒。随后，将纳米颗粒成功涂覆在石英管上。使用X射线衍射（XRD）、场发射扫描电子显微镜（FE - SEM）和能谱分析（EDX）对合成的催化剂进行表征。然后，评估了使用涂覆有二氧化钛的石英管对合成水溶液和实际水溶液中BP - 3降解的光催化过程效率。

结果

在合成溶液中，实现BP - 3最高降解率的最佳接触时间和溶液pH值分别为15分钟和10。使用225平方厘米的催化剂表面积，当初始BP - 3浓度为1毫克/升时，通过光催化过程观察到BP - 3的最大降解率（98%）。在应用的三种动力学模型中，实验数据被发现更符合一级方程，对于初始BP - 3浓度为1、3和5毫克/升时，速率常数分别为0.2、0.048和0.035 1/分钟。为了研究该工艺对实际废水的处理潜力，对游泳池水和污水处理厂进行了处理研究，分别实现了接近88%和32.1%的BP - 3降解率。

结论

基于所获得的数据，光催化过程可成功应用于游泳池和其他含有低浊度BP - 3的废水处理。本研究的优点是合成的催化剂可重复使用，无需从处理后的溶液中去除催化剂。此外，高级氧化工艺可以有效消除水相中的有机化合物，而不是将污染物转移到另一相。本研究的局限性在于，在高浊度溶液中光催化降解可能会受到阻碍，需要进行预处理以降低浊度。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/cc95/6277332/477b6ae55d4b/40201_2018_309_Fig1_HTML.jpg

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使用涂覆在石英管上的TiO降解水溶液中的紫外线过滤剂二苯甲酮-3。

Degradation of UV-filter Benzophenon-3 in aqueous solution using TiO coated on quartz tubes.

作者信息

机构信息

出版信息

BACKGROUND

METHOD

RESULT

CONCLUSION

背景

方法

结果

结论

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