生物炭负载ZnO光催化降解盐酸四环素性能
Photocatalytic Degradation of Tetracycline Hydrochloride by Biochar Supported ZnO
DOI: 10.12677/AEP.2019.95088, PDF,    国家科技经费支持
作者: 钟 艺, 王 燕, 缪旭东, 王昌松, 陈 颖:徐州工程学院环境工程学院,江苏 徐州;项 玮, 张学杨*:徐州工程学院环境工程学院,江苏 徐州;江苏省工业污染控制与资源化重点实验室,江苏 徐州
关键词: 光催化生物炭氧化锌(ZnO)抗生素盐酸四环素Photocatalytic Biochar Zinc Oxide (ZnO) Antibiotics Tetracycline Hydrochloride
摘要: 实验以不同生物质为原料在500℃下用马弗炉热解制备了一系列生物炭负载型ZnO光催化剂,研究了负载型催化剂通过生物炭吸附与ZnO光催化协同作用对水中盐酸四环素的去除效果。主要探究了不同生物质材料、掺杂比、盐酸四环素的初始浓度以及pH值对去除效果的影响。结果表明:与其他生物质相比,小麦秸秆负载ZnO对盐酸四环素去除效果最佳,去除率可达97.38%;生物质原材料与ZnO的掺杂比为1:1时对盐酸四环素的去除率最高;由于低pH值时H+会腐蚀ZnO且消耗OH,而高pH值时OH会与ZnO反应生成羟基配合物,因此pH值为7时去除盐酸四环素效率最高;盐酸四环素的初始浓度对去除率的影响明显,且浓度越高去除效率越低。
Abstract: A series photocatalysts of biochar supported ZnO were prepared by pyrolysis with different biomass at 500°C in muff furnace. The removal properties of prepared photocatalysts toward tetracycline hydrochloride in water were studied. The effects of biomass type, doping ratio, initial concentration of tetracycline hydrochloride and pH value on the removal rate were investigated. The results showed that compared with other biomass, wheat straw based biochar supported ZnO had the maximum tetracycline hydrochloride removal rate of as high as 97.38%. When the doping ratio of biomass and ZnO was 1:1 in weight, the removal rate of tetracycline hydrochloride reached its maximum. The optimal pH value for the tetracycline hydrochloride removal was 7, which was because of the H+ would corrode ZnO and consume OH at a low pH value, while the OH would react with ZnO to form hydroxyl complex at a high pH value. The initial concentration of tetracycline hydrochloride has an obvious effect on the removal rate, and the higher the concentration, the lower the removal rate.
文章引用:钟艺, 王燕, 缪旭东, 王昌松, 陈颖, 项玮, 张学杨. 生物炭负载ZnO光催化降解盐酸四环素性能[J]. 环境保护前沿, 2019, 9(5): 657-663. https://doi.org/10.12677/AEP.2019.95088

参考文献

[1] 郑惠东. 水环境中抗生素来源及对健康的影响[J]. 环境卫生学杂志, 2018, 8(1): 73-77.
[2] 骆俊鹏, 方茹, 史娟娟, 等. 硝酸改性油菜生物炭对四环素的吸附性能研究[J]. 环境科技, 2019, 32(2): 17-23.
[3] 张学杨, 骆俊鹏, 曹澄澄, 等. 玉米秸秆基生物炭吸附诺氟沙星特性研究[J]. 徐州工程学院学报(自然科学版), 2019, 34(2): 54-62.
[4] 谭珍珍, 张学杨, 骆俊鹏, 等. 小麦秸秆生物炭对四环素的吸附特性研究[J]. 水处理技术, 2019, 45(2): 32-38.
[5] Dong, X., Yang, P., Wang, J. and Huang, B. (2015) ZnO Rhombic Sheets of Highly Crystalline Particles and Their Composite with Ag2O toward Efficient Photocatalysis. Chempluschem, 79, 1681-1690. [Google Scholar] [CrossRef
[6] 程娟, 沈奕, 陈宽, 等. Bi2WO6/ZnO: 一种在可见光下具有优良光催化性能的花状新型复合材料[J]. 催化学报, 2018, 39(4): 810-820.
[7] 吴晴雯, 孟梁, 张志豪, 等. 芦苇秸秆生物炭对水中菲和1,1-二氯乙烯的吸附特性[J]. 环境科学, 2016(2): 680-688.
[8] 谭珍珍, 张学杨, 骆俊鹏, 等. 玉米秸秆生物炭吸附诺氟沙星的影响因素[J]. 安全与环境学报, 2018, 18(6): 348-354.
[9] Lu, L., Shan, R., Shi, Y. and Wang, S. and Yuan, H. (2019) A Novel TiO2/Biochar Composite Catalysts for Photocatalytic Degradation of methyl Orange. Chemosphere, 222, 391-398. [Google Scholar] [CrossRef] [PubMed]
[10] 殷宝剑, 武海霞, 吴慧芳, 等. 紫外可见分光光度法应用于抗生素类药物检测[J]. 净水技术, 2017, 36(9): 23-26.
[11] Zhao, L., Zheng, W. and Cao, X. (2014) Distribution and Evolution of Organic Matter Phases during Biochar Formation and Their Importance in Carbon Loss and Pore Structure. Chemical Engineering Journal, 250, 240-247. [Google Scholar] [CrossRef
[12] 曾飞建, 胡友彪. 改性TiO2对废水处理光催化效率的影响研究进展[J]. 环境与发展, 2010, 22(2): 88-91.
[13] 谭珍珍, 张学杨, 王昌松, 等. 椰壳炭对水中阿莫西林的吸附特性[J]. 江苏农业科学, 2019, 47(4): 252-256.
[14] 黄雅丽. 碳掺杂氧化锌的制备及性能研究[J]. 化学工程与装备, 2015(12): 35-39+58.
[15] Yu, W., Zhang, J. and Peng, T. (2016) New Insight into the Enhanced Photocatalytic Activity of N-, C- and S-Doped ZnO Photocatalysts. Applied Catalysis B Environmental, 181, 220-227. [Google Scholar] [CrossRef
[16] 蒋彩娜, 王国方, 周立亚. 碳掺杂ZnO的制备及其光催化性能[J]. 桂林理工大学学报, 2017, 37(2): 316-321.
[17] Muthulingam, S., Lee, I.H. and Uthirakumar, P. (2015) Highly Efficient Degradation of Dyes by Carbon Quantum Dots/N-Doped Zinc Oxide (CQD/N-ZnO) Photocatalyst and Its Compatibility on Three Different Commercial Dyes under Daylight. Journal of Colloid & Interface Science, 455, 101-109. [Google Scholar] [CrossRef] [PubMed]
[18] 刘希, 张宇峰, 罗平. 改性花生壳对四环素类抗生素的吸附特性研究[J]. 环境污染与防治, 2013, 35(5): 35-39.
[19] 赵雪辉, 蒋彩云, 王玉萍. PVA-I修饰介孔TiO2光催化剂对盐酸四环素的光降解[J]. 环境工程学报, 2014, 8(10): 4060-4066.
[20] 朱鹏飞, 刘梅, 张杰, 等. Fe-Ni共掺杂ZnO/凹凸棒光催化降解废水中抗生素性能研究[J]. 安全与环境学报, 2015, 15(5): 230-234.
[21] 蒋芬芬, 吴宏海, 成思敏, 等. 针铁矿非均相Fenton法降解抗生素的研究[J]. 华南师范大学学报(自然科学版), 2013, 45(5): 83-88.
[22] 罗力莎, 邹东雷, 辛丙靖, 等. 废水中盐酸四环素的钡掺杂钨酸铋光催化降解[J]. 环境与健康杂志, 2018, 35(4): 68-71.