Kinetics analysis of photocatalytic degradation of Acid Orange 7 by Co/N/Er3+: Y3Al5O12/TiO2 films

Q Chemistry

Journal of Advanced Oxidation Technologies Pub Date : 2017-01-01 DOI:10.1515/jaots-2016-0185

Wang Lan, Z. Lin, Guo Kai

引用次数: 3

Abstract

Abstract To improve the efficiency of decomposition of dye wastewater, the experiments of sonocatalytic degradation of Acid Orange 7 by TiO2-based films with doping Co, N and Er3+: Y3Al5O12 were performed in this paper. Based on analysis of the change of concentrations of the samples over time, the result showed that sonocatalytic degradation of Acid Orange 7 by TiO2-based films agreed with the pseudo-first-order kinetics. The effect of doping mass fraction of Er3+:Y3Al5O12, Co and N inTiO2-based films and reaction temperature on degradation rates were studied. The optimal doping mass fraction of Er3+: Y3Al5O12, Co and N were 1.81 %, 2.01 %, and 12.03 % respectively at 20 °C. The model of the reaction rate constants of sonocatalytic degradation of Acid Orange 7 by Co/N/Er3+: Y3Al5O12/TiO2 films were fitted. The errors between the model values and the experimental results were all less than 15 %. So the models could be used to estimate the degradation rate and concentration of Acid Orange 7 and provide theoretical basis for the design of catalytic reaction.

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Co/N/Er3+: Y3Al5O12/TiO2膜光催化降解酸性橙7的动力学分析

摘要为提高染料废水的分解效率，采用掺杂Co、N和Er3+: Y3Al5O12的tio2基膜对酸性橙7进行了声催化降解实验。通过对样品浓度随时间变化的分析，结果表明tio2基膜声催化降解酸性橙7符合准一级动力学。研究了Er3+:Y3Al5O12、Co和N掺杂质量分数以及反应温度对tio2基膜降解率的影响。在20℃时，Er3+: Y3Al5O12、Co和N的最佳掺杂质量分数分别为1.81%、2.01%和12.03%。拟合了Co/N/Er3+: Y3Al5O12/TiO2膜声催化降解酸性橙7的反应速率常数模型。模型值与实验结果的误差均小于15%。该模型可用于估计酸橙7的降解速率和浓度，为催化反应设计提供理论依据。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Advanced Oxidation Technologies 化学-物理化学

CiteScore

0.88

自引率

0.00%

发文量

审稿时长

1 months

期刊介绍： The Journal of advanced oxidation technologies (AOTs) has been providing an international forum that accepts papers describing basic research and practical applications of these technologies. The Journal has been publishing articles in the form of critical reviews and research papers focused on the science and engineering of AOTs for water, air and soil treatment. Due to the enormous progress in the applications of various chemical and bio-oxidation and reduction processes, the scope of the Journal is now expanded to include submission in these areas so that high quality submission from industry would also be considered for publication. Specifically, the Journal is soliciting submission in the following areas (alphabetical order): -Advanced Oxidation Nanotechnologies -Bio-Oxidation and Reduction Processes -Catalytic Oxidation -Chemical Oxidation and Reduction Processes -Electrochemical Oxidation -Electrohydraulic Discharge, Cavitation & Sonolysis -Electron Beam & Gamma Irradiation -New Photocatalytic Materials and processes -Non-Thermal Plasma -Ozone-based AOTs -Photochemical Degradation Processes -Sub- and Supercritical Water Oxidation -TiO2 Photocatalytic Redox Processes -UV- and Solar Light-based AOTs -Water-Energy (and Food) Nexus of AOTs