O3/H2O2降解活性黄X-RG优化设计及动力学研究  

Optimization Design and Kinetics Study of Reactive Yellow X-RG Degradation by O3/H2O2

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作  者:沈拥军[1] 范凯霞[1] 史佳晟 王云丽 SHEN Yongjun;FAN Kaixia;SHI Jiashen;WANG Yunli(School of Chemistry and Chemical Engineering,Nantong University,Nantong 226019,China)

机构地区:[1]南通大学化学化工学院

出  处:《南通大学学报(自然科学版)》2019年第3期34-39,共6页Journal of Nantong University(Natural Science Edition) 

基  金:国家自然科学基金项目(21246010)

摘  要:采用O3/H2O2工艺处理活性黄X-RG,考察废水的pH、O3流量、染料的初始质量浓度及温度对活性黄X-RG脱色率的影响,并进行反应动力学研究,建立了动力学模型。通过对染料紫外可见光谱和红外光谱的分析,探究活性黄X-RG的矿化程度。结果表明:pH的增加、O3流量和温度的提高有利于染料的降解,而染料初始质量浓度的增加则导致降解率降低,其中O3流量变化对结果的影响相对较小。当H2O2投加量为1 mmol、pH为 6.5、O3流量为 60 L/h、染料初始质量浓度为300 mg/L、温度为293 K时,活性黄X-RG脱色率达到95.03%。在实验范围内,该降解过程符合一级动力学。The active yellow X-RG is treated in the O3/H2O2 process.The effects of pH value,O3 flow rate,initial dye concentration and temperature on the decolorization rate of reactive yellow X-RG wastewater are investigated.The kinetics of the reaction is studied and a kinetic model is established.The degree of mineralization of active yellow X-RG is investigated by the analysis of the ultraviolet visible spectrum and infrared spectrum of the dye.The results show that the increase of pH,O3 flow rate and temperature are beneficial to the degradation of dyes,while the degradation rate will decrease with the increase of concentration and the effect of change in O3 flow on the results is relatively small.Under the optimum conditions that H2O2 of 1 mmol,pH of 6.5,O3 flow rate of 60 L/h,initial dye concentration of 300 mg/L,temperature of 293 K,decolorization rate of reactive yellow X-RG can be up to 95.03%.Within the experimental range,the degradation process is consistent with first order kinetics.

关 键 词:O3 H2O2 降解 染料废水 活性黄X-RG 动力学模型 

分 类 号:X703.1[环境科学与工程—环境工程]

 

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