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超声波降解水溶液中叔丁醇的研究 被引量:1

A Study on Ultrasonic Degradation of Tert-butyl Alcohol in Aqueous Solution
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摘要 研究了超声场降解水溶液中叔丁醇的行为,并探讨了反应动力学模式。实验表明,在本实验条件下超声波降解叔丁醇能够达到较好的降解效果。叔丁醇的去除率随着超声辐射时间的延长而提高,在频率为20kHz、功率为1500W 的超声场下,作用80min能够达到90%左右的去除率。反映体系的降解速率随着反应温度的提高而升高,随着初始浓度的增大而降低;反应体系的 pH 值对叔丁醇的降解率影响不大;溶液中溶解气体的种类对降解效果有一定影响,反应速率常数按照由快到慢的顺序为 k_(O_2)>k_(未作处理)>k_(N_2)。在一定的初始浓度条件下,超声波降解叔丁醇的反应符合假一级反应动力学模式。 The ultrasonic degradation behaviour and its kinetic model of tert-butyl alcohol (TBA) were investigated. The results have shown that TBA can be well degraded by ultrasonic wave. The rate of degradation can be enhanced with extension of time. The degradation rate of TBA reaches about 90% with the ultrasonic frequency of 20 kHz and power density of 1,500 W within 80 minutes. The rate of degradation of TBA decreases with the increase of initial concentration of TBA and increases with the rise of temperature in this system. The pH value has only a little effect on the degradation of TBA. Different kinds of dissolved gases in reaction system have different impact on the degradation rate of TBA. Three gases, including O2, N2 and air, were investigated and their reaction constants were in a descending order of O2, air, and N2. On the basis of effect of initial concentration and reactor temperature, the ultrasonic degradation of TBA was found conformable with the pseudofirst-order kinetic model.
作者 李荣 丁伟 修光利 潘金芳 张大年
机构地区 华东理工大学资源与环境工程学院
出处 《上海环境科学》 CAS CSCD 2006年第1期15-18,24,共5页 Shanghai Environmental Sciences
关键词 叔丁醇 超声波 降解 水溶液 反应模型 Tert-butyl alcohol Ultrasonic wave Degradation Aqueous solution Reaction model
分类号 X703 [环境科学与工程—环境工程] O642.42 [理学—物理化学]
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  • 1卞华松,张大年,赵一先.水溶液中的甲苯在功率超声场中的降解动力学[J].上海环境科学,2000,19(z1):81-84. 被引量:2
  • 2赵逸云,冯若,鲍慈光,徐克利.声化学反应器研究进展[J].应用声学,1994,13(2):44-48. 被引量:16
  • 3Brady J E Xiao E Ning S M, et al. 1990. Metabolism of Methyl tertiary-butyl ether by rat hepatic microsomes[J]. Arch.Toxicol., 64: 157-160. 被引量:1
  • 4Fayolle E Vandecasteele J E and Mono E 2001. Microbial degradation and fate in the environment of MTBE and related fuel oxygenates[J]. Applied Microbial Biotechnology, 56:339-349. 被引量:1
  • 5Hong J Y, Wang Y Y, Bondoc F Y, et al. 1999. Metabolism of MTBE and other gasoline ethers by human liver microsomes and heterologously expressed human cytochromes P450:identification of CYP2A6 as a major catalyst[J]. Toxicol. Appt Pharmacol., 160: 44-48. 被引量:1
  • 6Komossa D, Langebartels C, and Sandermann Jr H. 1995.Metabolic processes for organic chemicals in plants. Plant contamination - modeling and simulation of organic chemical processes[Ml. Boca Raton, Florida: Lewis Publishers. 被引量:1
  • 7Mackay, M, et al, 1995. Illustrated Handbook of Physical-Chemical Properties and Environmental Fate for Volatile organic Chemicals (Volume IV) [M]. Boca Raton,Florida: Lewis Publishers. 被引量:1
  • 8Trapp S, Zambrano K C, Kusk K O, et al. 2000. A phytotoxicity test using transpiration of willows[J]. Arch.Envir. Contam Toxicology, 39(2): 154-160. 被引量:1
  • 9Zhang Q, Davis L C, and Erickson L E. 1999. An experimental study of phytoremediation of MTBE in ground water[A]. In: Proceedings of the 1999 Conference on Hazardous Waste Research[C]. 227-242. 被引量:1
  • 10Christian Petrier, Bernard David, Serge Laguian.Ultrasonic degradation at 20 kHz and 500 kHz of pentaehlorophenol in aqueous solution[J ]. Chemoshere, 1996,32(9): 1709. 被引量:1

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上海环境科学
2006年 第1期

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