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水力空化强化臭氧降解水中苯酚影响因素研究 被引量:13

Influence factors of phenol degradation in water by ozonization with enhancement of hydrodynamic cavitation
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摘要 研究了在水力空化强化臭氧降解苯酚时臭氧通入量、多孔板的参数、多孔板的入口压力对苯酚降解的影响。研究表明:三者对苯酚的降解均有较大影响。增加臭氧通入量、提高入口压力都有利于苯酚的降解。研究水力空化强化臭氧氧化作用的动力学,结果表明,苯酚在单独水力空化、臭氧氧化以及它们的联合工艺下的降解均符合表观一级动力学;且在水力空化强化臭氧氧化的工艺中苯酚的去除率比在单独水力空化、臭氧氧化时有显著的提高,表明水力空化强化臭氧氧化的工艺中存在协同作用。 Ozonization with enhancement of hydrodynamic cavitation was used in the degradation of phenol, and the influences of ozone flux, parameters of porous plate, inlet pressure of the porous plate on phenol degradation were investigated. The results showed that: the above three factors were all have large effects on the degradation of phenol, and increasing the ozone flux, enhancing the inlet pressure benefited the phenol degradation. The kinetics of phenol degradation in water by ozonization with enhancement of hydrodynamic cavitation was also studied. It was found that, the phenol degradation followed pseudo-first-order kinetic law under individual hydrodynamic cavitation, ozone oxidation or combined process of the two; moreover, comparied with that using the individual process of hydrodynamic cavitation or ozone oxidation, the removal rate of phenol when using the combined process was significantly improved, which indicated the existence of the synergetic effect in technology of ozonization with enhancement of hydrodynamic cavitation.
作者 朱文明 吴纯德 陈利军 吴国枝
机构地区 华南理工大学环境科学与工程学院
出处 《工业用水与废水》 CAS 2007年第2期23-26,共4页 Industrial Water & Wastewater
基金 国家自然科学基金资助项目(20277011)
关键词 水力空化 臭氧 苯酚 协同作用 hydrodynamic cavitation ozone phenol synergetic effect
分类号 X703.1 [环境科学与工程—环境工程]
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参考文献7

  • 1J S Krishnan,P D wivedi,V S Moholkar.Numerical investigation into the chemistry induced by hydrodynamic cavitation[J].Industrial & Engineering Chemisty research,2006,45(4):1493-1504.
  • 2B Balasundaram,S T L Harrison.Study of physical and biological factors involved in the disruption of E coli by hydrodynamic cavitation[J].Biotechnology Progress,2006,22(3):907-913.
  • 3A Chatterjee,D Chatterjee.Analytical investigation of hydrodynamic cavitation control by ultrasonics[J].Nonlinear Dynamics,2006,46(1-2):179-194.
  • 4王夙,孙三祥,高孟理,魏群,武金明.水力空化降解罗丹明B研究[J].中国给水排水,2004,20(12):46-48. 被引量:19
  • 5K K Jyoti,A B Pandit.Water disinfection by acoustic and hydrodynamic cavitation[J].Biochemical Engineering Journal,2001,7(3):201-212.
  • 6K K Jyoti,A B Pandit.Ozone and cavitation for water disinfection[J].Biochemical Engineering Journal,2004,18(1):9-19.
  • 7汪大晕,雷乐成.水处理新技术及工程设计[M].北京:化学工业出版社.2002.

二级参考文献2

  • 1Kumar P Senthil, Kumar M Siva, Pandit A B. Experimental quantification of chemical effects of hydrodynamic cavitation[ J ]. Chemical Engineering Science,2000,55:1633- 1639.
  • 2Kumar Manickam Siva, Pandit Aniuddha B . Wastewater treatment:a novel energy efficient hydrodynamic cavitation technique[ J ]. Ultrasonics Sonochemistry, 2002, ( 9 ):123 - 131.

共引文献18

同被引文献210

引证文献13

二级引证文献74

工业用水与废水
2007年 第2期

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