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Degradation of benzophenone in aqueous solution by Mn-Fe-K modified ceramic honeycomb-catalyzed ozonation 被引量:8

Degradation of benzophenone in aqueous solution by Mn-Fe-K modified ceramic honeycomb-catalyzed ozonation
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摘要 Comparative studies of ozonation alone, ceramic honeycomb-catalyzed and Mn-Fe-K modified ceramic honeycomb catalyzed ozonation processes have been undertaken with benzophenone as the model organic pollutant. The experimental results showed that the presence of Mn-Fe-K modified ceramic honeycombs significantly increased the removal rate of benzophenone and TOC compared with that achieved by ozonation alone or ceramic honeycomb-catalyzed ozonation. The electron paramagnetic resonance (EPR) experiments verified that higher benzophenone removal rate was attribute to more hydroxyl radicals generated in the Mn-Fe-K modified ceramic honeycomb-catalyzed ozonation. Under the conditions of this experiment, the degradation rate of all the three ozonation processes are increasing with the amount of catalyst, temperature and value of pH increased in the solution. We also investigated the effects of different process of ozone addition, the optimum conditions for preparing catalyst and influence of the Mn-Fe-K modified ceramic honeycomb after multiple-repeated use. Comparative studies of ozonation alone, ceramic honeycomb-catalyzed and Mn-Fe-K modified ceramic honeycomb catalyzed ozonation processes have been undertaken with benzophenone as the model organic pollutant. The experimental results showed that the presence of Mn-Fe-K modified ceramic honeycombs significantly increased the removal rate of benzophenone and TOC compared with that achieved by ozonation alone or ceramic honeycomb-catalyzed ozonation. The electron paramagnetic resonance (EPR) experiments verified that higher benzophenone removal rate was attribute to more hydroxyl radicals generated in the Mn-Fe-K modified ceramic honeycomb-catalyzed ozonation. Under the conditions of this experiment, the degradation rate of all the three ozonation processes are increasing with the amount of catalyst, temperature and value of pH increased in the solution. We also investigated the effects of different process of ozone addition, the optimum conditions for preparing catalyst and influence of the Mn-Fe-K modified ceramic honeycomb after multiple-repeated use.
出处 《Journal of Environmental Sciences》 SCIE EI CAS CSCD 2006年第6期1065-1072,共8页 环境科学学报(英文版)
基金 The National Natural Science Foundation of China (No. 50378028)
关键词 catalytic ozonation Mn-Fe-K modified ceramic honeycomb BENZOPHENONE catalytic ozonation Mn-Fe-K modified ceramic honeycomb benzophenone
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  • 1张涛,陈忠林,马军,隋铭皓.水合氧化铁催化臭氧氧化去除水中痕量硝基苯[J].环境科学,2004,25(4):43-47. 被引量:48
  • 2Von Gunten U. Ozonation of drinking water: Part Ⅰ. Oxidation kinetics and product formation[J]. Water Research, 2003, 37:1443~1467.
  • 3Kasprzyk-Hordern B, Ziólek M, Nawrocki J. Catalytic ozonation and methods of enhancing molecular ozone reactions in water treatment[J]. Applied Catalysis B: Environmental, 2003, 46:639~669.
  • 4Bader H, Hoigné J. Determination of ozone in water by the indigo method[J]. Water Research, 1981, 15:449~456.
  • 5AWWA Research Foundation and Compagie Générale des Eaux. Foundmental Aspects Ozone in water treatment application and engineering[M]. Michigan, USA:Lewis Publisher, 1991.18~19.
  • 6StummW MorganJ(著) 汤鸿霄 (译).水化学[M].北京:科学出版社,1987.460-465.
  • 7Mullet M,Fievet P,et al. A simple and accurate determination of the point of zero charge of ceramic membranes[J]. Desalination, 1999, 121:41~48.
  • 8Tamura H,Tanaka A,et al. Surface hydroxyl site densities on metal oxides as a measure for the ion-exchange capacity[J]. Journal of Colloid and Interface Science, 1999, 209:225~231.
  • 9Ma J, Graham NJD. Degradation of atrazine by manganese catalysed ozonation: Influence of humic substances[J]. Water Research, 1999, 33:785~792.
  • 10Agrafiotis C, Tsetsekou A, Stournara, C J et al.. 2000. Deposition of nanophase doped-ceria systems on ceramic honeycombs for automotive catalytic applications[J].Solid State Ionics,136:1301-1306.

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