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2007 | 9 | 4 | 56-58

Article title

Catalityc removal of nitrogen oxide from combustion gases


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Nitrogen oxide conversion to nitrogen over Pt/Al2 O3, Pd/Al2O3, Rh/Al2O3 catalysts was investigated. The results of the catalytic activity investigations, with the iso-x method, showed that NO reduction by methane occurs at a reasonable rate at the temperature range 200-500°C. Alumina-supported Pd, Pt and Rh catalysts have been compared for the selective reduction of NO to N2. All the catalysts showed good activity in NO reduction by methane, giving around 80 - 90% N2 production. At moderate temperatures Pt is the most active catalyst for the removal of NO.









Physical description


1 - 12 - 2007
30 - 1 - 2008


  • Faculty of Chemistry, University of Marie Curie-Skłodowska, pl. Marie Curie-Skłodowska 3, 20-031 Lublin, Poland


  • Taylor K. C. Nitric oxide catalysis in automotive exhaust systems, Cata. Rev.-Sci. Eng., 35 (1993) 457.
  • Hodjati S., Vaezzadeh K., Petit C., Pitchon V. NOx sorption-desorption study, Catal. Today 59 (2000) 323.
  • Radojevic M. Reduction of nitrogen oxides in flue gases, Environmental Pollution 102, S1 (1998) 685 - 689.
  • Barcicki J., Nazimek D., Grzegorczyk W., Borowiecki T., Frąk R., Pielach M. A new preparation technique of catalysts characterized by small metal crystallites, React. Kinet. Catal. Lett., 17 (1981)169.
  • Ryczkowski J. Modification of preparation technique for higly dispersed Ni/γ-Al2O3 catalysts, React. Kinet. Catal. Lett., 40 (1989) 189.
  • Ryczkowski J. EDTA interaction with δ-allumina. All NMR studies, Reeact. Kinet. Catal. Lett., 56 (1995) 241.
  • Ryczkowski J., Borowiecki T., Naziemk D. How modifiers can influence on the properties of Ni/γ-Al2O3 catalysts, Adsorp. Sci. and Technol., 14 (1996) 113.
  • Nazimek D., Ryczkowski J. Conversion of n-butane over Pt-Me/Al2O3 catalysts, Stud. Surf. Sci. and Catal., 119 (1998) 623.
  • Yao H. C., Japar S., Schelef M. Surface interactions in the system Rh/Al2O3, J. Catal., 50 (1976) 407.
  • Yao H. C., Schelef M. J. Catal., 43 (1976) 393.
  • Kobyliński T., Taylor K. J. Catal., 43 (1974) 3764.
  • Borodziński A., Bonarowska M. Relation between crystallite size and dispersion on supported metal catalysts, Lamgmuir, 13 (1997) 5613.
  • Nazimek D., Ryczkowski J. A gradientless reactor for kinetic studies of catalytic processes, Ads.Sci.Technol., 17 (1999) 360.
  • Barcicki J., Nazimek D., Grzegorczyk W., Borowiecki T., Denis A. A new preparation technique of catalysts characterized by small metal crystallites, Polish Journal Chemistry 55 (1981) 1839.
  • Burch R., Breen J. P., Meunier F. C. A review of the selective reduction of NOx with hydrocarbons under learnburn conditions with non-zeolitic oxide and platinum group metal catalysts, App. Catal. 39 (2002) 283.

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