Fe-цеолитные катализаторы селективного восстановления NOx аммиаком

Список литературы

1. М. Wojchiechowska, S. Lomnicki / Nitrogen oxides removal by catalytic methods // Clean Products and Processes, 1 (1999), p.237
2. J. Kaspar, P. Fornasiero and N. Hickey / Automotive catalytic converters: current status and some perspectives // Catal. Today, 77 (2003), p. 419
3. R.M. Heck, R.J. Farrauto / Catalytic Air Pollution Control: Commercial Technology // N.Y., Van Nostrand Reinhold, 1995, 416 p., ISBN: 471 436 240
4. O.B. Крылов / Гетерогенный катализ // M., Академкнига, 2004 г., 679 стр.- ISBN 594 628−141−0
5. V.I. Parvulescu, P. Grange and B. Delmon / Catalytic removal of NO // Catal. Today, 46 (1998), p. 233
6. R. Burch, J.P. Breen and F.C. Meunier / A review of the selective reduction of NOx with hydrocarbons under lean-burn conditions with non-zeolitic oxide and platinum group metal catalysts // Appl. Cat. B, 39 (2002) 4, p. 283
7. L.S. Glebov, A.G. Zakirova, V.F. Tret’yakov, T.N. Burdeinaya, and G.S. Akopova / State of the Art of Research in Catalytic Conversion of NO* into N2 // Petroleum Chemistry 42, (2002) 3, p. 143
8. Brandenberger, S., O. Krocher, A. Tissler- R. Althoff / The State of the Art in Selective Catalytic Reduction of NOx by Ammonia Using Metal-Exchanged Zeolite Catalysts. // Catalysis Reviews-Science and Engineering 50 (2008) 4, p. 492
9. Gabrielsson, P.L.T. / Urea-SCR in Automotive Applications. // Top. Catal 28 (2004) 1, p. Ill
10. M. Shelef / Selective Catalytic Reduction of NOx with N-Free Reductants // Chem. Rev., 95 (1995), p. 209
11. Чоркендорф, И., Наймантсведрайт, X. / Современный катализ и химическая кинетика // перевод с англ. В. И. Ролдугина. Долгопрудный: Интеллект, 2010. — 500 стр., ISBN 978−5-91 559−044−0
12. S. Roy and A. Baiker / NOx Storage-Reduction Catalysis: From Mechanism and Materials Properties to Storage-Reduction Performance. // Chem. Rev. 109 (2009) 9, p. 4054
13. W.S. Epling, L.E. Campbell, A. Yezerets, N.W. Currier, J.E. Parks II I Overview of the fundamental reactions and degradation mechanisms of NOx storage/reduction catalysts. // Catalysis Reviews Science and Engineering 46 (2004) 2, p. 163
14. Bowker, M. / Automotive catalysis studied by surface science. // Chem. Soc. Rev. 37 (2008) 10, p. 2204
15. C.M. Nam, B.M. Gibbs / Application of the thermal DeNOx process to diesel engine DeNOx: an experimental and kinetic modelling study // Fuel, 81 (2002) 10, p. 1359
16. Y. Nakanishi, J. dugk Gong, Y. Yoshihara, and K. Nishiwaki / Application of a New Selective Noncatalytic NO Reduction System to Diesel Exhaust // JSME International Journal, series B, 46 (2003), № 1, p. 131
17. A.Yu. Stakheev, C. W. Lee, S. J. Park and P. J. Chong / Selective catalytic reduction of NO with propane over CoZSM-5 containing alkaline earth cations // Appl. Cat. B, 9 (1996), p. 65
18. J.A. Sullivan and O. Keane / The role of Bronstead acidity in poisoning the SCR-urea reaction over FeZSM-5 catalysts II Appl. Cat. B, 61 (2005), p. 244
19. T. Johannessen, H. Schmidt, A.M. Frey and C.H. Christensen / Improved Automotive NOx Aftertreatment System: Metal Ammine Complexes as NH3 Source for SCR Using Fe-Containing Zeolite Catalysts. // Catal. Lett. 128 (2009) 1−2, p. 94
20. K. Rahkamaa-Tolonen, T. Maunula, M. Lomma, M. Huuhtanen and R.L. Keiski / The effect of NO2 on the activity of fresh and aged zeolite catalysts in the NH3-SCR reaction //
21. Cat. Today, 100 (2005), p. 217
22. J.P. Bodanese and M. Santos / Numerical Simulation of the Kinetics of the Selective Catalytic Reduction of NO by NH3 // Braz. Journ. ofPhys., 34 (2004), 2, p. 425
23. H.-Y. Chen, Q. Sun, B. Wen, Y.-H. Yeom, E. Weitz and W.M.H. Sachtler / Reduction over zeolite-based catalysts of nitrogen oxides in emissions containing excess oxygen: Unraveling the reaction mechanism // Cat. Today, 96 (2004), p. 1
24. T. Valdes-Solis, G. Marban, and A.B. Fuertes / Kinetics and Mechanism of Low-Temperature SCR of NOx with NH3 over Vanadium Oxide Supported on Carbon-Ceramic Cellular Monoliths II Ind. Eng. Chem. Res., 43 (2004), p. 2349
25. B. Roduit, A. Wokaun, and A. Baiker / Global Kinetic Modeling of Reactions Occurring during Selective Catalytic Reduction of NO by NH3 over Vanadia/Titania-Based Catalysts // Ind. Eng. Chem. Res., 37 (1998), p. 4577
26. F. Gilardoni, J. Weber, and A. Baiker / Mechanism of the Vanadium Oxide-Catalyzed Selective Reduction of NO by NH3. A Quantum Chemical Modeling IIJ Phys. Chem. A, 101 (1997), p. 6069
27. K. Jug, T. Homann, and T. Bredow / Reaction Mechanism of the Selective Catalytic Reduction of NO with NH3 and 02 to N2 and H20 II J. Phys. Chem. A, 108 (2004), p. 2966
28. G. Ramis, L. Yi and G. Busca / Ammonia activation over catalysts for the selective catalytic reduction of NOx and the selective catalytic oxidation of NII3. An FT-IR study // Cat. Today, 28 (1996), p. 373
29. M. Wallin, C.-J. Karlsson, M. Skoglundh and A. Palmqvist / Selective catalytic reduction of NOx with NH3 over zeolite H-ZSM-5: influence of transient ammonia supply // J. Catal., 218 (2003), p. 354
30. L. Xu, R.W. McCabe and R.H. Hammerle / NOx self-inhibition in selective catalytic reduction with urea (ammonia) over a Cu-zeolite catalyst in diesel exhaust. // Appl. Cat. B, 39 (2002), p. 51
31. M. Farber and S.P. Harris / Kinetics of ammonia-nitric oxide reactions on vanadium oxide catalysts II J. Phys. Chem, 88, (1984), p. 680
32. M. Gehring, K. Hoyermann, H. Schacke, and J. Wolfrum, Symp. (Int.) Combust. Proc. J, 14, 1972, p. 99,(1973)1.