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Catalyst Supports and Small Particle Catalysts

  • Jan-Erik Otterstedt
  • Dale A. Brandreth
Chapter

Abstract

Many of the useful properties of catalysts arise from reactions between the solid surfaces of the catalysts and various gaseous reactants. Catalysts of large specific surface areas are often desired and they can be obtained by the use of porous bodies. The large surface areas are associated with the internal surfaces of microporous systems which consist of networks of a great many very small pores.

Keywords

Silica Particle Hydrothermal Treatment Particle Catalyst Catalytic Converter Apply Catalysis 
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.

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References

  1. Alafandi, H., and Stamires, D., U.S. Patent 4, 259, 210 (1981).Google Scholar
  2. Argauer, R. J., and Landolt, G. R., U. S. Patent 3, 702, 886 (1972).Google Scholar
  3. Axelsson, I. M., Löwendahl, L., and Otterstedt, J.-E., Applied Catalysis, 44, 251 (1988).CrossRefGoogle Scholar
  4. Bergna, H., U.S. Patent 4, 677, 084 (1987).Google Scholar
  5. Eriksson, L., Löwendahl, L., Gevert, B., Törncrona, A., and Otterstedt, J-E., Applied Catalysis. (submitted for publication, 1997 ).Google Scholar
  6. Evaldsson, L., Löwendahl, L., and Otterstedt,J.-E., Applied Catalysis, 55, 123 (1989).CrossRefGoogle Scholar
  7. Iler, R. K., J. Colloid Interface Sci., 75, 138 (1980).CrossRefGoogle Scholar
  8. Iwamoto, M., Yahiro, H., Tanda, K., Mizuno, N., Mine, Y., and Kagawa, S. J. Phys. Chem., 95, 3727 (1991).CrossRefGoogle Scholar
  9. Larsson, L. B., Löwendahl, L., and Otterstedt, J.-E., Catalysis and Automotive Pollution Control. Eds. A. Crucq and A. Frennet, Elsevier Science, Amsterdam (1987).Google Scholar
  10. Lim, J., and Stamires, D., U.S. Patent 4, 086, 187 (1978).Google Scholar
  11. Lin, P.-Y., Skoglundh, M., Löwendahl, L., Otterstedt, J-E., Dahl, L., Jansson, K., and Nygren, M., Applied Catalysis B:. Environmental, 6, 237 (1995).Google Scholar
  12. Löwendahl, L., and Otterstedt, J.-E., Applied Catalysis, 59, 89 (1990).CrossRefGoogle Scholar
  13. Lussier, R.J., and Surland, G. J., U.S. Patent 4, 836, 913 (1989).Google Scholar
  14. Maher, P. K., and McDaniel, C. V., U. S. Patent 3, 402, 996 (1968).Google Scholar
  15. Moscou, L., and DeBest, E. H., Neth. Appl. 68, 17, 207 (1970).Google Scholar
  16. Oleck, S. M., Slein, T. R., Sherry, H. S., and Milstein, D., U.S. Patent 3, 931, 052 (1976).Google Scholar
  17. Otterstedt, J.-E., and Löwendahl,L., Swedish Patent 8901066–4, Nr. 464–392 (1991).Google Scholar
  18. Otterstedt, J.-E., Törncrona, A., Löwendahl, L., and Sterte, J., Swedish Patent. 470573 (1994).Google Scholar
  19. Otterstedt, J.-E., Zhu, Y.-M., and Sterte, J., Applied Catalysis. 70, 43 ( 1991 ). Otterstedt, J-E. unpublished work (1995).Google Scholar
  20. Scherzer, J. and Albers, E. W., U. S. Patent 3, 676, 368 (1972).Google Scholar
  21. Scherzer, J. U. S. Patent 4, 477, 336 (1984).Google Scholar
  22. Scherzer, J., and Humphries,A. P., U.S. Patent 4, 512, 961 (1985).Google Scholar
  23. Scherzer, J., Catal. Rev.-Sci. Eng, 31 (3), 215 (1989).Google Scholar
  24. Seese, M. A., Albers, E. W., and Magee, J. S., U.S. Patent 4, 226, 743 (1980).Google Scholar
  25. Skeels, G. W., and Breck,D. W., U. S. Patent 4, 610, 856 (1986).Google Scholar
  26. Skoglundh, M., Löwendahl, L., Menon, P. G., Stenbom, B., Jacobs, J. P., van Kessel, O., and Brongersma, H. H., Catalysis Letters, 13, 27 (1992).CrossRefGoogle Scholar
  27. Skoglundh, M., Löwendahl, L., Jansson, K., Dahl, L., and Nygren, M., Applied Catalysis, B: Environmental, 3, 259 (1994).Google Scholar
  28. Skoglundh, M., Löwendahl, L., and Otterstedt, J.-E., Applied Catalysis, 77, 9 (1991).CrossRefGoogle Scholar
  29. Sterte, J. and Otterstedt, J.-E., Mat. Res. Bull., 21, 1159 (1986).CrossRefGoogle Scholar
  30. Sterte, J., and Otterstedt, J.-E., Applied Catalysis. 38, 131 (1988).CrossRefGoogle Scholar
  31. Tischer, R.E., Journal of Catalysis. 72, 255 (1981).CrossRefGoogle Scholar
  32. Törncrona, A., Sterte, J., and J.-E. Otterstedt. J. Mater. Chem., 5, 121 (1995).Google Scholar
  33. Törncrona, A., and Otterstedt, J-E., unpublished work (1995a)Google Scholar
  34. Törncrona, A., Löwendahl, L., Otterstedt, J-E., and Jansson, K., J. Mater. Chem., 6, 213 (1996).CrossRefGoogle Scholar
  35. Törncrona, A., Löwendahl, L., Otterstedt, J-E., Brandt, J., Journal of the European Ceramic Society, 17, 1459 (1997a).CrossRefGoogle Scholar
  36. Törncrona, A., Skoglundh, M., Fridell, E., Thormählen, P., and Jobson, E., Applied Catalysis B: Environmental, 14, 131 (1997b).CrossRefGoogle Scholar
  37. Van den Broeke, L. J. P., A.I.Ch.E. Journal, 41, 2399 (1995).CrossRefGoogle Scholar
  38. Von Balmoos, R., and Meier, W. M., Nature, 289, 782 (1981).CrossRefGoogle Scholar
  39. Wan, C. Z., and Dettling, J. C., Catalysis and Automotive Pollution Control. Ed. A. Crucq and A. Frennet, Elsevier Science, Amsterdam (1987).Google Scholar
  40. Ying, Z.-S., Gevert, B., Sterte, J., and Otterstedt, J-E., Ind. Eng. Chem. Res., 34, No. 5, 1566 (1995).Google Scholar

Copyright information

© Springer Science+Business Media New York 1998

Authors and Affiliations

  • Jan-Erik Otterstedt
    • 1
  • Dale A. Brandreth
    • 2
  1. 1.Chalmers University of TechnologyGothenburgSweden
  2. 2.Widener UniversityChesterUSA

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