Kinetic of Methanol Decomposition on Cu/ZnO/ZrO2 Catalysts

Grabowski, R.; Kozłowska, A.

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Tytuł artykułu

Kinetic of Methanol Decomposition on Cu/ZnO/ZrO2 Catalysts

Autorzy

Grabowski R. , Kozłowska A.

Identyfikatory

Warianty tytułu

Języki publikacji

Abstrakty

Interaction of methanol with Cu/ZnO/ZrO2 (with different copper content) has been investigated by gravimetric and TPD methods. The TPD measurements of methanol adsorption on these catalysts show that it forms the complexes of two types. The first complex (I) decomposes at low temperature (453 K) yielding H2 and CO2and second (II) decomposes at the temperature (573 K) giving CO andH2. In the process of the decomposition of the complex (I) takes part water which is adsorbed on the surface of the catalyst and the decomposition of the complexes (II) occurs without participation of adsorbed water. Gravimetric measurements of methanol adsorption show that Cu facilitates adsorption of methanol and that an increase of copper content leads to the changes in the kinetics of methanol adsorption and its decomposition. On the basis of gravimetric measurements a model of methanol adsorption and decomposition on Cu/ZnO/ZrO2 catalyst has been proposed and the rate constants of methanol adsorption (ka) and decomposition with and without participation of water (k1 and k2) have been determined.

Słowa kluczowe

methanol decomposition methanol adsorption kinetics model

Wydawca

Polskie Towarzystwo Chemiczne

Czasopismo

Polish Journal of Chemistry

Rocznik

2004

Tom

Vol. 78 / nr 2

Strony

287--298

Opis fizyczny

Bibliogr. 36 poz., rys.

Twórcy

autor

Grabowski R.

Institute of Catalysis and Surface Chemistry, Polish Academy of Sciences, ul. Niezapominajek 8, 30-239 Kraków, Poland

autor

Kozłowska A.

Institute of Catalysis and Surface Chemistry, Polish Academy of Sciences, ul. Niezapominajek 8, 30-239 Kraków, Poland

Bibliografia

1. Amenomiya Y., Appl. Catal., 30, 57 (1987).
2. Bartley G.J.J. and Burch R., Appl. Catal., 43, 141 (1988).
3. Gasser D. and Baiker A., Appl. Catal., 48, 279 (1989).
4. Koppel R.A., Baiker A. and Wokaun A., Appl. Catal. A: Gen., 84, 77 (1992).
5. Nitta Y., Fujimatsu T., Okamoto Y. and Imanaka T., Catal. Lett., 17, 157 (1993).
6. FrOhlich C., KOppel R.A. and Baiker A., Appl. Catal. A: Gen., 106, 275 (1993).
7. Nitta Y., Suwata O., Ikeda Y., Okamoto Y. and Imanaka T., Catal. Lett., 26, 345 (1994).
8. Sahibzada M., Chadwig D. and Metcalfe I.S., Catal. Today, 29, 367 (1996).
9. Kilo M., Weigel J., Wokaun A., KSppel R.A., Stoekli A. and Baiker A., J. Mol. Catal. A: Chem., 126,169 (1997) .
10. Ma Y., Sun Q., Wu D., Fan Wen-Hao, Zhan Yu-Long and Deng Jing-Fa, Appl. Catal. A: Gen., 171, 45 (1998) .
11. Joo Oh-Shim, Jung Kwang-Deog, Moon 1., Rozovskii A.Ya., Lin G.I., Han Sung-Hwa nand Uhm Sung-Jin, Ind. Eng. Chem. Res., 38, 1808 (1999).
12. Wambach J., Baiker A. and Wokaun A., Phys. Chem. Chem. Phys., 1, 5071 (1999).
13. Ortelli E.E., Wambach J. and Wokaun A., Appl. Catal A: Gen., 216, 227 (2000).
14. TakezawaN. and Iwasa N., Catal. Today, 36, 45 (1997).
15. Jang C.J., Trimm D.L., Wainwright M.S. and Cant N.W., Appl. Calal. A, 93, 245 (1993)
16. Jang C.J., Trimm D.L., Wainwright M.S. and Cant N.W., Appl. Calal. A, 97, 145 (1993).
17. Peppley B.A., Amphlett J.C., Kearns L.M. and Mann R.F., Appl. Catal. A, 179, 21 (1999).
18. Breen J.P. and Ross J.R.H., Catal. Today, 51, 521 (1999).
19. Velu S., Suzuki K., Okazaki M., Kapoor M.P., Osaki T. and Ohashi F., J. Catal., 194, 373 (2000
20. de Wild P.J. and Verhaak M.J.F.M., Catal. Today, 60, 3 (2000).
21. Fisher I.A. and Bell A.T., J. Catal., 172, 222 (1997).
22. Fisher I.A. and Bell A.T., J. Catal., 178, 153 (1998).
23. Millar G.J., Rochester C.H. and Waught K.C., J. Chem. Soc., Farad. Trans., 87,2795 (1991).
24. Clarke D.B., Lee D.K., Sandoval M.J. and Bell A.T., J. Catal., ISO, 81 (1994).
25. He M.Y. and Ekerdt J.G., J. Catal., 87, 238 (1984).
26. He M.Y. and Ekerdt J.G., J. Catal., 87, 381 (1984).
27. Hussain A.M., Sheppard N.,ZakiM.I. and Fahim R.B., J. Chem. Soc., Farad. Trans., 87,2655(1991 i
28. Dilara P.A. and Vohs J.M., Surf. Sci., 321, 8 (1994).
29. Bianchi D., Chafik T., Khalfallah M. and Teichner S., Appl. Catal. A, 123, 89 (1995).
30. Fisher I.A. and Bell A.T., J. Catal., 184, 357 (1999).
31. Chan L. and Griffin G.L., Surf. Sci., 173, 160(1986).
32. Millar G.J., Rochester C.H. and Waught K.C., J. Chem. Soc., Farad. Trans., 88, 2257 (1992).
33. Vitnova L.A. and Rozowskii A.Y., Kinet. Katal., 27, 352 (1986).
34. Minchachev Kh.M., Kotyaev K.P., Lin G.I. and Rozowskii A.Y., Catal. Lett., 3, 299 (1989).
35. Szlegiel L., Gutszik D. and Rozowskii A.Y., Kinet. Katal., 31, 1000 (1990).
36. Słoczyński J., Grabowski R., Kozlowska A., Olszewski P., Lachowska M., Skrzypek J. and Stoch J Appl. Catal. A; Gen., 249,129 (2003).

Typ dokumentu

Bibliografia

Identyfikator YADDA

bwmeta1.element.baztech-article-BUJ1-0023-0171