Preview

Kataliz v promyshlennosti

Advanced search
Open Access Open Access  Restricted Access Subscription or Fee Access

Steam conversion of glycerin on Ni- and Au–Ni catalysts

https://doi.org/10.18412/1816-0387-2010-2-

Abstract

During the primary screening, the catalysts were found, allowing to obtain a synthesis gas or hydrogen from glycerin with higher yields in a relatively mild conditions. A nickel and nickel-gold catalysts on different supports were studied in the reaction of steam reforming of glycerin. It was found that Ni catalysts on acidic supports (F–Al2O3 and B2O3– Al2O3) provide selectivity of H2 73 % and conversion of glycerin 48 % at 520 °C, thus they are suitable for hydrogen production from glycerin. 30 % Ni/Al2O3 catalyst, prepared by the original sol-gel method allows to obtain a commercial methanol at relatively low temperatures (520–570 °C) and almost complete conversion of glycerin. For 0,27 % Au–0,09 % Ni/Al2O3 catalyst the synergetic effect is bright. The conversion of glycerin reaches 67 % on this catalyst at 570 °C, the composition of the formed gas mixture is suitable for methanol production.

About the Authors

A. L. Tarasov
N.D. Zelinsky Institute of Organic Chemistry of the Russian Academy of Sciences
Russian Federation


Y. A. Korolev
Lomonosov Moscow State University
Russian Federation


L. M. Kustov
N.D. Zelinsky Institute of Organic Chemistry of the Russian Academy of Sciences
Russian Federation


S. A. Nikolaev
Lomonosov Moscow State University
Russian Federation


V. V. Smirnov
Lomonosov Moscow State University
Russian Federation


References

1. Zhang Y., Dube M., McLean D., Kates M. // Bioresource Technology. 2003. Vol. 90. № 3. P. 229.

2. Sutton D., Kelleher B., Ross J. // Fuel Processing Technology. 2001. Vol. 73. № 3. P. 155.

3. Steynberg A.P., Nel H.G. // Fuel. 2004. Vol. 83. P. 765.

4. Zhang B., Tang X., Li Y., Xu Y., Shen W. // Int. J. Hydrogen Energy 2007. Vol. 32. № 13. P. 2367.

5. Zhang B., Tang X., Li Y. et al. // Catal. Commun. 2006. Vol. 7. P. 367.

6. Dauenhauer P.J., Salge J.R., Schmidt L.D. // J. Catal. 2006. Vol. 244. P. 238.

7. Hirai T., Ikenaga N.O., Mayake T., Suzuki T. // Energy Fuels. 2005. Vol. 19. P. 1761.

8. Czernik S., French R., Feik C., Chornet E. // Ind. Eng. Chem. Res. 2002. Vol. 41. P. 4209.

9. Adhikari S., Fernando S., Haryanto A. // Catalysis Today. 2007. 129. P. 355.

10. Matsumura Y., Nakamori T. // Applied Catalysis A: General. 2004. Vol. 258. № 1. P. 107.

11. Hiroki Hayashi, Seiichiro Murata, Teruoki Tago et al. // Chemistry Letters. 2001. Vol. 30. № 1. P. 34

12. Тюрина Л.А., Николаев С.А., Гуревич С.А. и др. // Катализ в промышленности. Спецвыпуск. 2008. С. 86.

13. Николаев С.А., Смирнов В.В., Белецкая И.П. и др. // Российские Нанотехнологии. 2007. Т. 2. № 9—10. С. 58.

14. Смирнов В.В., Николаев С.А., Муравьева Г.П. и др. // Кинетика и катализ. 2007. Т. 48. № 2. C. 281.

15. Du Y., Chen R. // Chem. Biochem. Eng. 2007. Vol. 21. № 3. P. 251.


Review

For citations:


Tarasov A.L., Korolev Y.A., Kustov L.M., Nikolaev S.A., Smirnov V.V. Steam conversion of glycerin on Ni- and Au–Ni catalysts. Kataliz v promyshlennosti. 2010;(2). (In Russ.) https://doi.org/10.18412/1816-0387-2010-2-

Views: 33

JATS XML

ISSN 1816-0387 (Print)
ISSN 2413-6476 (Online)