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POROUS CARBONS BASED CATALYSTS FOR OBTAINING OF HYDROGEN BY METHANOL DEGRADATION

Stoycheva, Ivanka, Tsoncheva, Tanya, Tsyntsarski, Boyko, Ivanova, Radostina, Spassova, Ivanka

First published: 2015https://doi.org/10.5593/sgem2015/b41/s17.051View metrics

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Title
POROUS CARBONS BASED CATALYSTS FOR OBTAINING OF HYDROGEN BY METHANOL DEGRADATION
Authors
Stoycheva, Ivanka, Tsoncheva, Tanya, Tsyntsarski, Boyko, Ivanova, Radostina, Spassova, Ivanka
Proceedings
SGEM International Multidisciplinary Scientific GeoConference EXPO Proceedings; 15th International Multidisciplinary Scientific GeoConference SGEM2015, ENERGY AND CLEAN TECHNOLOGIES
Publisher
Stef92 Technology
Year
2015
Pages
393-400
ISSN
1314-2704
ISBN
978-619-7105-38-4
Language
en
Publication type
Conference Paper
References20
  1. Rodriguez-Reinoso F.R., The rol e of carbon materials in heterogeneous catalysis, Carbon vol.36/ Issue 3, pp 159-175, 1998.

  2. Jüntgen H., Activated carbon as catalyst support: A review of new research results, Fuel vol.65/ Issue 10, pp 1436-1446, 1986.

  3. Vankova S., Tsoncheva T., Mehandjiev D., Effect of precursor of manganese supported on activated carbon catalysts for methanol decomposition, Catalysis Communications vol. 5/Issue 2, pp 95-99, 2004.

  4. Bakker W.J.W., Kapteijn F., Moulijn J.A., A high capacity manganese-based sorbent for regenerative high temperature desulfurization with direct sulfur production Conceptual process application to coal gas cleaning, Chemical Engineering Journal, vol. 96, pp 223 – 235, 2003.

  5. Xie H., Zhao X., Zhou G., He X., Lan H., Jiang Z., Investigating the performance of CoxOy/ activated carbon catalysts for ethyl acetate catalytic combustion, Applied Surface Science, vol. 326, pp 119-123, 2015.

  6. Boehm H.P., Chemical Identification of Surface Groups, Advances in Catalysis, vol. 16, pp 179 – 274, 1966.

  7. Papirer E., Li S., Donnet J-B., Contribution to the study of basic surface groups on carbons, Carbon, vol. 25/Issue 2, pp 243-247, 1987.

  8. Fujita H., Hijiriyama M., Nishida S., Gasification reactivities of optical textures of metallurgical cokes, Fuel, vol.62/Issue 8, pp 875-879, 1983.

  9. Tsyntsarski B., Petrova B., Budinova T., Petrov N., Influence of the chemical composition of agricultural by-products on their behaviour during thermal treatment, Bulgarian Chemical Communications, vol. 38/ Issue 4, pp 289-292, 2006.

  10. Kaddouri A., Ifrah S., Gelin P., A study of the Influence of the Synthesis Conditions upon the Catalytic Properties of LaMnO3.15 in Methane Combustion in the Absence and Presence of H2S, Catalysis Letters, vol.119/ Issue 3-4, pp 237- 244, 2007. International Multidisciplinary Scientific GeoConfenferences SGEM 2015 www.sgem.org

  11. Rodriguez-Reinoso F.R., The rol e of carbon materials in heterogeneous catalysis, Carbon vol.36/ Issue 3, pp 159-175, 1998.

  12. Jüntgen H., Activated carbon as catalyst support: A review of new research results, Fuel vol.65/ Issue 10, pp 1436-1446, 1986.

  13. Vankova S., Tsoncheva T., Mehandjiev D., Effect of precursor of manganese supported on activated carbon catalysts for methanol decomposition, Catalysis Communications vol. 5/Issue 2, pp 95-99, 2004.

  14. Bakker W.J.W., Kapteijn F., Moulijn J.A., A high capacity manganese-based sorbent for regenerative high temperature desulfurization with direct sulfur production Conceptual process application to coal gas cleaning, Chemical Engineering Journal, vol. 96, pp 223 – 235, 2003.

  15. Xie H., Zhao X., Zhou G., He X., Lan H., Jiang Z., Investigating the performance of CoxOy/ activated carbon catalysts for ethyl acetate catalytic combustion, Applied Surface Science, vol. 326, pp 119-123, 2015.

  16. Boehm H.P., Chemical Identification of Surface Groups, Advances in Catalysis, vol. 16, pp 179 – 274, 1966.

  17. Papirer E., Li S., Donnet J-B., Contribution to the study of basic surface groups on carbons, Carbon, vol. 25/Issue 2, pp 243-247, 1987.

  18. Fujita H., Hijiriyama M., Nishida S., Gasification reactivities of optical textures of metallurgical cokes, Fuel, vol.62/Issue 8, pp 875-879, 1983.

  19. Tsyntsarski B., Petrova B., Budinova T., Petrov N., Influence of the chemical composition of agricultural by-products on their behaviour during thermal treatment, Bulgarian Chemical Communications, vol. 38/ Issue 4, pp 289-292, 2006.

  20. Kaddouri A., Ifrah S., Gelin P., A study of the Influence of the Synthesis Conditions upon the Catalytic Properties of LaMnO3.15 in Methane Combustion in the Absence and Presence of H2S, Catalysis Letters, vol.119/ Issue 3-4, pp 237- 244, 2007. International Multidisciplinary Scientific GeoConfenferences SGEM 2015 www.sgem.org

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