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In this work the La2O3/CeO2 (33 mol % of La) and CaO/CeO2 (33 mol % of Ca) catalysts were prepared by the impregnation method and characterized by XRD and CO2-TPD. The catalytic properties of the catalysts were tested in the OCM process at 1073 K using the methane/oxygen mixture of the mole ratio 3.7 or 2.5 additionally containing CO2 and helium balance. It was found that in the presence of both catalysts an addition of CO2 enhances the selectivity to the ethylene and ethane and it does not have Any negative infl uence on methane conversion. In the case of the CaO/CeO2 catalyst the promoting effect of CO2 was the highest. When the partial pressure of CO2 equals to 39 kPa the increase in selectivity from 36 to 41% was noted while the conversion of methane equal to 19.4-19.7 %.
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Tom
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22--26
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Bibliogr. 30 poz., tab., rys.
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autor
autor
autor
- Cracow University of Technology, Institute of Organic Chemistry and Technology, Warszawska 24, 31-155, Kraków, Poland, blitawa@pwsz-ns.edu.pl
Bibliografia
- 1. Choudhary, V.R., Rane, V.H. & Chaudhari, S.T. (1997). Surface properties of rare earth promoted MgO catalysts and their catalytic activity/selectivity in oxidative coupling of methane, Appl. Catal. A: Gen. 158, 121-136.
- 2. Rane, V.H., Chaudhari, S.T. & Choudhary, V.R. (2006). Comparison of the surface and catalytic properties of rare earth-promoted CaO catalysts in the oxidative coupling of methane, J. Chem. Technol. Biotechnol. 81, 208-215, DOI: 10.1002/jctb.1387.
- 3. Dedov, A.G., Loktev, A.S., Moiseev, I.I., Aboukais, A., Lamonier, J.-F. & Filimonov, I.N. (2003). Oxidative coupling of methane catalyzed by rare earth oxides. Unexpected synergistic effect of the oxide mixtures, Appl. Catal. A: Gen. 245, 209-220, DOI:10.1016/S0926-860X(02)00641-5.
- 4. Ji, S., Xiao, T., Li, S., Chou, L., Zhang, B., Xu, C., Hou, R., York, A. & Green, M. (2003). Surface WO4 tetrahedron: the essence of the oxidative coupling of methane over M-W-Mn/SiO2 catalysts, J. Catal. 220, 47-56, DOI:10.1016/ S0021-9517(03)00248-3.
- 5. Choudhary, V.R., Mulla, S.A.R. & Rane, V.H. (1998). Oxidative coupling of methane and oxidative dehydrogenation of ethane over strontium-promoted rare earth oxide catalysts, J. Chem. Technol. Biotechnol. 71, 167-172.
- 6. Wang, J., Chou, L., Zhang, B., Song, H., Yang, J., Zhao, J. & Li, S. (2006). Low-temperature selective oxidation of methane to ethane and ethylene over BaCO3/La2O3 catalysts prepared by urea combustion method, Catal. Commun. 7, 59-63, DOI:10.1016/j.catcom.2005.08.013.
- 7. Yu, Z., Yang, X., Lunsford, J.H. & Rosynek, M.P. (1995). Oxidative coupling of methane over Na2WO4/CeO2 and related catalysts, J. Catal. 154, 163-173.
- 8. Choudhary, V.R., Mulla, S.A.R. & Rane, V.H., (1998). Surface basicity and acidity of alkaline earth-promoted La2O3 catalysts and their performance in oxidative coupling of methane, J. Chem. Technol. Biotechnol. 72, 125-130.
- 9. Wang, Y., Takahaski, Y. & Ohtsuka, Y. (1999). Carbon dioxide as oxidant for the conversion of methane to ethane and ethylene using modified CeO2 catalysts, J. Catal. 186, 160-168.
- 10. Zhang, B., Li, D. & Wang, X. (2010). Catalytic performance of La-Ce-O mixed oxide for combustion of methane, Catal. Today 158, 348-353, DOI:10.1016/j.cattod.2010.04.019.
- 11. Bakiz, B., Guinneton, F., Arab, M., Benlhachemi, A., Villain, S., Satre, P. & Gavarri, J. (2010). Carbonatation and decarbonatation kinetics in the La2O3-La2O-CO3 system under CO2 gas flows, Adv. Mater. Sci. Eng. 2010, 1-6, DOI:10.1155/2010/360597.
- 12. Bahari, A., Anasari, A. & Rahmani, Z. (2011). Low temperature synthesis of La2O3 and CrO2 by sol -gel process, J. Eng. Technol. Res. 3, 203-208.
- 13. Chen, Z. & Wu, D. (2011). Novel route for the synthesis of methyl propionate from 3- pentanone with dimethyl carbonate over solid bases, Ind. Eng. Chem. Res. 50, 12343-12348, DX.DOI.ORG/10.1021/ie1006933.
- 14. Dissanayake, D., Lunsford, J.H. & Rosynek, M.P. (1993). Oxidative coupling of methane over oxide-supported barium catalysts, J. Catal. 143, 286-298.
- 15. Dissanayake, D., Lunsford, J.H. & Rosynek, M.P. (1994). Site differentiation in homolytic vs. heterolytic activation of methane over Ba/MgO catalysts, J. Catal. 146, 613-615.
- 16. Papa, F., Gingasu, D., Patron, L., Miyazaki, A. & Balint, I. (2010). On the nature of active sites and catalytic activity for OCM reaction of alkaline-earth oxides-neodymia catalytic systems, Appl. Catal. A: Gen. 375, 172-178, DOI:10.1016/j. apcata.2009.12.039.
- 17. Yide, X., Lin, Y. & Xiexian, G. (1997). Effect of basicity and adding CO2 in the feed on the oxidative coupling of methane over K2O and SrO promoted La2O3/ZnO catalysts, Appl. Catal. A: Gen. 164, 47-57.
- 18. Xu, Y., Yu, L., Cai, C., Huang, J. & Guo, X. (1995). A study of the oxidative coupling of methane over SrO-La2O3/CaO catalysts by using CO2 as a probe, Catal. Lett. 35, 215-231.
- 19. Gałecki, J., Preparatyka nieorganiczna, Wydaw. Naukowo- -Techniczne, Warszawa 1964.
- 20. Foger, K., Hoang, M. & Turney, T.W. (1992). Formation and thermal decomposition of rare earth carbonates, J. Mat. Sci. 27, 77-82.
- 21. Le Van, T., Che, M., Kermarec, M., Louis, C. & Tatibouet, J.M. (1990). Structure sensitivity of the catalytic oxidative coupling of methane on lanthanum oxide, Catal. Lett. 6, 395-400.
- 22. Au, C.T., He, H., Lai, S.Y. & Ng, C.F. (1996). A Comparison of BaF2/La2O3 and BaBr2/La2O3 catalysts for the oxidative coupling of methane, J. Catal. 159, 280-287.
- 23. Roos, J.A., Korf, S.J., Veehof, R.H.J., van Ommen, J.G. & Ross, J.R.H. (1989). Kinetic and mechanistic aspects of the oxidative coupling of methane over a Li/MgO Catalyst, Appl. Catal. A: Gen. 52, 131-145.
- 24. Korf, S.J., Roos, J. A., de Bruijn, N.A., van Ommen, J. G. & Ross, J.R.H. (1987). Influence of CO2 on the oxidative coupling of methane over a lithium promoted magnesium oxide catalyst, J. Chem. Soc., Chem. Commun. 1433-1434.
- 25. Sun, J., Thybaut, J.W. & Marin, G.B. (2008). Microkinetics of methane oxidative coupling, Catal. Today 137, 90-102, DOI:10.1016/j.cattod.2008.02.026.
- 26. Chen, C., Xu, Y., Lin, G. & Guo, X. (1996). Oxidative coupling of methane by carbon dioxide: a highly C2 selective La2O3/ZnO catalyst, Catal. Lett. 42, 149-153.
- 27. Wang, Y. & Ohtsuka, Y. (2001). Mn-based binary oxides as catalysts for the conversion of methane to C2 hydrocarbons with carbon dioxide as oxidant, Appl. Catal. A: Gen. 219, 183-193.
- 28. Istadi, Nor Aishah Saidina Amin (2004). Screening of MgO and CeO2-based catalysts for carbon dioxide oxidative coupling of methane to C2+ hydrocarbons, J. Nat. Gas Chem. 13, 23-35.
- 29. Istadi, Nor Aishah Saidina Amin (2006). Synergistic effect of catalyst basicity and reducibility on performance of ternary CeO2-based catalyst for CO2 OCM to C2 hydrocarbons, J. Mol. Catal. A: Chem. 259, 61-66 DOI:10.1016/j.molcata.2006.06.003.
- 30. Litawa, B., Michorczyk, P., Ogonowski J. & Vogt, O. (2009). Oxidative coupling of methane in the presence of O2 and CO2 over selected oxide catalysts, Technical Journal, 4/1-Ch, 37-42
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Bibliografia
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