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Issue
Korean Journal of Chemical Engineering,
Vol.15, No.6, 625-630, 1998
Hydrodesulfurization of Dibenzothiophene over Supported and Unsupported Molybdenum Carbide Catalysts
Park HK, Kim DS, Kim KL
A series of γ-Al2O3 supported molybdenum carbides [carbided Mo/γ-Al2O3 (MCS), Co-Mo/γ-Al2O3 (CMCS), and Ni-Mo/γ-Al2O3 (NMCS)] and unsupported molybdenum carbide (MCUS) were prepared by the temperature-programmed carburization of their corresponding molybdenum nitrides with 20% CH4/H2. XRD and SEM studies show that unsupported molybdenum carbide catalyst possesses a typical crystalline Mo2C (FCC structure), while supported molybdenum carbide catalysts possess highly dispersed surface molybdenum carbide species on an alumina oxide support. The results of dibenzothiophene (DBT) hydrodesulfurization over molybdenum carbide catalysts show that the reactivity is strongly dependent on the type of catalyst. Supported molybdenum carbide catalysts possess a higher reactivity than the unsupported molybdenum carbide catalyst. In addition, Co or Ni promoted, supported molybdenum carbide catalyst possesses a higher reactivity than the unpromoted, supported molybdenum carbide catalyst. The reactivity, which is also dependent on the reaction conditions, increases with increasing reaction temperature and pressure and contact time. The CO uptakes of the molybdenum carbide catalysts correlate well with overall activity (total rate) for DBT hydrodesulfurization. The major reaction product is biphenyl, with cyclohexylbenzene next in abundance regardless of the type of catalysts and reaction conditions. It was also found that the molybdenum carbide catalysts exhibit stable initial reactivity due to the stable and weak acidic characteristics of these catalysts.
Keywords: Carbided Mo/γ-Al2O3; Mo2C; Promoter; N2 Adsorption; XRD; SEM; CO Chemisorption; Dibenzothiophene; Hydrodesulfurization
[References]
  1. Abe H, Bell AT, Catal. Lett., 18, 1, 1993
  2. Abe H, Cheung TK, Bell AT, Catal. Lett., 21, 11, 1993
  3. Absi-Halabi M, Stanislaus A, Trimm DL, Appl. Catal., 72, 193, 1991
  4. Cho IH, Kang YC, Park SB, HWAHAK KONGHAK, 35(6), 814, 1997
  5. Choi JG, Brenner JR, Thompson LT, J. Catal., 154(1), 33, 1995
  6. Choi JG, Curl RL, Thompson LT, J. Catal., 146(1), 218, 1994
  7. Delporte P, Meunier F, Phamhuu C, Vennegues P, Ledoux MJ, Guille J, Catal. Today, 23(3), 251, 1995
  8. Gregg SJ, Sing KSW, "Adsorption, Surface Area and Porosity," Academic Press, 2nd edn., London, 1982
  9. Kim KL, Choi KS, Korean J. Chem. Eng., 5(2), 177, 1988
  10. Leclercq G, Kamal M, Giraudon JM, Devassine P, Feigenbaum L, Leclercq L, Frennet A, Bastin JM, Lofberg A, Decker S, Dufour M, J. Catal., 158(1), 142, 1996
  11. Leclercq G, Provost M, Paster H, Grimbolt J, Hardy AM, Gengembre L, Leclercq L, J. Catal., 117, 384, 1989
  12. Ledoux MJ, Pham-Huu C, Guille J, Dunlop H, J. Catal., 134, 383, 1992
  13. Lee HS, Koo HS, Shin MJ, Kim KL, HWAHAK KONGHAK, 27(2), 123, 1989
  14. Lee J, Boudart M, Appl. Catal., 19, 207, 1985
  15. Lee J, Boudart M, Catal. Lett., 20, 97, 1993
  16. Lee JK, Park HK, Kim MC, Kim KL, HWAHAK KONGHAK, 33(2), 147, 1995
  17. Lee KS, Abe H, Reimer JA, Bell AT, J. Catal., 139, 34, 1993
  18. Lee KW, Choi MJ, Kim SB, Korean J. Chem. Eng., 8(3), 143, 1991
  19. Markel EJ, Vanzee JW, J. Catal., 126, 646, 1990
  20. Moon SJ, Ihm SK, Korean J. Chem. Eng., 11(2), 111, 1994
  21. Nagai M, Kusagawa T, Miyata A, Omi S, Bull. Soc. Chim. Belg, 104, 311, 1995
  22. Nagai M, Miyao T, Tuboi T, Catal. Lett., 18, 9, 1993
  23. Oh M, Jan EJ, HWAHAK KONGHAK, 35(5), 791, 1997
  24. Oyama ST, Schlatter JC, Metcalfe JE, Lambert JM, Ind. Eng. Chem. Res., 27, 1639, 1988
  25. Park HK, "A Study of Hydrodesulfurization of Dibenzothiophene over Mo, CoMo, NiMo/γ-Al2O3 Catalysts with Various States, and their Characterization and Kinetic Analysis," Ph.D. Thesis, Yonsei University, Seoul, 1994
  26. Park HK, Jeon KS, Kim KL, HWAHAK KONGHAK, 28(1), 1, 1990
  27. Park HK, Lee JK, Kim KL, HWAHAK KONGHAK, 35(2), 276, 1997
  28. Park HK, Lee JK, Yoo JK, Ko ES, Kim DS, Kim KL, Appl. Catal. A: Gen., 150(1), 21, 1997
  29. Peri JB, "Catalysis-Science and Technology," Springer-Verlag, West Germany, Vol. 5, 1984
  30. Ranhotra GS, Haddix GW, Bell AT, Teimer JA, J. Catal., 108, 24, 1987
  31. Roberts KL, Markel EJ, J. Phys. Chem., 98(15), 4083, 1994
  32. Schlatter JC, Oyama ST, Metcalfe JE, Lambert JM, Ind. Eng. Chem. Res., 27, 1648, 1988
  33. Shin CH, Kim HS, Kim KL, HWAHAK KONGHAK, 27(3), 315, 1989
  34. Thakur DS, Thomas MG, Ind. Eng. Chem. Prod. Res. Dev., 23, 349, 1984
  35. Thakur DS, Thomas MG, J. Solid State Chem., 59, 332, 1985
  36. Volpe L, Boudart M, Catal. Rev.-Sci. Eng., 27(4), 515, 1985
  37. Zaki MI, J. Phys. Chem., 90, 3176, 1986
[Cited By]
  1. Song YK, Lee KB, Lee HS, Rhee YW, Korean Journal of Chemical Engineering, 17(6), 691, 2000
  2. Min W, Korean Journal of Chemical Engineering, 19(4), 601, 2002
  3. Kim IK, Yoa SJ, Lee JK, Huang CP, Korean Journal of Chemical Engineering, 20(6), 1045, 2003
  4. Han JW, Lim JC, Korean Chemical Engineering Research, 45(3), 226, 2007
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