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催化学报 2014

高表面积复合氧化物Co-O-Si的制备及其催化1-己烯骨架异构和噻吩加氢脱硫活性

DOI: 10.1016/S1872-2067(14)60074-7, PP. 1402-1409

赵鹬,王俊恩,陈慧,张晓艳,傅玉川,沈俭一

Keywords: Co-O-Si复合氧化物,表面酸性,加氢,骨架异构,加氢脱硫

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Abstract:

？通过硝酸钴与硅酸钠共沉淀、辅以正丁醇干燥技术制备了具有原子分散度的Co-O-Si复合氧化物（Co/Si原子比≈0.65），该催化剂具有较大的比表面积（562m2/g）和较强表面酸性.在硫化处理后，能够形成高度分散的硫化物活性组分，在模型汽油加氢处理反应中显示了较高的催化活性，在573K时，噻吩的加氢脱硫活性可达99.4%，同时，1-己烯的骨架异构收率达到了35%.该催化剂虽然不含Mo，其加氢脱硫活性可与工业催化剂Co-Mo/γ-Al2O3相当.而在汽油深度加氢脱硫过程中，直链烯烃往往被加氢饱和，造成辛烷值损失.该催化剂则可使部分直链烯烃发生骨架异构而生成异构烷烃，可减少深度加氢脱硫过程中的辛烷值损失.

References

[1]	Li D D, Li M F, Chu Y, Nie H, Shi Y H. Catal Today, 2003, 81: 65
[2]	Shen J Y, Shi G J. Petrochem Technol (沈俭一, 石国军. 石油化工), 2008, 37: 1111
[3]	van Wezel A, Puijker L, Vink C, Versteegh A, Voogt P. Chemosphere, 2009, 76: 672
[4]	Maurer T, Kraushaar-Czarnetzki B. J Catal, 1999, 187: 202
[5]	Meriaudeau P, Naccache C. Adv Catal, 1999, 44: 505
[6]	Ivanov A V, Zausa E, Taarit Y B, Essayem N. Appl Catal A, 2003, 256: 225
[7]	Botella P, Corma A, Lopez Nieto J M, Valencia S, Lucas M E, Sergio M. Appl Catal A, 2000, 203: 251
[8]	Abbot J, Wojciechowski B W. Can J Chem Eng, 1988, 66: 817
[9]	Gee J C, Prampin D S. Appl Catal A, 2009, 360: 71
[10]	Lopez C M, Ramirez L, Sazo V, Escobar V. Appl Catal A, 2008, 340: 1
[11]	Li H F, Li M F, Chu Y, Nie H. Microporous Mesoporous Mater, 2009, 117: 635
[12]	Rao Y, Kang J, Antonelli D M. J Am Chem Soc, 2008, 130: 394
[13]	Shi G J, Shen J Y. Energ Fuel, 2009, 23: 320
[14]	Tang N J, Zhong W, Wu X L, Jiang H Y, Liu W, Du Y W. Mater Lett, 2005, 59: 1723
[15]	Springuel-Huet M A, Bonardet J L, Gedeon A, Yue Y, Romannikov V N, Fraissard J. Microporous Mesoporous Mater, 2001, 44-45: 775
[16]	Chin R L, Hercules D M. J Phys Chem, 1982, 86: 3079
[17]	Jacobs G, Das T K, Zhang Y, Li J L, Racoillet G, Davis B H. Appl Catal A, 2002, 233: 263
[18]	Crajé M W J, de Beer V H J, van Veen J A R, vander Kraan A M. Appl Catal A, 1993, 100: 97
[19]	Shen Y T, Shuai S J, Wang H X, Xiao H H. J Environ Sci-China, 2009, 21: 1208
[20]	Lee Y, Park M B, Kim P S, Vicente A, Fernandez C, Nam I S, Hong S B, ACS Catal, 2013, 3: 617
[21]	Coleto I, Roldan R, Jimenez-Sanchidrian C, Gomez J P, Romero- Salguero F J. Catal Today, 2010, 149: 275
[22]	Rao Y, Kang J, Trudeau M, Antonelli D M. J Catal, 2009, 266: 1
[23]	Beck J S, Vartuli J C, Roth W J, Leonowicz M E, Kresge C T, Schmitt K D, Chu C T, Olson D H, Sheppard E W, McCullen S B, Higgins J B, Schlenker J L. J Am Chem Soc, 1992, 114: 10834
[24]	Kiss G, Kliewer C E, DeMartin G J, Culross C C, Baumgartner J E. J Catal, 2003, 217: 127
[25]	Yang S F, Liang C H, Prins R. J Catal, 2006, 237: 118
[26]	Shi G J, Fang D M, Shen J Y. Microporous Mesoporous Mater, 2009, 120: 339
[27]	Cherifi O, Bettahar M M, Auroux A. Thermochim Acta, 1997, 306: 131
[28]	Guo C L, Wu Y Y, Wang X, Yang B. J Energy Chem, 2013, 22: 517
[29]	Shi G, Han W, Yuan P, Fan Y, Bao X J. Chin J Catal (石冈, 韩伟, 袁珮, 范煜, 鲍晓军. 催化学报), 2013, 34: 659
[30]	Venezia A M, Murania R, Pantaleo G, Deganello G. J Mol Catal A, 2007, 271: 238
[31]	Venezia A M, Murania R, Pantaleo G, La Parola V, Scire S, Deganello G. Appl Catal A, 2009, 353: 296

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