参考文献[1]沈本贤、程丽华等，石油炼制工艺学［M]，中国石化出版社，2009，292～293[2]Topse H, Clausen B S,Massoth F E. Hydrotreating Catalysis. Springer: Berlin,1996[3]Gates B C, Katzer J R,Schuit G C A. Chemistry of Catalytic Processes. New York[4]D L. Sullivan, John G. Ekerdt. Mecha nisms of Thiophene Hydrodesulfurization on Model Molybdenum Catalysts [J]. Journal of Catalysis. 1998, 178(1)：226～233[5] 刘大壮,孙培勤.催化工艺开发[M].北京：气象出版社，2002.5.[6]Daage M ，Chianelli R R Structure-function relations in molyrbdenum sulfide satalysts：The“rim-edg e”model[J]．CataL，1994，149：414～427．[7] Absi—Halabi M，StanislausA，A1-Mughn T，et a1．Hydroprocessing of vacuum residues：Relationbetween catalystactivity，deactivationan dpore sizedistribution[J]．Fuel，1995，74：1211～1215．[8] 朱华元，何鸣元，宋家庆等．催化剂的大分子裂化性能与渣油裂化[J].炼油设计，2000，30(8)：47～50．[9] Kresge C T, Leonowice M E, Roth W J, et a1. Orderedmesoporous molecular sieves synthesized by a liquid-crystaltemplate mechanism[J]. Nature, 1992, 359: 710～711.[10] Mobil, Zhin C H, et al. Hydrothermal stability of a disordered mesoporous molecular sieve [J]. Studies in Surface Science and Catalysis，1998, 106: 45～48.[11] Cui J, Yue Y H, Sun Y,et al. Characterization and reactivity of Ni,Mo-supported MCM-41 catalysts for hydrodesulfurization [J]. Studies in Surface Science and Catalysis, 1997, 105: 69～78.[12] Ryoo R, Kim J M, Shin C H, et al. Synthesis and hydrothermal stability of a disordered mesoporous molecular sieve [J]. Studies in Surface Science and Catalysis，1997, 105: 42～45.[13] Angelici R J．Theoretical study of ethanethiol adsorption on HZSM-5 zeolite[J].Polyhedron，1997,16（18）：3073～3088.[14] 安高军，柳云骐，柴永明等.柴油加氢精制催化剂制备技术[J].化学进展, 2007,19(2/3)：243～249.[15] Oyama S. T, Clark P, Teixeira da Silva V. L. S, Lede E. J, and Requejo F G..XAFS characteriza tion of highly active alumina-supported molybdenumphosphide[J].J. Phys.Chem. B, 2001,105 (1)：4961～4966.[16]BejSK,MaltySK,TuragaU.Searchforaneficient4,6-DMDBThydrodesulfuriz-ationcatalyst：a review of recent studies[J]．Energy Fuels，2004，l8：1227～1237．[17]Ramirez J，Cedeno L，Busca G．The role oftitania support in Mobased hydrodesulfurization catalysts[J]．Cata1．1999，l84：59～67．[18] Malty S K，Ancheyta J，Soberanis L，et a1．Alum ina-titania binary mixed oxide used as support of catalysts for bydrotreating of Maya heavy crude[J]．App1．CataL A，2003，244：141～153．[19] Breys M，AfanasievP，GeantetC，eta1．Deep desulfurization：Reactions，catalysts and technological challenges[J]．CataL Today，2003，86：5～l6．[20] DharGM，SrinivasBN，RanaM S，et a1．Mixed oxide supported hydrodesulfurization catalysts：A review[J]．Cata1．Today，2003，86：45～60．[21] 刘志红.提高柴油加氢精制催化剂活性的方法[J].化工进展2008,27(2)：173～179.[22] M P Boreque, A L Apez-Agudo. Catalytic activities of Co(Ni)/TiO2-Al2O3 catalysts in gasoil and thiophene HDS and pyridine HDN:effect of the TiO2-Al2O3 composition[J]. Applied Catalysis,1999,180：53～54.[23] S Yoshinaka, K Segawa. Hydrodusulfurization of dibenzothiophenes over molybdenum catalyst supported on TiO2-Al2O3[J]. Catalysis Today, 1998,45：293～294[24] DharGM，SrinivasBN，RanaM S，et a1．Mixed oxide supported hydrodesul furization catalysts：A review[J]．Cata1．Today，2003，86：45～60．[25] Damyanova S，Petrov L，Centeno M A，et a1．Characterization of molybdenum hydrod esulfurization catalysts suppo rted on ZrO2-Al2O3 and ZrO2-SiO2 carriers[J]．AppL CataLA，2002，224：271～284．[26] 周亚松等.以TiO2-SiO2为载体的催化剂加氢脱硫性能研究[J].复旦学报（自然科学版），2003，42（3）：387～391.[27]Dzwigaj S，Louis C，Breysse M，et a1．New Generation of Titanium DioxideSupport for Hydrodesulfurization[J]．Applied Catalysis B ，2003，41：18l~191.[28] Escalona Emir, PereiraAlmaoPedro, CastilloJimmy, etal. Nanometric bimetallic sulfides prepared via thermal decomposition of Ni and Feheteropolymolybdate emulsions[J]. Catalysis Letters, 2006, 112(3-4): 227～230.[29] 王萍, 周志军, 田晓飞, 孙桂大. 负载型氮化钴钼催化剂的制备及催化性能[J]. 石油化工高等学校学报, 2003, 16(2):13～15.[30] HADA K, Tanabe J, Omi S, et al. Characterization of cobalt molybdenum nitrides for thiophene HDS by XRD、TEM and XPS [J]. Journal of Catalysis, 2002, 207(24): 10～22.[31] 李建伟, 李英霞, 陈标华, 等. Co-Mo/A1203催化剂上裂解汽油中单烯烃加氢宏观动力学[J]. 燃料化学学报, 2006, 34(2): 170～174.[32] Wang Yuhong, Li Wei, Zhang Minghui, Guan Naijia, etal. Characterization and catalytic properties of supported nickel molybdenum nitrides for hydrodenitrogenation[J]. Applied Catalysis A, 2001, 215(1-2): 39～45.[33] 柳云骐, 刘晨光, 阙国和. 二苯并噻吩在CoMoN x催化剂上的加氢脱硫[J]. 催化学报, 2000, 21(4): 337～340.[34] 李庆杰, 赵志芳, 李凤艳, 等. 负载型磷化钼加氢精制催化剂的制备研究[J]. 燃料化学学报, 2006, 34 (1): 126～128.[35] 左东华, 谢玉萍, 聂红, 等. 4,6-二甲基二苯并噻吩加氢脱硫的反应机理研究[J]. 催化学报, 2002, 23(3): 271～275.[36] 刘武灿, 何兴娇, 卢春山. 金属氮化物/碳化物催化加氢性能研究进展[J]. 工业催化, 2005, 13(3): 1～5.[37] 李凤艳, 孙桂大, 赵天波, 等. 含磷加氢处理催化剂[J]. 石油化工高等学校学报, 2002, 15(2): l～5.[38] Escalona Emir, PereiraAlmaoPedro, CastilloJimmy, etal. Nanometric bimetallic sulfides prepared via thermal decomposition of Ni and Fe heteropolymolybdate emulsions[J]. Catalysis Letters, 2006, 112(3-4): 227～230.[39] Hubaut Robert. Characterization and hydrodesufurization activities of mixed Fe-Mo sulfides supported on alumina and carbon [J]. Fuel, 2007, 86(5-6): 743～749.[40] Levy R B, Boudart M. Platinum-like Behavior of Tungsten Carbide in Surface Catalysis [M]. Science, 1973, 181: 547～549.[41] Aegerter P A, Quigley W W C, Simpson G J, et al. Thiophene Hydrodesulfurization Over Alumina-Supported Molybdenum Carbide and NitrideCatalysts: Adsorption Sites, Catalytic Activities, and Nature of the Active Surface [J]. Journal ofCatalysis,1996, 164(1): 109～121.[42] Sajkowski D J, Oyama S T. Catalytic Hydrotreatment of Illinois No. 6Coal-Derived Naphtha: The Removal of Individual Nitrogen and Sulfur Compound. Applied Catalysis A, 1996, 134: 339～349.[43] 张耀军, 李新生. 催化新材料γ-Mo2N的合成和表征[J].分子催化, 1996,10(2):103～108.[44] 丁正新, 盛世善.碳化钼催化剂的XPS研究[J].化学物理学报,1997,10(3):235～240.[45] 王新平, 张文郁.Mo2N的表面性质加氢脱氮活性[J].物理化学学报,1996,12(6):513～517[46] 周振华, 张辉军.Mo2N催化剂的加氢脱硫活性[J].石油化工,1996,25(10):689～692[47] 杨树武, 纪纯新.催化剂上及H2和NO吸附性能的TDP-MS研究[J].物理化学学报[J],1996,12(12):1084～1089.[48] 王远强, 陈思浩. Ni P/Ti02的制备、表征及其加氢脱硫反应性能[J].上海化工, 2006, 31(11): 10～12.[49] 鄢景森, 王安杰, 李翔, 等. 负载型磷化钼的原位还原制备及其加氢脱硫反应活性[J]. 石油学报(石油加工), 2006, 22(1): 15～21.[50] 李翠清, 王洪学, 李成岳, 等. 噻吩在不同负载磷化钨催化剂上的加氢脱硫[J]. 分子催化, 2O04, 18(1): 15～l8.[51] Yasuhiro Iwama,Nobuyuki Ichikuni, Kyoko Bando. Effect of Co addition for carburizing process of Ti-oxide/SiO2 into TiC/SiO2[J]. Applied Catalysis, A: General, 2007, 323: 104～109.[52] Vit Zdenek. Iridium sulfide and Ir promoted Mo based catalysts[J]. Applied Catalysis A: General, 2007, 322: 142～151.[53] Leyva Carolina, Jorge Ancheyta, Mohan SRana, et al. A comparative study on the effect of promoter content of hydrodesulfurization catalysts at different evaluation scales[J]. Fuel, 2007, 86(9): 1232～1239.。