[1] 张国宝. 中国能源发展报告[M]. 北京:经济科学出版社,2010 Zhang Guobao. Report on China's energy development for 2010[M]. BeiJing: Economic Science Press, 2010(in Chinese)
[2] 孙启文,吴建民. 煤间接液化技术及其研究进展[J]. 化工进展, 2013, 32(1): 1-10 Sun Qiwen, Wu Jianmin. Indirect coal liquefaction technology and its research progress[J]. Chemical Industry and Engineering Progress, 2013, 32(1): 1-10(in Chinese)
[3] 相宏伟,杨勇,李永旺. 煤炭间接液化: 从基础到工业化[J]. 中国科学:化学,2014, 44(12): 1 876-1 892 Xiang Hongwei, Yang Yong, Li Yongwang. Indirect coal-to-liquids technology from fundamental research to commercialization[J]. Science China: Chemistry, 2014, 44(12): 1 876-1 892(in Chinese)
[4] Schulz H.Short history and present trends of Fischer-Tropsch synthesis[J]. Applied Catalysis A: General,1999,186(1/2): 3-12
[5] Steynberg A P, Dry M E, Davis B H, et al. Fischer-Tropsch reactors, Fischer-Tropsch technology[J]. Studies in surface Science and Catalysis,2004,152: 64-195
[6] 赵玉龙. 浆态床FT合成反应器的工程放大[J]. 化学反应工程与工艺,2008,24(5): 461-468 Zhao Yulong. Engineering scale-up of the bubble column slurry reactor for Fischer-Tropsch synthesis[J]. Chemical Reaction Engineering and Technology, 2008, 24(5): 461-468(in Chiense)
[7] Steynberg A P, Espinoza R L, Jager B. High temperature Fischer-Tropsch synthesis in commercial practice[J]. Applied Catalysis A, 1999, (186): 41-54
[8] Mark E D. The Fischer-Tropsch process:1955—2000[J]. Catal Today, 2002, 71(314): 227-241
[9] Jager B. Development in Fischer-Tropsch technology[J]. Sci Catal, 1997, 107(1): 219-241
[10] Amelse J A, Butt J B. Carburization of supported iron synthesis catalysts[J]. J Phys Chem, 1978, 82(5): 558-563
[11] 王向辉,许明, 门卓武, 等. 费托合成催化剂还原技术研究[J]. 洁净煤技术, 2013, 19(5): 54-59 Wang Xianghui, Xu Ming, Men Zhuowu,et al. Research progress on Fischer-Tropsch catalyst reduction technologies[J]. 2013, 19(5): 54-59(in Chinese)
[12] Raupp G B, Delgass W N. Mosbauer investigation of supported Fe and FeNi catalysts: Carbides formed Fischer-Tropsch synthesis [J]. J Catal, 1979, 58(3): 348-360
[13] Raupp G B, Delgass W N. Mössbauer investigation of supported Fe catalysts: III. In situ kinetics and spectroscopy during Fischer-Tropsch synthesis[J]. J Catal, 1979, 58(3): 361-369
[14] Niemantsverdriet J W, van der Kraan A M. On the time-dependent behavior of iron catalysts in Fische-Tropsch synthesis[J]. J Catal, 1981, 72(2): 385-388
[15] Ahlafi H, Bennett C O, Bianchi D. Isothermal hydrogenation of carbonaceous adsorbed species on an iron catalyst. III. Kinetic model and experimental verification of the variation of the surface hydrogen concentration[J]. J Catal, 1992, 133(1): 83-93
[16] Xu J, Bartholomew C H. Temperature-Programmed hydrogenation (TPH) and in situ mössbauer spectroscopy studies of carbonaceous species on silica-supported iron Fischer-Tropsch catalysts[J]. J Phys Chem B, 2005, 109(6): 2 392-2 403
[17] Herranz T, Rojas S, Perez-Alonso F J, et al. Genesis of iron carbides and their role in the synthesis of hydrocarbons from synthesis gas[J]. J Catal, 2006, 243(1): 199-211
[18] Niemantsverdriet J W, van der Kraan A M, van Dijk W L, et al. Behavior of metallic iron catalysts during Fischer-Tropsch synthesis studied with möessbauer spectroscopy, X-ray diffraction, carbon content determination, and reaction kinetic measurements[J]. J Phys Chem, 1980, 84(25): 3 363-3 370
[19] 定明月. F-T合成Fe-Mn催化剂预处理及活性相研究[D]. 太原: 中国科学院山西煤炭化学研究所,2009 Ding Mingyue. Study of pretreatment and activity phase on Fe-Mn catalyst for Fischer-Tropsch synthesis[D]. Taiyuan: Institute of Coal Chemistry, Chinese Academy of Sciences, 2009(in Chinese)
[20] Ding M. Study on reduction and carburization behaviors of iron phases for iron-based Fischer-Tropsch synthesis catalyst[J]. Appl Energy, 2015. doi: 10.1016/j.apenergy.2014.12.042
[21] Chu W, Chernavskii P A, Gengembre L, et al. Cobalt species in promoted cobalt alumina-supported Fischer-Tropsch catalysts[J]. J Catal, 2007, 252(10): 215-230
[22] Bukur D B, Okabe K, Rosynek M P, et al. Activation studies with a precipitated iron catalyst for Fischer-Tropsch synthesis: I. Characterization studies[J]. J Catal, 1995, 155(1/2): 353-365
[23] Bukur D B, Nowcki L, Manne R K, et al. Activation studies with a precipitated iron catalyst for Fischer-Tropsch synthesis: II. Reaction studies[J]. J Catal, 1995, 55(1/2): 366-375
[24] Bukur D B, Lang X S, Ding Y J. Pretreatment effect studies with a precipitated iron Fischer-Tropsch catalyst in a slurry reactor[J]. Applied Catalysis A: General, 1999, 186(1/2): 255-275
[25] 郝庆兰. 浆态床F-T合成Fe/Cu/K/SiO2催化剂预处理研究[D]. 太原: 中国科学院山西煤炭化学研究所, 2005 Hao Qinglan. Pretreatment effect studies with spray-dried Fe/Cu/K/SiO2 Fischer-Tropsch catalyst in a slurry reactor[D]. Taiyuan: Institute of Coal Chemistry, Chinese Academy of Sciences, 2005(in Chinese)
[26] Ernst B, Bensaddik A, Hilarie L, et al. Study on a cobalt silica catalyst during reduction and Fischer-Tropsch reaction: In situ EXAFS compared to XPS and XRD [J]. Catal Today,1998, 39(4): 329-341
[27] 贾丽涛,房克功,陈建刚,等. 预处理气氛对Co-ZrO2共沉淀催化剂结构的影响[J]. 物理化学学报,2006,22(11): 1 404-1 408 Jia Litao, Fang Kegong, Chen Jiangang,et al. Effect of pretreatment atmospheres on the structure of the Co-ZrO2 catalyst prepared by precipitation method[J]. Acta Phys Chim Sin, 2006,22(11):1 404-1 408(in Chinese)
[28] 贾丽涛,房克功,陈建刚,等.还原气氛对钴锆共沉淀催化剂结构和费托合成反应性能的影响[J]. 催化学报, 2007, 28(7): 596-600 Jia Litao, Fang Kegong, Chen Jiangang, et al. Effects of reduction atmosphere on structure and catalytic activity of Co-ZrO2 catalyst for Fischer-Tropsch synthesis[J]. Chinese Journal of Catalysis, 2007, 22(7): 596-600(in Chinese)
[29] De la Pena O'Shea V A, Campos-Martin J M, Fierro J L G. Strong enthancement of the Fischer-Tropsch synthesis on a Co/SiO2 catalyst activate in syngas mixture[J]. Catal Commun, 2004, 5(10): 635-638
[30] De la Pena O'Shea V A,Homs N, Fierro J L G, et al. Structural changes and activation treatment in a Co/SiO2 catalyst for Fischer-Tropsch synthesis[J]. Catal Today, 2006, 114(4): 422-427
[31] Jongsomjit B, Goodwin J G. Co-Support compound formation in Co/Al2O3catalysts: Effect of reduction gas containing CO[J]. Catal Today, 2002, 77(3): 191-204
[32] Kölbel H, Ralek M. Fischer-Tropsch synthesis in the liquid phase[J]. Catal Rev Sci Eng, 1980, 21(2): 226-274
[33] Luo M, Davis B H. Fischer-Tropsch synthesis: Activation of low-alpha potassium iron catalysts[J]. Fuel Process Technology, 2003, 83(1/3): 49-65
[34] Al-Dossary M, Fierro J L G. Effect of high-temperature pre-reduction in Fischer-Tropsch synthesis on Fe/ZrO2 catalysts[J]. Applied Catalysis A: General, 2015, 499: 109-117
[35] 秦绍东,张成华, 许建,等. 还原温度对Fe-Mo催化剂性质及F-T合成性能的影响[J]. 料化学学报,2012, 40(2): 221-228 Qin Shaodong, Zhang Chenghua, Xu Jian, et al. Effect of reduction temperature on the properties and Fischer-Tropsch synthesis performance of Fe-Mo catalysts[J]. Journal of Fuel Chemistry and Technology, 2012,40(2): 221-228(in Chinese)
[36] Niemela M K, Backman L, Krause A O I, et al. The activity of the Co/SiO2 catalyst in relation to pretreatment[J]. Appl Catal A, 1997, 156(2): 319-334
[37] Potoczna-Petru D. Effect of thermal treatment in H2 on Co films supported on silica and carbon[J]. Mater Chem Phys, 1998, 55: 224-228
[38] Potoczna-Petru D, Kepinski L. Reduction study of Co3O4 model catalyst by electron microscopy[J]. Catal Lett, 2001, 73(1): 41-46
[39] Jablonski J M, Okal J, Potoczna-Petru D, et al. High temperature reduction with hydrogen, phase composition, and activity of cobalt/silica catalyst[J]. J Catal, 2003, 220(1): 146-160
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