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化学进展 2001, Vol. 13 Issue (02): 118- 前一篇   后一篇

• 综述与评论 •

钴基催化剂在Fischer-Tropsch合成烃中的研究进展

彭少逸;杨文书;钟炳;李文怀;银董红   

  1. 中科院山西煤炭化学所
  • 收稿日期:1999-11-01 修回日期:2000-03-01 出版日期:2001-03-24 发布日期:2001-03-24
下载PDF ( 2013 ) 引用
导出 被引次数 ( 194 | 23 )

Progress in Cobalt-based Catalysts in Fischer-Tropsch Synthesis of Hydrocarbons

Yin Donghong;Li Wenhuai;Yang Wenshu;Zhong Bing;Peng Shaoyi   

  1. The State Key Laboratory of Coal Conversion, Shanxi Institute of Coal Chemistry,Chinese Academy of Sciences, Taiyuan 030001, China
  • Received:1999-11-01 Revised:2000-03-01 Online:2001-03-24 Published:2001-03-24
F2T 合成中催化剂的选择是关键。本文对近十几年来钴基催化剂在F2T 合成烃中的催化性能进行了评述, 重点讨论了负载型钴基催化剂制备过程中载体、钴源、助剂和制备方法等因素对催化剂活性、选择性控制等方面的影响。
关键词: Fischer-Tropsch合成, 钴金属, 催化剂, 制备, 载体, 合成气
The selection of the catalyst is a key factor in Fischer Tropsch synthesis. Cobaltbased catalysts and their catalytic performances in FT synthesis over the last decades have been reviewed. An emphasis is played on the influence of supports, cobalt precursors, promoters, and preparation method on the catalytic activity and selectivity control in the preparation of supported cobalt catalysts.
Key words: Fischer Tropsch synthesis, cobalt, catalyst, preparation, support, syngas

中图分类号: 

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[ 1 ] Van Wehem V M H, Senden M M G. Stud. Surf. Sci. Catal. ,1994, 81: 43- 71
[ 2 ] Schulz H. Appl. Catal. A-Gener. , 1999, 186 (1- 2) : 3- 12
[ 3 ] Dry M E, Hoogendoorn J C. Catal. Rev. Sci. Eng. , 1981, 23(1- 2) : 265- 278
[ 4 ] 相宏伟(Xiang H W ) , 钟炳(Zhong B). 化学进展(Progress in Chemistry) , 1999, 11 (4) : 385- 393
[ 5 ] Iglesia E, Reyes S C, Madon R J. J. Catal. , 1991, 129 (1) :238- 256
[ 6 ] Madon R J , Reyes S C, Iglesia E. J. Phys. Chem. , 1991, 95(20) : 7795- 7804
[ 7 ] Madon R J , Iglesia E. J. Catal. , 1993, 139 (2) : 576- 590
[ 8 ] Anderson R B. The Fischer-Tropsch Synthesis, London: Academic Press, 1984
[ 9 ] Dry M E. Catalysis Today, 1990, 6 (3) : 183- 206
[ 10 ] Oukaci R, Singleton A H, Goodwin J G J r. Appl. Catal. A Gener. , 1999, 186 (1- 2) : 129- 144
[ 11 ] Kikuchi E, Sorita R, Takahashi H, Matsuda T. Appl. Catal.A-Gener. , 1999, 186 (1- 2) : 121- 128
[ 12 ] Kuipers E W , Vinkenburg W , Oosterbeek H. J. Catal. ,1995, 152 (1) : 137- 146
[ 13 ] Van Steen E, Sewell G S, Makhothe K A , et al. J. Catal. ,1996, 162 (2) : 220- 229
[ 14 ] Khodakov A Y, Lynch J , Bazin D, et al. J. Catal. , 1997,168 (1) : 16- 25
[ 15 ] Castner D G, Waston P R, Chan I Y. J. Phys. Chem. ,1989, 93 (8) : 3188- 3194
[ 16 ] Castner D G, Waston P R, Chan I Y. J. Phys. Chem. ,1990, 94 (2) : 819- 828
[ 17 ] Ho S W , Houalla M , Hercules D M. J. Phys. Chem. , 1990,94 (16) : 6396- 6399
[ 18 ] Reuel R C, Bartholomew C H. J. Catal. , 1984, 85 (1) : 78-88
[ 19 ] Bartholomew C H, Reuel R C. Ind. Eng. Chem. Prod. Res.Dev. , 1985, 24 (1) : 56- 61
[ 20 ] Halvorsen S, Vinje K, Lofthus S, et al. Stud. Surf. Sci.Catal. , 1991, 61: 281- 287
[ 21 ] Iglesia E, Soled S L , Fiato R A. J. Catal. , 1992, 137 (1) :212- 224
[ 22 ] Geerlings J J C, Zonnevylle M C, De Groot C P M. Surf.Sci. , 1991, 241 (3) : 302- 314
[ 23 ] Kraum M , Baerns M. Appl. Catal. A-Gener. , 1999, 186 (1- 2) : 189- 200
[ 24 ] Vanhove D, Zhuyong Z, Makamob L , Blanchard M. Appl.Catal. , 1984, 9 (3) : 327- 342
[ 25 ] Lapszewicz J A , Loeh H J , Chipperfield J R. J. Chem. Soc. ,Chem. Commun. , 1993. 913
[ 26 ] Lapidus A , Krylova A , Rathousky J , et al. Appl. Catal. A Gener. , 1992, 80 (1) : 1- 11
[ 27 ] Rathousky J , Zukal A , Lapidus A , et al. Appl. Catal. A Gener. , 1991, 79 (2) : 167- 180
[ 28 ] Lapidus A , Krylova A , Kazanskii V , et al. Appl. Catal. A Gener. , 1991, 73 (1) : 65- 82
[ 29 ] 张永青(Zhang Y Q ). 气凝胶担载Co/ZrO2-SiO2 催化剂的制备、表征及其在长链烃合成中的应用( The Preparation and Characterization of Aerogel Supported Co/ZrO2-SiO2 Catalyst and Their Application in Long-chain Hydrocarbons Synthesis ) , 博士学位论文〔Doctoral Dissertations〕, 太原〔Taiyuan〕: 中国科学院山西煤炭化学研究所〔Institute of Coal Chemistry, Chinese Academy of Sciences〕, 1997
[ 30 ] 相宏伟(Xiang H W ). ZrO2 和M/ZrO2 气凝胶超细粉的制备、表征及其催化应用(The Preparation and Characterization of ZrO2 and M/ZrO2 Aerogel Ultrafine Powders and Their Application as Catalytic Materials) , 博士学位论文〔Doctoral Dissertation〕, 太原〔Taiyuan〕: 中国科学院山西煤炭化学研究所〔Institute of Coal Chemistry, Chinese Academy of Sciences〕,1994
[ 31 ] Bessell S. Appl. Catal. A-Gener. , 1993, 96 (2) : 253- 268
[ 32 ] Cuczi L , Kiricsi I. Appl. Catal. AGener. , 1999, 186 (1-2) : 375- 394
[ 33 ] Jong S J , Cheng S. Appl. Catal. A-Gener. , 1995, 126 (1) :51- 66
[ 34 ] Iwasaki T, Reinikainen M , Onodera Y, et al. Appl. Surf.Sci. , 1998, 130- 132 (1- 4) : 845- 850
[ 35 ] Niemela M K, Krause A O I, Vaara T, et al. Appl. Catal.A-Gener. , 1996, 147 (2) : 325- 345
[ 36 ] Niemela M , Krause A O I, Vaara T, et al. Topics in Catalysis, 1995, 2: 45- 48
[ 37 ] Van der Loosdrecht J , van der Haar M , van der Kraan A M ,et al. Appl. Catal. A-Gener. , 1997, 150 (2) : 365- 376
[ 38 ] Matsuzaki T, Takeuchi K, Hanaoka T, et al. Catalysis Today, 1996, 28 (3) : 251- 259
[ 39 ] Matsuzaki T, Takeuchi K, Hanaoka T, et al. Catalysis Today, 1997, 36 (3) : 311- 324
[ 40 ] Fleisch T H, Hicks R F, Bell A T. J. Catal. , 1984, 87 (2) :398- 413
[ 41 ] Rieck J S, Bell A T. J. Catal. , 1985, 96 (1) : 88- 105
[ 42 ] Goodwin J G J r. Preprint of ACS, Division of Petroleum Chem. , 1991, 36 (1) : 156- 158
[ 43 ] Iglesia E, Soled S L , Fiato R A , Via G H. J. Catal. , 1993,143 (2) : 345- 368
[ 44 ] Shpiro E S, Tkachenko O P, Belyatskii V N , et al. Kinet.Catal. , 1990, 31: 832
[ 45 ] Vada S, Hoff A , Adnanes E, et al. Topics in Catalysis,1995, 2: 155- 160
[ 46 ] Ho S W. J. Catal. , 1998, 175 (2) : 139- 151
[ 47 ] Viswanathan B, Gopalakrishnan R. J. Catal. , 1986, 99 (2) :342- 348
[ 48 ] Feller A , Claeys M , van Steen E. J. Catal. , 1999, 185 (1) :120- 130
[ 49 ] Oukaci R, Goodwin J G J r, Marcelin G, Singleton A. Preprof ACS, Division of Fuel Chem. , 1994, 39 (4) : 1117- 1121
[ 50 ] Kogelbauer A , Weber J C, Goodwin J G J r. Catal. Lett. ,1995, 34: 259- 367
[ 51 ] Ledford J S, Houalla M , Proctor A , Hercules D M. J. Phys.Chem. , 1989, 93 (18) : 6770- 6777
[ 52 ] Adachi M , Yoshii K, Han Y Z, Fujimoto K. Bull. Chem.Soc. Jpn. , 1996, 69 (6) : 1509- 1516
[ 53 ] Ernst B, Hilaire L , Kiennemann A. Catalysis Today, 1999,50 (2) : 413- 427
[ 54 ] Bruce L A , Hoang M , Hughes A E, Turney T W. Appl.Catal. A-Gener. , 1993, 100 (1) : 51- 67
[ 55 ] Withers H P, Eliezer K F, Mitchell J W. Ind. Eng. Chem.Res. , 1990, 29 (9) : 1807- 1814
[ 56 ] Barrault J , Guilleminot A , Achard J C, et al. Appl. Catal. ,1986, 21 (2) : 307- 312
[ 57 ] Houalla M , Delmon B. Appl. Catal. , 1981, 1: 285
[ 58 ] Li J , Coville N J. Appl. Catal. A-Gener. , 1999, 181 ( 1) :201- 208
[ 59 ] Puskas I, Fleisch T H, Hall J B, et al. J. Catal. , 1992, 134(2) : 615- 628
[ 60 ] Ming H, Baker B G. Appl. Catal. A-Gener. , 1995, 123 (1-2) : 23- 36
[ 61 ] Ho S W , Su Y S. J Catal. , 1997, 168 (1) : 51- 59
[ 62 ] Iglesia E. Appl. Catal. A-Gener. , 1997, 161 (1- 2) : 59- 78
[ 63 ] Iglesia E, Soled S L , Baumgartner J E, Reyes S C. J. Catal. ,1995, 153 (1) : 108- 122
[ 64 ] Hench L L , West J K. Chem. Rev. , 1990, 90 (1) : 33- 72
[ 65 ] Vansant E F, van der Voort P, Vrancken K C. Stud. Surf.Sci. Catal. , 1995, 93, chapteré , ?
[ 66 ] Ernst B, Libs S, Chaumette P, Kiennemann A. Appl. Catal.A-Gener. , 1999, 186 (1- 2) : 145- 168
[ 67 ] Van der Riet M , Hutchings G J , Copperthwaite R G. J.Chem. Soc. , Chem. Commun. , 1986. 798
[ 68 ] Copperthwaite R G, Hutchings G J , van der Riet M , Woodhouse J. Ind. Eng. Chem. Res. , 1987, 26 (5) : 869- 874
[ 69 ] Liang Q , Chen K, Hou W , Yan Q. Appl. Catal. A-Gener. ,1998, 166 (1) : 191- 199
[ 70 ] Colley S E, Copperthwaite R G, Hutchings G J , et al. Appl.Catal. A-Gener. , 1992, 84 (1) : 1- 15
[ 71 ] Colley S E, Betts M J , Copperthwaite R G, Hutch ings G J , et al. J. Catal. , 1992, 134 (1) : 186- 203
[ 72 ] Keyser M J , Everson R C, Espinoza R L. Appl. Catal. A-Gener. , 1998, 171 (1) : 99- 107
[ 73 ] Boudart M , Mc Donald M A. J. Phys. Chem. , 1984, 88(11) : 2185- 2195
[ 74 ] Fu L , Bartholomew C H. J. Catal. , 1985, 92 (2) : 376- 387
[ 75 ] Kogelbauer A , Goodwin J G J r, Oukaci R. J. Catal. , 1996,160 (1) : 125- 133
[ 76 ] Belambe A R, Oukaci R, Goodwin J G J r. J. Catal. , 1997,166 (1) : 8- 15
[ 77 ] Hindermann J P, Hutchings G J , Kiennemann A. Catal. Rev.Sci. Eng. , 1993, 35 (1) : 1- 127
[ 78 ] Adesina A A. Appl. Catal. A-Gener. , 1996, 138 (2) : 345-367
[ 79 ] Henrici-Oliver G, Oliver S. Angew. Chem. , 1976, 88: 144-150
[ 80 ] Huff G A , Satterfield C N. J. Catal. , 1984, 85 (2) : 370-379
[ 81 ] Konig L , Gaube J. Chem. Ing. Tech. , 1983, 55 (1) : 14- 22
[ 82 ] Egiebor N O , Cooper W C, Wojciechowski B W. Can. J.Chem. Eng. , 1985, 63 (5) : 826- 834
[ 83 ] Novak S, Madon R J , Suhl H. J. Catal. , 1982, 77 (1) : 141- 151
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