中文
Earlier issues
Announcement
More
Progress in Chemistry 2009, Vol. 21 Issue (04): 622-628 Previous Articles   Next Articles

• Review •

Effects of Noble Metal Promoter on Supported Cobalt-Based Fischer-Tropsch Catalysts

Zhang Hui;  Chu Wei **   

  1. (Department of Chemical Engineering, Sichuan University, Chengdu 610065, China)
  • Received: Revised: Online: Published:
  • Contact: Chu Wei E-mail:chuwei65@yahoo.com.cn
PDF ( 1567 ) Cited
Export

EndNote

Ris

BibTeX

Being of high activity and good selectivity in C5+ hydrocarbons, noble metal promoted cobalt Fischer-Tropsch catalysts are widely utilized in carbon monoxide hydrogenation to clean fuels or long chain hydrocarbons. The effects of noble metal promoter on the structure of Co active species are reviewed and discussed in this paper, as well as the reducibility, dispersion, the formation of bimetallic particles or alloy, and the influences on their catalytic performances.

Contents
1 Introduction
2 Effects of noble metal promoter on supported cobalt catalysts
2.1 Reducibility of FT cobalt catalysts promoted by noble metal
2.2 Dispersion of noble metal promoted nano-cobalt catalysts
2.3 Formation and effects of bimetallic cobalt-noble metal FT catalysts
3 Effects of noble metal on the deactivation behaviors of promoted FT cobalt catalysts
4 Effects of noble metal addition on the Fischer-Tropsch performances and product distribution
5 Summary

Key words: Fischer-Tropsch synthesis, cobalt catalysts, noble metal promoters, reducibility, dispersion

CLC Number: 

[ 1 ]  Khodakov A , Chu W, Fongarland P. Chem. Rev. , 2007 , 107 :1692 —1744
[ 2 ]  Chu W, Wang L N , Khodakov A , et al . Angew. Chem. Int . Ed. ,2008 , 47 : 5052 —5055
[ 3 ]  Dry M E. Catal . Today , 2002 , 71 : 227 —241
[ 4 ]  Chen J G, Sun Y H. Stud. Surf . Sci . Catal . , 2004 , 147 : 277 —282
[ 5 ]  朱拓权(Zhu T Q) , 房克功(Fang K G) , 陈建刚(Chen J G) 等.燃料化学学报(J . Fuel Chem. Technol . ) , 2005 , 33 (4) : 506 —508
[ 6 ]  Zhang Y, Hanayama K, Tsubaki N. Catal . Commun. , 2006 , 7 :251 —254
[ 7 ]  Zhang J L , Chen J G, Ren J , et al . Appl . Catal . A , 2003 , 243 :121 —133
[ 8 ]  Wang T, Ding Y J , Xiong J M, et al . Stud. Surf . Sci . Catal . ,2004 , 147 : 349 —354
[ 9 ]  Xiong H , Zhang Y, Liew K, et al . J . Mol . Catal . A , 2005 , 231 :145 —151
[10 ]  徐慧远(Xu H Y) , 储伟(Chu W) , 慈志敏(Ci Z M) . 物理化学学报(Acta Phys. Chim. Sinica) , 2007 , 23 (7) : 1042 —1046
[11 ]  Chu W, Hong J P , Dai X Y, et al . Chin. J . Chem. Phys. , 2007 ,20 : 743 —747
[12 ]  Chu W, Kieffer R , Kiennemann A , Hindermann J P. Appl . Catal .A , 1995 , 121 : 95 —111
[13 ]  Jacobs G, Das T K, Patterson P M, et al . Appl . Catal . A , 2003 ,247 : 335 —343
[14 ]  Hilmen A M, Schanke D , Hanssen K F , et al . Appl . Catal . A ,1999 , 186 : 169 —188
[15 ]  Shi L H , Chen J G, Fang K G, et al . Fuel , 2008 , 87 : 521 —526
[16 ]  Chang J , Chen J G, Teng B T, et al . Chin. J . Catal . , 2005 , 26 :731 —733
[17 ]  杨文书(Yang W S) , 房鼎业( Fang D Y) , 相宏伟(Xiang H W)等. 化学学报(Acta. Chim. Sinica) , 2005 , 63 (2) : 157 —162
[18 ]  Ma W P , Ding YJ , Lin L W. Ind. Eng. Chem. Res. , 2004 , 43 :2391 —2398
[19 ]  Iglesia E , Soled S L , Fiato R A. US 4822824 , 1989
[20 ]  Alarion F , Deves J M, Euzen P. US 6007700 , 1999
[21 ]  Eri S , Goodwin J G, George M, Riis T. US 4801573 , 1989
[22 ]  Kobylinski T P , Kibby C L , Pannell R B , Eddy EL. US 4605676 ,1986
[23 ]  Tristantini D , Lêgdberg S , Gevert B , et al . Fuel Process. Technol . ,2007 , 88 : 643 —649
[24 ]  Batley G E , Ekstrom A , Johnson D A. J . Catal . , 1975 , 34 : 368 —375
[25 ]  Pankina G V , Chernavskii P A , Khodakov A Y, et al . Russ. J .Phys. Chem. , 2006 , 80 : 732 —737
[26 ]  Jacobs G, Chaney J A , Patterson P M, et al . Appl . Catal . A ,2004 , 264 : 203 —212
[27 ]  Bianchi C L. Catal . Lett . , 2001 , 76 : 155 —159
[28 ]  Li J L , Zhan X D , Zhang Y Q , et al . Appl . Catal . A , 2002 , 228 :203 —212
[29 ]  Kogelbauer A , Goodwin J G, Oukaci R , et al . J . Catal . , 1996 ,160 : 125 —133
[30 ]  Girardon J S , Constant-Griboval A , Gengembre L , et al . Catal .Today , 2005 , 106 : 161 —165
[31 ]  Chu W, Chernavskii P A , Gengembre L , et al . J . Catal . , 2007 ,252 : 215 —230
[32 ]  Schanke D , Vada S , Blekkan E A , et al . J . Catal . , 1995 , 156 :85 —95
[33 ]  Jacobs G, Das T K, Zhang Y Q , et al . Appl . Catal . A , 2002 ,233 : 263 —281
[34 ]  Tsubaki N , Sun S , Fujimoto K. J . Catal . , 2001 , 199 : 236 —246
[35 ]  Sun S , Fujimoto K, Yoneyama Y, et al . Fuel , 2002 , 81 : 1583 —1591
[36 ]  Qiu X, Tsubaki N , Sun S , et al . Fuel , 2002 , 81 : 1625 —1630
[37 ]  Mauldin C H , Varnado D E. Stud. Surf . Sci . Catal . , 2001 , 136 :417 —422
[38 ]  Girardon J-S , Quinet E , Khodakov A Y, et al . J . Catal . , 2007 ,248 : 143 —157
[39 ]  Jongsomjit B , Panpranot J , Goodwin J G. J . Catal . , 2001 , 204 :98 —109
[40 ]  Jacobs G, Patterson P M, Zhang Y, et al . Appl . Catal . A , 2002 ,233 : 215 —226
[41 ]  Bezemer GL , Bitter J H , De Jong K, et al . J . Am. Chem. Soc. ,2006 , 128 : 3956 —3964
[42 ]  Van Berge P J , van de Loosdrecht J , Barradas S , et al . Catal .Today , 2000 , 58 : 321 —334
[43 ]  Dees MJ , Ponec V. J . Catal . , 1989 , 119 : 376 —387
[44 ]  徐东彦(Xu D Y) , 李文钊(Li WZ) , 段洪敏(Duan HM) . 催化学报(Chinese Journal of Catalysis) , 2005 , 26 (9) : 780 —784
[45 ]  Xu D Y, Li W Z, Duan H M, et al . Catal . Lett . , 2005 , 102 :229 —235
[46 ]  Ojeda M, López Granados M, Rojas S , et al . J . Mol . Catal . A ,2003 , 202 : 179 —186
[47 ]  Carlsson A F , Naschitzki M, Ba? umer M, et al . J . Phys. Chem. B ,2003 , 107 : 778 —785
[48 ]  Nowitzki T, Carlsson A F , Martyanov O , et al . J . Phys. Chem. C ,2007 , 111 : 8566 —8572
[49 ]  Rygh L E S , Nielsen C J . J . Catal . , 2000 , 194 : 401 —409
[50 ]  Bardi U , Beard B C , Roos P N , J . Catal . , 1990 , 124 : 22 —29
[51 ]  Pankina GV , Chernavskii P A , Krylova A Y, et al . Kinet . Catal . ,2007 , 48 : 567 —571
[52 ]  Bazin D , Guczi L. Stud. Surf . Sci . Catal . , 2004 , 147 : 343 —348
[53 ]  Bazin D , Kovàcs I , Lynch J , et al . Appl . Catal . A , 2003 , 242 :179 —186
[54 ]  Guczi L , Bazin D , Kovàcs I , et al . Stud. Surf . Sci . Catal . , 2001 ,136 : 111 —116
[55 ]  Jacobs G, Ji Y Y, Davis B H , et al . Appl . Catal . A , 2007 , 333 :177 —191
[56 ]  Mierzw B , Kaszkur Z, Moraweck B , et al . J . Alloys Compd. ,1999 , 286 : 93 —97
[57 ]  Saib A M, Borgna A , van de Loosdrecht J , et al . Appl . Catal . A ,2006 , 312 : 12 —19
[58 ]  R? nningM, Nicholson D G, Holmen A. Catal . Lett . , 2001 , 72 :141 —146
[59 ]  Li P , Liu J , Nag N , et al . Appl . Catal . A , 2006 , 307 : 212 —221
[60 ]  Guczi L , Bazin D , Kovacs I , et al . Top. Catal . , 2002 , 2 : 129 —139
[61 ]  Guczi L. Catal . Today , 2005 , 101 : 53 —64
[62 ]  Bazin D , BorkóL , Koppány Z, et al . Catal . Lett . , 2002 , 84 :169 —182
[63 ]  周玮(Zhou W) , 房克功(Fang J G) , 陈建刚(Chen J G) , 孙予罕(Sun Y H) . 化学进展(Progress in Chemistry) , 2006 , 18 (1) :45 —50
[64 ]  Das T K, Jacobs G, Davis B. H. Catal . Lett . , 2005 , 101 : 187 —190
[65 ]  Iglesia E , so led SL , Rocco A F. J . Catal . , 1992 , 137 : 212 —224
[66 ]  Huber GW, Butala S J M, Lee M L , et al , Catal . Lett . , 2001 ,74 : 45 —48
[67 ]  Madon R J , Reyes S C , Iglesia E. J . Phys. Chem. , 1991 , 95 :7795 —7804
[68 ]  Iglesia E , Reyes S C , Madon R J , J . Catal . , 1991 , 129 : 238 —256
[69 ]  Madon R J , Iglesia E. J . Catal . , 1993 , 139 : 576 —590
[70 ]  Kogelbauer A , Goodwin J G, Oukaci R. J . Catal . , 1996 , 160 :125 —133
[71 ]  Iglesia E. Appl . Catal . A , 1997 , 161 : 59 —78
[72 ]  Li J L , Jacobs G, Zhang YQ , et al . Appl . Catal . A , 2002 , 223 :195 —203
[73 ]  Schanke D , Vada S , Blekkan E A , et al . J . Catal . , 1995 , 156 :85 —95
[1] Yang Linyan, Guo Yupeng, Li Zhengjia, Cen Jie, Yao Nan, Li Xiaonian. Modulation of Surface and Interface Properties of Cobalt-Based Fischer-Tropsch Synthesis Catalyst [J]. Progress in Chemistry, 2022, 34(10): 2254-2266.
[2] Xu Zhigang, Liu Zhimin, Yang Baomin, Zi Futing. Development of Dummy Template Molecularly Imprinted Techniques in Sample Pretreatment [J]. Progress in Chemistry, 2012, 24(08): 1592-1598.
[3] Jiang Guoxiang, Shen Zhenyao, Niu Junfeng, Zhuang Lingping, He Tiande. Nanotoxicity of Engineered Nanomaterials in the Environment [J]. Progress in Chemistry, 2011, 23(8): 1769-1781.
[4] . Cobalt-based Catalyst for Selective Synthesis of Clean Liquid Fuel via Fischer-Tropsch Synthesis [J]. Progress in Chemistry, 2010, 22(10): 1911-1920.
[5] Shi Yumei Yao Nan Lu Chunshan Fan Yangbo Liu Huazhang Li Xiaonian*. Highly Dispersed Supported Co Catalysts for Fischer-Tropsch Synthesis [J]. Progress in Chemistry, 2009, 21(10): 2044-2052.
[6] Fa Wenjun|Zan Ling**|Gong Chuqing|Zhong Jiacheng. Solid-phase Photocatalytic Degradation of Plastic with TiO2 as Photocatalyst [J]. Progress in Chemistry, 2008, 20(01): 19-25.
[7] Wei Zhou*,Kegong Fang,Jiangang ,Chen,Yuhan Sun*. Effects of Water on Cobalt-Based Fischer-Tropsch Synthesis [J]. Progress in Chemistry, 2006, 18(01): 45-50.
[8] Gan Zhifeng,Jiang Jisen**. Preparation of Magnetic Monodisperse Nanoparticles and Biopolymer Assembly on the Magnetic Carriers [J]. Progress in Chemistry, 2005, 17(06): 978-986.
[9] Wu Baoshan,Tian Lei,Bai Liang,Zhang Zhixin,Xiang Hongwei**,Li Yongwang. R&D of Precipitated Iron Catalysts in Fischer-Tropsch Synthesis [J]. Progress in Chemistry, 2004, 16(02): 256-.