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Progress in Chemistry 2004, Vol. 16 Issue (02): 291- Previous Articles   Next Articles

• Review •

The Applications of Molecular Simulation Technology in the Fields of Petroleum

Cao Bin*;Gao Jinsen;Xu Chunming   

  1. (State Key Laboratory of Heavy Oil Processing, University of Petroleum, Beijing 102249, China)
  • Received: Revised: Online: Published:
  • Contact: Cao Bin
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Molecular simulation as a promising technology of computational chemistry has been rapidly developed in recent years. It has been proven to be a useful tool in the fields of material design and structural construction. The re-markable developments make it possible to apply this technology in wide ranges, which are relative to the petroleum such as oilfield chemistry, catalyst preparation, macromolecular design, chemical engineering and heavy oil characterization.
Key words: molecular simulation, oilfield chemistry, catalyst preparation, macromolecular design, chemical engineering, heavy oil characterization

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[ 1 ] Leach A R. Molecular Modeling : Principle and Application. London : Addison Wesley Longman Limited , 1996
[ 2 ] Frenkel D , Smit B. Understanding Molecular Simulation : from Al-gorithms to Applications. San Diego : Academic Press , 1996
[ 3 ] 俞庆森, 朱龙观. 分子设计导论. 北京: 高等教育出版社,2000
[ 4 ] 唐敖庆, 扬忠志, 李前树. 量子化学. 北京: 科学出版社,1982
[ 5 ] 王志中, 李向东. 半经验分子轨道理论与实践. 北京: 科学出版社, 1981 : 16 —24
[ 6 ] 徐昕(Xu X) , 王南钦(Wang N Q) , 吕鑫(Lv X) 等. 化学进展(Progress in Chemistry) , 1996 , 8 (1) : 30 —42
[ 7 ] 杨频(Yang P) , 张士国( Zhang S G) . 化学通报(Chem.Bull . ) , 1990 , (6) :1 —5
[ 8 ] Gubbins K E , A Z. Chemical Engineering Progress , 1989 , (10) :23 —27
[ 9 ] 冯玉军(Feng Y J ) . 油田化学(Oilfield Chemistry) , 1998 , 15(1) : 70 —75
[10] Delvill A , Sokolowski S. J . Phys. Chem. , 1993 , 97 : 6261 —6271
[11] Delvill A. J . Phys. Chem. , 1993 , 97 : 9703 —9712
[12] Karaborni S. Science , 1996 , 271 (23) : 1102 —1105
[13] Parker S C , Titiloye J O. Phil . Trans. Royal Soc. , 1993 , A334 :37 —48
[14] Karaborni S , Connell J P. J . Phys. Chem. , 1990 , 94 : 2624 —2631
[15] Larson R G, Seriven L E. J . Phys. Chem. , 1985 , 89 : 2411 —2420
[16] Gunn J R , Dawson K A. J . Phys. Chem. , 1992 , 96 : 3152 —3165
[17] Sorbie K S , Clifford P J . Chem. Eng. Sci . , 1991 , 46 : 2525 —2542
[18] Meyer M, Mareschal M. J . Phys. Chem. , 1988 , 92 : 1067 —1073
[19] Siam K S , Gdanski R D. Oils & Gas , 1991 , 8 : 54 —56
[20] 罗平亚(Luo P Y) . 石油高等教育(Petroleum Advanced Education) , 1997 , 2 : 1 —9
[21] 黄遵南(Huang Z N) , 廖代伟(Liao D W) , 张鸿斌(Zhang H B) 等. 计算机与应用化学(Computers and Applied Chemistry) , 1997 , 14 (1) : 12 —16
[22] 李永旺(Li Y W) , 马文平(Ma W P) , 孙予罕(Sun Y H)等. 化学学报(Acta Chimica Sinica) , 1998 , 49 (5) : 9 —16
[23] Horst J H , Bromley S T, Rosmalen GM, et al . Microporous and Mesoporous Materials , 2002 , 53 (1P3) : 45 —57
[24] Mllini R. The Catalytic Behavior of Zeolites in Cumene Synthesis.Cambridge : MSI Application Index , 1997
[25] Santos J M, Formiga A B , Figueroa-Villar J D. Journal of Molecu lar Structure , 2002 , 608 (2/3) : 143 —149
[26] Kachurovskaya N A , Mikheeva E P , Zhidomirov G M. Journal of Molecular Catalysis A: Chemical , 2002 , 178 (1/2) : 191 —198
[27] Waghmode S B , Bharathi P , Sivasanker S , et al . Microporous and Mesoporous Materials. 2000 , 38 (2/3) : 433 —443
[28] Broadbelt L J , Snurr R Q. Applied Catalysis A. 2000 , 200 (1/2) : 23 —46
[29] Dagade S P , Waghmode SB , Kadam V S , et al . Applied Catalysis A: General . 2002 , 226 (1/2) : 49 —61
[30] Aijun D , John A , Dalai A K. Symposiumof the 224th ACSMeeting , Boston , America , 2002
[31] Aijun D. Petroleum Science , 2002 , 5 (1) : 44 —48
[32] Davies G M, Seaton N A. AIChEJournal , 2000 , 46 (9) : 1753 —1768
[33] 张金利(Zhang J L) , 武传杰(Wu C J ) , 王一平(Wang Y P)等. 化工进展(Chemical Industry and Engineering Progress) ,2002 , 21 (4) : 239 —242
[34] De La Rosa A , HeuxL , Cavaillé K J Y. Polymer , 2002 , 43 (21) :5665 —5677
[35] Gavalda S , Kaneko K, Thomson K T, et al . Colloids and Surfaces A , 2001 , 187/188 : 531 —538
[36] Myerson A S. Molecular Modelling Applications in Crystallization.Cambridge University Press , 1999
[37] Windle A H , Hanna S. Polymer ,1988 ,29 :207
[38] Madkour T. Ph D Thesis in Chemistry , University of Cincinnati .1993
[39] Horst J H , Kramer H J , Rosmalen G M, et al . Journal of Crystal Growth , 2002 , 237/239 (3) : 2215 —2220
[40] Tanaka M, Yamamoto R. Computer Aided Innovation of New Materials Ⅱ. Amsterdam:Elsevier , 1993
[41] Heuchel M, Hofmann D. Desalination. 2002 , 144 (1/3) : 67 —72
[42] Tocci E , Hofmann D , Paul D , et al . Polymer , 2001 , 42 (2) :521 —533
[43] Subramanian P S. Macromolecular Reports , 1995 , 32 ( suppls.5&6) : 717
[44] Patnaik S S , Pachter R. Polymer , 2002 , 43 (2) : 415 —424
[45] Gestoso P , Brisson J . Computational and Theoretical Polymer Science , 2001 , 11 (4) : 263 —271
[46] Ennari J , Neelov I , Sundholm F. Polymer , 2001 , 42 ( 19) :8043 —8050
[47] Duca J S , Hopfinger A J . Computational and Theoretical Polymer Science , 1999 , 9 (3/4) : 227 —244
[48] Ahjopalo L , Lêfgren B , Hakala K, et al . European Polymer Journal , 1999 , 35 (8) : 1519 —1528
[49] 杨友麒(Yang Y L) . 化工进展(Chemical Industry and Engineering Progress) , 1996 , (3) : 1 —7
[50] 李以圭(Li Y G) , 刘今晨(Liu J C) . 现代化工(Modern Chemical Industry) . 2001 , 21 (7) : 10 —13
[51] 吕家桢(Lv J Z) , 陆小华(Lu X H) , 周健(Zhou J ) 等. 化工学报(Journal of Chemical Industry and Engineering) , 1998 ,49 (增刊) : 65 —70
[52] De Pablo J J , Escobedo F A. AIChE Journal , 2002 , 48 (12) :2716 —2721
[53] Huang S H ,Radosz M. Ind. Eng. Chem. Res. , 1990 , 29 (11) :2284 —2294
[54] Liu H L , Hu Y. Fluid Phase Equilbria , 1996 , 122 : 75 —97
[55] Duh D M, Mier Y, Teran L. Mol . Phys. , 1997 , 90 (3) : 373 —379
[56] Kraska L , Nezbeda I. Fluid Phase Equilibria , 1994 ,100 :1 —34
[57] 胡英(Hu Y) , 刘洪来(Liu H L) . 化学进展( Progress in Chemistry) , 1995 , 7 (3) : 235 —249
[58] Kraska T, Gubbins K E. Ind. Eng. Chem. Res. , 1996 , 35(12) : 4727 —4737
[59] Liu Z P , Li Y G, Chan K Y. Ind. Eng. Chem. Res. , 2001 , 40(3) : 973 —979
[60] Liu Z P , Li Y G, Lu J F. Fluid Phase Equilibria , 2000 , 173 :189 —209
[61] Liu W B , Liu Z P , Li Y G, et al . Fluid Phase Equilibria , 2001 ,178 : 45 —71
[62] Myerson A S. Molecular Modeling Applications in Crystallization.New York :Cambridge University Press , 1999
[63] Waghmode S B , Bharathi P , Sivasanker S , et al . Materials ,2000 , 38 (2/3) : 433 —443
[64] Alejandre A , Tildesley D J , Chapela G A. Molecular Physics ,1996 , 85 (3) : 651 —663
[65] Smit B , Schlijper A G, Rupert L M, et al . J . Phys. Chem. ,1990 , 94 (18) : 6933 —6935
[66] Lee M, Chan K Y. Nicholson K, et al . Chem. Phys. Lett . ,1999 , 307 : 89 —94
[67] 曹达鹏(Cao D P) , 高广图( Gao G T) , 汪文川(Wang W C) . 化工学报(Journal of Chemical Industry and Engineering) ,2000 , 51 (1) : 23 —29
[68] Liu H Q , Silva C M, Macedo E A , et al . Chem. Eng. Sci . ,1998 , 53 (13) : 2403 —3422
[69] Yu Y X, Gao G H. Fluid Phase Equilibria , 1999 , 166 :111 —124
[70] Zhou J , Lu X H , Wang Y R , et al . Fluid Phase Equilibria ,2000 , 172 : 279 —291
[71] Xiao J , Lu J F , Chen J , et al . Chin. Phys. Lett . , 2001 , 18(7) : 847 —849
[72] Zhao S Q , Yang G H , Wang R A. Journal of Supercritical Fluid ,1995 , (8) : 15
[73] 高金森(Gao J S) , 徐春明(Xu C M) . 化工学报(Journal of Chemical Industry and Engineering) , 2003 , 54 (1) : 9 —13
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