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化学进展 1999, Vol. 11 Issue (01): 21- 前一篇   后一篇

• 综述与评论 •

甲烷催化氧化制含氧化合物的研究*

尹国川;奚祖威;曹国英   

  1. 中国科学院大连化学物理研究所 大连 116023
  • 收稿日期:1998-01-01 修回日期:1998-06-01 出版日期:1999-02-24 发布日期:1999-02-24
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Recent Development in Catalytic Oxidation of Methane to Oxygenates

Yin Guochuan;Xi Zuwei;Cao Guoying   

  1. Dalian Institute of Chemical Physics, Chinese Acadamy of Sciences,Dalian, 116023, China
  • Received:1998-01-01 Revised:1998-06-01 Online:1999-02-24 Published:1999-02-24

本文对甲烷催化氧化制含氧化合物的研究, 从多相催化和液相催化两个方面进行了综述; 对多相催化的研究从催化剂的选择、反应温度、反应压力、氧源、反应添加物、反应器及反应机理等方面进行了总结, 液相氧化的研究则对不同的研究体系进行了详细的综述。

关键词: 甲烷, 含氧化合物, 催化氧化

Emphasis is put on the recent development concerning the catalytic oxidation of methane to oxygenates by heterogeneous catalysis and liquid catalysis. For heterogeneous catalysis, the choice of catalysts, reaction temperature and pressure,oxygents, additives, reactors and reaction mechanism are summarized. Different research systems of liquid phase oxidation of methane are reviewed.

Key words: methane, oxygenates, catalytic oxidation

中图分类号: 

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[1 ] Pitchai R, Klier K, Catal. Rev.-Sci. Eng. , 1986, 28, 13—25.
[2 ] Garcia E Y, Loffleer D G, Rev. Latinoam. Ing. Quim. Quim. Apl. , 1986, 14, 267—271.
[3 ] Foster N R, Appl. Catalysis, 1985, 19, 1—11.
[4 ] Gesser H D, Hunter N R, Prakash C B, Chem. Rev. , 1985, 85, 235—244.
[5 ] Scurrell M S, Appl. Catalysis, 1987, 32, 1—22.
[6 ] Mimoun H, New Journalof Chemistry , 1987, 11, 513—517.
[7 ] DriscallD J , Lunsford J H, J. Phys. Chem. , 1983, 87, 301—303.
[8 ] Spencer N D, J. Catalysis, 1988, 109, 187—197.
[9 ] Spencer N D, Pereira C J , J. Catalysis, 1989, 116, 399—406.
[10 ] Keller G E, Bhasin M M , J. Catalysis, 1982, 73, 9—19.
[11 ] Hinsen W , Bytyn W , Baerns M , Proc. 8th Int. Cong. Catal. , 3, Verlag Chemie, Weinheim, 1984,581—582.
[12 ] Asami K, Chem. Lett. , 1986, 1233—1236.
[13 ] Jones C A , Leonard J J , Sofranko J A , US 4 443 644, 4 443 645, 4 443 647, 443 648, 1984 ; US 4448 322, 4 499 323, 1985.
[14 ] Jones C A , Leonard J J , Sofranko J A , Energyand Fuels, 1987, 1, 2—13.
[15 ] 沈守仓(Sheng S C) , 卢冠忠(Lu G Z) , 于晓东(Yu X D) 等, 天然气化工(Natural Gas Chem. Eng. ) ,1993, 18 (2) , 19- 22.
[16 ] 黄仲涛(Huang Z T ) , 罗儒显(Luo R X) , 天然气化工(Natural Gas Chem. Eng. ) , 1993, 18 (3) ,3- 9.
[17 ] YaMarglis L , A d v. Catal. , 1963, 14, 429—438.
[18 ] Naito S, Kuroda H,in 1984 International Chemical Congress of Pacific Basin Societies, Honolulu,Hawaii, 1984, Paperno. 03G15.
[19 ] Bauerle L , Lott J L , Sliepcevich C M , J. Fire Flammability , 1974, 5, 190—201.
[20 ] Yarlagadda P S, Morton L A , Hunter N R, Gesser H D, Ind. Eng. Chem. Res. , 1988, 27, 252—253.
[21 ] Burch R, Squire G D, Tsang S C , J. Chem. Soc. , Faraday Trans. I , 1989, 85, 3561—3568.
[22 ] 周建略(Zhou J L ) , 何力敏(He L M ) , 潘桂黄(Pan G H ) 等, 天然气化工(Natural Gas Chem.Eng. ) , 1993, 18 (5) , 3- 8.
[23 ] Lance D, Elworthy E G, French Pat. 352 678, 1905.
[24 ] Khan M M , Somorjai G A , J. Catal. , 1985, 91, 263—270.
[25 ] Liu R S, Iwamoto M , Lunsford J H, J. Chem. Soc. , Chem. Commun. , 1982, 78—79.
[26 ] Liu H F, Liu R S, Liew K Y, Johnson R E, Lunsford J H, J. Am. Chem. Soc. , 1984, 106, 4117—4121.
[27 ] Cullis C F, Keene D E, Trimm D L , J. Catal. , 1970, 19, 378—385.
[28 ] Mann R S, DosiM K, J. Chem. Technol. Biotechnol. , 1979, 29, 467—475.
[29 ] Hunter N R, Gesser H D, Morton L A , Yarlagadda P S, Fung D P C, Proc. V I I Int. Symp. Alc.Fuel Technol. , Paris, 1986, 20- 23, 620—621.
[30 ] Hunter N R, Gesser H D, Morton L A , Fung D P C, Proc. 35th Can. Chem. Eng. Conf . , Calgary,1985, 254—256.
[31 ] Hunter N R, Gesser H D, Morton L A , Yarlagadda P S, Fung D P C, Appl. Catal. , 1981, 29,1—9.
[32 ] Burch R, Chappell R J , Golunski S E, J. Chem. Soc. , Faraday Tran. I , 1989, 85 (10) , 3569—3578.
[33 ] Anderson J R, Tsai P, J. Chem. Soc. , Chem. Commun. , 1987, 1435—1436.
[34 ] Ogura K, Migita C T , Fujita M , Ind. Eng. Chem. Res. , 1988, 27, 1381—1382.
[35 ] Ogura K, Kataoka M , J. Mol. Catal. , 1988, 43, 371—379.
[36 ] Migita C T , Chaki S, Ogura K, J. Phys. Chem. , 1989, 93, 6368—6370.
[37 ] Ogura K, Migita C T , Yamada T , J. Photochem. Photobiol. , 1990, 52, 241—248.
[38 ] 黄仲涛(Huang Z T ) , 罗儒显(Luo R X) , 天然气化工(Natural Gas Chem. Eng. ) , 1993, 18 (3) ,3- 9.
[39 ] Hund C R F, Catal. Lett. , 1992, 12, 395—404.
[40 ] Brown M J , Parkyns N D, Catalysis Today , 1991, 8, 305—335.
[41 ] Keller G E, Bhasin M M , J. Catal. , 1982, 73, 9—19.
[42 ] Dowden D A , Schnell C R, Walker G T , Hightower J , Reprints of Papers for the 4th International Congresson Catalysis, The Catalysis Society , Houston, 1988, 1120.
[43 ] Dowden D A , Walker G T , U K 1 244 001, 1971.
[44 ] Yang J , Lunsford J H, J. Catal. , 1987, 103, 55—64.
[45 ] 沈润南(Shen R N ) , 李树本(Li S B) , 尉迟力(Wei C L ) , 马清泉(Ma Q Q ) , 催化学报(J. Catal. ) ,1997, 18 (3) , 238- 242.
[46 ] Olah G A , Acc. Chem. Res. , 1987, 20, 422—428.
[47 ] Olah G A , Hartz N , Rasul G, Prakash G K S, J. Am. Chem. Soc. , 1995, 117, 1336—1343.
[48 ] Geletii Y V , Shilov A E, Kinet. Katal. , 1983, 24, 413—419.
[49 ] Luinstra G , Wang L , Stahl S S, Labinger J A , Bercaw J E, J. Organomet. Chem. , 1995, 504,75—91.
[50 ] Stahl S S, Labinger J A , Bercaw J E, J. Am. Chem. Soc. , 1996, 118, 5961—5976.
[51 ] Holtcamp M W , Labinger J A , Bercaw J E, J. Am. Chem. Soc. , 1997, 119, 848—852.
[52 ] Kao L C, Hutson A C, Sen A , J. Am. Chem. Soc. , 1991, 113, 700—701.
[53 ] Lin M , Sen A , J. Am. Chem. Soc. , 1992, 114, 7307—7308.
[54 ] Vargaftik M N , Stolarov I P, Moiseev I I, J. Chem. Soc. , Chem. Commun. , 1990, 1049—1050.
[55 ] Periana R A , Taube D J , Evitt E Retal. , Science, 1993, 259 (15) , 340—343.
[56 ] Horsley J A , Vanderveken D J , Periana R A , Catal. Today , 1995, 23, 333—339.
[57 ] Xi Zuwei, Cao Guoying, Yin Guochuan,in International Symposiumon Organo-Metallic Chemistryand Catalysis, Fuzhou, 1996.
[58 ] 尹国川(Yin G C) , 奚祖威(Xi ZW ) , 曹国英(Cao G Y) , 催化学报(J. Catal. ) , 1997, 18 (5) , 402—405.
[59 ] Yamanaka I, Soma M , Otsuka K, J. Chem. Soc. , Chem. Commun. , 1995, 2235—2236.
[60 ] Yamanaka I, Soma M , Otsuka K, Chem. Lett. , 1996, 565—566.
[61 ] Nishiguchi T , Nakata K, Takaki K, Fujiwara Y, Chem. Lett. , 1992, 1141—1142.
[62 ] Nakata K, Yamaoka Y, Miyata T , Taniguchi Y, Takaki K, Fujiwara Y, J. Organometal. Chem. ,1994, 473, 329—334.
[63 ] Lin M , Sen A , J. Am. Chem. Soc. , 1992, 892—894.
[64 ] Lin M , Sen A , Nature, 1994, 368 (14) , 613—615.
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