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Progress in Chemistry 2003, Vol. 15 Issue (02): 141- Previous Articles   Next Articles

• Review •

Study on the Production of Hydrogen from Methane

Xu Shan;Wang Xiaolai*;Zhao Rui   

  1. (State Key Laboratory of Oxo Synthesis and Selective Oxidation, Lanzhou Institute of Chemical Physics,The Chinese Academy of Sciences, Lanzhou 730000, China)
  • Received: Revised: Online: Published:
  • Contact: Wang Xiaolai
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The developing trends and preparation technology of producing hydrogen from methane are introduced. The characteristics of conversion processes and sorts of reactor are discussed. The focus is on analyzing reaction condition, catalytic properties and methods of settling soot.
Key words: methane, hydrogen, syngas, CH-4 reforming, CH4 decomposition catalyst

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[ 1 ] 王艳辉(Wang Y H) , 吴迪镛(Wu D Y) , 迟建(Chi J ). 化工进展(Chemical Industry and Engineering Progress ) ,2001, 1: 6
[ 2 ] 粟源材(Li Y C) , 刘树人(Liu S R) , 唐廷川(Tang T C).天然气工业(Natural Gas Industry) , 1992, 20 (2) : 25
[ 3 ] Hermans L A M , Geus J W. P roc. 2nd Int. Symp. on Heterogeneous Catal. , Elsevier, 1979. 113
[ 4 ] Arena F, Frustri F, Parmaliana A. J. Chem. Soc. , Faraday Trans. , 1998, 94: 3385
[ 5 ] Vermeiren W J M , Blom sma E, et al. Catal. Today,1992, 13: 427
[ 6 ] Takehira K, Hayakawa T, et al. Catal. Today, 1995, 24:237
[ 7 ] Hayakawa T, Anderson A G, et al. Catal. Lett. , 1993,22: 307
[ 8 ] 曹立新(Cao L X) , 李燕馨(Li Y X) , 李文钊(Li W Z). 分子催化(J. Mol. Catal. (China) ) , 1994, 8 (5) : 375
[ 9 ] Choudhary V R, Rajput A M , Rane V H. Catal. Lett. ,1993, 22: 289
[ 10 ] Aschcroft A T, Cheetham A K, et al. Nature, 1990, 344:319
[ 11 ] Vernon P D F, Green M L H, et al. Catal. Lett. , 1990,6: 181
[ 12 ] Buyevkaya O V , Walter K, Wolf D. Catal. Lett. , 1996,38: 81
[ 13 ] Bhattacharya A K, Breach J A , et al. Appl. Catal. ,1992, 80: 1
[ 14 ] Bhattacharya A K. International PatentWO 93/01130
[ 15 ] Slagterm A , Olsbye U. Appl. Catal. A , 1994, 99: 110
[ 16 ] Hickman D A , Schmidt L D. AIChE J. , 1993, 39 ( 7) :1164
[ 17 ] Kunimori K, Umeda S, et al. Chem. Soc. Jpn. , 1992,65: 2562
[ 18 ] Kikuchi E, Tanaka S, Yamazaki Y. Bull. Jpn. Petrol. Inst. , 1974, 16: 95
[ 19 ] Matsumura Y, Moffat J B. Catal. Lett. , 1994, 24: 59
[ 20 ] Buyevskaya O V , Wolf D, Baerns M. Catal. Lett. , 1994,29: 249
[ 21 ] Basini L , Aragno A , Vlaic G. Catal. Lett. , 1996, 39: 49
[ 22 ] Hickman D A , Schmidt L D. Science, 1993, 259: 343
[ 23 ] 李文英(Li W Y) , 冯杰(Feng J ). 燃料化学学报(Journal of Fuel Chemistry and Technology) , 1997, 25 (5) : 460
[ 24 ] Torniainen P, Chu X, Schmidt L D. J. Catal. , 1994,146: 1
[ 25 ] Ranorson E, Tempere J F, et al. J. Chem. Soc. , 1992,88 (8) : 1211
[ 26 ] 金荣超(Jin R C) , 陈燕馨(Chen Y X) 等. 物理化学学报(Acta Phys. -Chim. Sin. ) , 1998, 14 (8) : 737
[ 27 ] 刘光明(Liu G M ) 等. 燃料化学学报( Journal of Fuel Chemistry and Technology) , 1988, 16 (3) : 253
[ 28 ] 严前古(Yan Q G). 博士学位论文(Doctoral Dissertation).长春应化所(Chongchun Institute of Applied Chemistry) ,1998
[ 29 ] 戚蕴石编著. 固体催化剂设计. 华东理工大学出版社,1994. 106
[ 30 ] Bradford M C J , Vannice M A. Appl. Catal. , 1996, 142:73
[ 31 ] Choudhary V P, Uphade B S. J. Catal. , 1997, 172: 281
[ 32 ] 刘光明(Liu G M ) , 邱发礼(Qiu F L ) , 郭慎独(Guo S D).催化学报(Chin. J. Catal. ) , 1990, 11 (1) : 45
[ 33 ] Bhat R N , Sachtler W M H. App l. Catal. , 1997, 150:279
[ 34 ] Goula M A , Lemonidou A A , Efstathion A M. J. Catal. ,1996, 161: 626
[ 35 ] Satterfield C N. Heterogeneous Catalysis in Industrial Practice. New York: McGraw-Hill, 1991
[ 36 ] Bharadwaj S S, Schmidt L D. Fuel Process. Technol. ,1995, 42: 109
[ 37 ] Baade W F, Snyder G D, Abrardo J M. Hydrocarbon Processing, 1993, 72: 77
[ 38 ] Pe~na M A , Go′mez J P, Fierro J L G. Appl. Catal. A:Gerneral, 1996, 144
[ 39 ] Parettre M , Eichnr C, Perrintrans M. Faraday Soc. ,1946, 43: 335
[ 40 ] Blanks R E, Witrig T S, Peterson D A. Chem. Eng.Sci. , 1990, 45: 2407
[ 41 ] Ashcroft A T, Cheetham A K, Green M L H. Nature,1991, 352: 225
[ 42 ] Vernon P D F, Green L H, Cheethamand A K, et al.Catal. Today, 1992, 13: 417
[ 43 ] Korchnak J D, Dunster M A. WO 90/06282, PCT/U S89/05369
[ 44 ] Zwinkels M F M , J aras S G, Menon P G. Catal. Rev. Sci.Eng. , 1993, 35: 319
[ 45 ] Hickman D A , Schmidt L D. J. Catal. , 1992, 138: 267
[ 46 ] Bharadwaj S S, Schmidt L D. J. Catal. , 1994, 146: 11
[ 47 ] Brophy J H, Weinberg F J. WO85/04647, PCT/GB85/00141
[ 48 ] Brophy J H, Telford C D. WO 85/05094, PCT/GB85/00186
[ 49 ] Bharadwaj S S, Schmidt L D. J. Catal. , 1994, 146: 11
[ 50 ] Freni S, Calogero G, Cavallaro S. Journal of Power Sources, 2000, 87: 28
[ 51 ] Christensen T S, Primdah l I I. Hydrocarbon Process,1994, 73: 39
[ 52 ] Cavallaro S, Freni S. Journal of Power Sources, 1998, 76:190
[ 53 ] Wilhelm D J , Simbeck D R, Karp A D, et al. Fuel Processing Technology, 2001, 71: 139
[ 54 ] Grace J R, Li X T, Lim J. Catalysis Today, 2001, 64:141
[ 55 ] Adris A M , Lim C J , Grace J R. Chem. Eng. Sci. , 1994,49: 5833
[ 56 ] Poy S. Doctoral Dissertation. University of Calgary, Alta. , 1998
[ 57 ] Buxbaum R E, Kinney A B. Ind. Eng. Chem. Res. ,1996, 5: 530
[ 58 ] Ostrowski T, Giroir-Fendler A , Mirodatos C, et al.Catalysis Today, 1998, 40: 191
[ 59 ] Balachandrand U , Dusek J T, Mieville R L , et al. Appl.Catal. A: General, 1995, 133: 19
[ 60 ] Tsai C Y, Dixon A G, Moser W R, et al. AIChE J. ,1997, 43 (11) : 2741
[ 61 ] Jin W , Li S, Huang P, et al. J. Membr. Sci. Bull. ,2000, 166 (1) : 13
[ 62 ] Dong H, Xiong G, Shao Z, et al. Chin. Sci. Bull. , 2000,45 (3) : 224
[ 63 ] Rostrup-Nielsen J R. Catal. Sci. Techno l. , 1984, 5: 1
[ 64 ] Alzamora L E, Ross J R H, Kruissink E C. J. Chem.Soc. , Faraday Trans. , 1981, 177: 665
[ 65 ] Otsuka K, Mito A , Takenaka S, et al. International Journal of Hydrogen Energy, 2001, 26: 191
[ 66 ] Aiello R, Fiscus J E, zur Loge H C, Amiridis M D. Applied Catalysis A: General, 2000, 192: 227
[ 67 ] Muradov N. International Journal of Hydrogen Energy,2001, 26: 1165
[ 68 ] Monnerat B, Kiwi-Minsker L , Renken A. Chemical Engineering Science, 2001, 56: 633
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