Comparison of membrane and conventional reactors under dry methane reforming conditions

被引:0
|
作者
A. V. Alexandrov
N. N. Gavrilova
V. R. Kislov
V. V. Skudin
机构
[1] Mendeleev University of Chemical Technology,
来源
Petroleum Chemistry | 2017年 / 57卷
关键词
membrane catalysts; tungsten carbides; dry reforming of methane; Knudsen transport; degree of internal surface utilization; equilibrium; rate constant; flow-through catalytic membrane reactor; conventional reactor;
D O I
暂无
中图分类号
学科分类号
摘要
A flow-through catalytic membrane reactor has been experimentally compared with a conventional fixed bed catalytic reactor by matching the specific rate constants in the reaction of dry reforming of methane. Crushed membrane and powdered catalysts with tungsten carbide as the active ingredient have been used as a reference in the conventional reactor. An increase in the reaction rate in the membrane reactor has been explained in terms of emerging Knudsen transport and also by the features of the membrane catalyst, which make it possible to force transport in the pore space of the catalytically active substance. It has been assumed that the “rarefaction” of the gases in the catalyst pores can be accompanied by a change in the equilibrium and a shift in the process toward the products of the direct reaction.
引用
收藏
页码:804 / 812
页数:8
相关论文
共 50 条
  • [21] Dry reforming of methane on porous membrane catalytic systems
    Tsodikov, M. V.
    Teplyakov, V. V.
    Fedotov, A. S.
    Kozitsyna, N. Yu.
    Bychkov, V. Yu.
    Korchak, V. N.
    Moiseev, I. I.
    RUSSIAN CHEMICAL BULLETIN, 2011, 60 (01) : 55 - 62
  • [22] On the applicability of membrane technology to the catalysed dry reforming of methane
    Ferreira-Aparicio, P
    Rodríguez-Ramos, I
    Guerrero-Ruiz, A
    APPLIED CATALYSIS A-GENERAL, 2002, 237 (1-2) : 239 - 252
  • [23] Dry reforming of methane on porous membrane catalytic systems
    M. V. Tsodikov
    V. V. Teplyakov
    A. S. Fedotov
    N. Yu. Kozitsyna
    V. Yu. Bychkov
    V. N. Korchak
    I. I. Moiseev
    Russian Chemical Bulletin, 2011, 60 : 55 - 62
  • [24] Modeling of the methane reforming reaction in hydrogen selective membrane reactors
    Prabhu, AK
    Liu, A
    Lovell, LG
    Oyama, ST
    JOURNAL OF MEMBRANE SCIENCE, 2000, 177 (1-2) : 83 - 95
  • [25] Comparison of fluidized bed flow regimes for steam methane reforming in membrane reactors: A simulation study
    Mahecha-Botero, Andres
    Chen, Zhongxiang
    Grace, John R.
    Elnashaie, S. S. E. H.
    Lim, C. Jim
    Rakib, Mohammad
    Yasuda, Isamu
    Shirasaki, Yoshinori
    CHEMICAL ENGINEERING SCIENCE, 2009, 64 (16) : 3598 - 3613
  • [26] Hydrogen production in steam reforming of glycerol by conventional and membrane reactors
    Lin, Kuo-Hsin
    Lin, Wen-Hsiung
    Hsiao, Chia-Hsing
    Chang, Hsin-Fu
    Chang, Alex C. -C.
    INTERNATIONAL JOURNAL OF HYDROGEN ENERGY, 2012, 37 (18) : 13770 - 13776
  • [27] Modelling and simulation in conventional fixed-bed and fixed-bed membrane reactors for the steam reforming of methane
    Silva, Jornandes Dias
    Moraes de Abreu, Cesar Augusto
    INTERNATIONAL JOURNAL OF HYDROGEN ENERGY, 2016, 41 (27) : 11660 - 11674
  • [28] Comparison of CFD simulations to experiment under methane steam reforming reacting conditions
    Behnam, Mohsen
    Dixon, Anthony G.
    Wright, Paul M.
    Nijemeisland, Michiel
    Stitt, E. Hugh
    CHEMICAL ENGINEERING JOURNAL, 2012, 207 : 690 - 700
  • [29] Beneficial effects of the use of a nickel membrane reactor for the dry reforming of methane: Comparison with thermodynamic predictions
    Haag, Stephane
    Burgard, Michel
    Ernst, Barbara
    JOURNAL OF CATALYSIS, 2007, 252 (02) : 190 - 204
  • [30] Kinetic Analysis of Dry Reforming of Methane on Traditional and Membrane Catalysts
    Gavrilova, N. N.
    Gubin, S. A.
    Myachina, M. A.
    Sapunov, V. N.
    Skudin, V. V.
    MEMBRANES AND MEMBRANE TECHNOLOGIES, 2023, 5 (06) : 440 - 453
12345