Water-Shift Reaction in the Intertubular Space of a Reactor for Steam Reforming of Natural Gas

被引:0
|
作者
M. Kh. Sosna
N. S. Evenchik
A. V. Sirotin
机构
[1] Russian State Scientific Center,Karpov Institute of Physical Chemistry
来源
Theoretical Foundations of Chemical Engineering | 2003年 / 37卷
关键词
Methane; Dust; Mathematical Modeling; Steam; Metal Surface;
D O I
暂无
中图分类号
学科分类号
摘要
An analysis is undertaken to study the experimentally established fact that, in the intertubular space of a reactor for steam reforming of methane, there is a water-shift reaction. A physical model is proposed to explain the possibility of the catalytic reaction in the absence of a specially prepared catalytic surface. It is assumed that there are two catalytic layers, one of which is formed by catalyst dust escaping from the previous stage of the process (from the shaft reactor) and the other of which is produced by the interaction of the reaction mixture with the metal surface of tubes and casings. By mathematical modeling, the thickness of the produced catalytically active metal layer is determined.
引用
收藏
页码:378 / 381
页数:3
相关论文
共 50 条
  • [1] Water-shift reaction in the intertubular space of a reactor for steam reforming of natural gas
    Sosna, MK
    Evenchik, NS
    Sirotin, AV
    THEORETICAL FOUNDATIONS OF CHEMICAL ENGINEERING, 2003, 37 (04) : 378 - 381
  • [2] A catalytic hollow fibre membrane reactor for combined steam methane reforming and water gas shift reaction
    Gil, Ana Gouveia
    Wu, Zhentao
    Chadwick, David
    Li, K.
    CHEMICAL ENGINEERING SCIENCE, 2015, 137 : 364 - 372
  • [3] Hydrogen production in reverse tesla valve reactor combining ethanol steam reforming and water gas shift reaction
    Chen, Wei-Hsin
    Zhong, Meng-Hong
    Nguyen, Thanh-Binh
    Sharma, Amit Kumar
    Li, Chung-Gang
    ENERGY, 2025, 318
  • [4] Double bed reactor for the simultaneous steam reforming of ethanol and water gas shift reactions
    Batista, Marcelo S.
    Assaf, Elisabete M.
    Assaf, Jose M.
    Ticianelli, Edson A.
    INTERNATIONAL JOURNAL OF HYDROGEN ENERGY, 2006, 31 (09) : 1204 - 1209
  • [5] Hydrogen production and geometry optimization of ethanol steam reforming combining water gas shift reaction in a crossflow membrane tube reactor
    Chen, Wei-Hsin
    Chou, Wei-Shan
    Rajendran, Saravanan
    Hsu, Sheng-Yen
    Ghorbani, Mohammad
    INTERNATIONAL JOURNAL OF HYDROGEN ENERGY, 2024, 51 : 637 - 653
  • [6] Design and optimization of a crossflow tube reactor system for hydrogen production by combining ethanol steam reforming and water gas shift reaction
    Chen W.-H.
    Lu C.-Y.
    Chou W.-S.
    Kumar Sharma A.
    Saravanakumar A.
    Tran K.-Q.
    Fuel, 2023, 334
  • [7] Growing hydrogen production by merging the glycerol steam reforming and water gas shift reactions into a single reactor
    Gaire, Anmesh
    Stagg-Williams, Susan
    Depcik, Christopher
    CHEMICAL ENGINEERING COMMUNICATIONS, 2024, 211 (05) : 707 - 724
  • [8] REACTOR FOR STEAM OXYGEN-FREE NATURAL-GAS REFORMING
    DUBININ, AM
    BASKAKOV, AP
    KARELIN, VG
    PANOV, OM
    CHOINZONOV, BL
    STEEL IN THE USSR, 1984, 14 (01): : 49 - 51
  • [9] Dimethyl ether reforming in a mesoporous γ-alumina membrane reactor combined with a water gas shift reaction
    Park, Sang-Jun
    Lee, Dong-Wook
    Yu, Chang-Yeol
    Lee, Kwan-Young
    Lee, Kew-Ho
    INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH, 2008, 47 (05) : 1416 - 1420
  • [10] Membrane reactor for water gas shift reaction
    Basile, A
    Criscuoli, A
    Santella, F
    Drioli, E
    GAS SEPARATION & PURIFICATION, 1996, 10 (04): : 243 - 254
12345