THEORETICAL STUDY OF DECOMPOSITION OF METHANE IN ITS MIXTURE WITH HYDROGEN DURING FLOW IN A CYLINDRICAL REACTOR.

被引:0
|
作者
Orechkina, N.B.
Tomashevskaya, G.M.
Fridman, I.V.
机构
来源
Journal of applied chemistry of the USSR | 1987年 / 60卷 / 7 pt 1期
关键词
CARBON - Concentration - CHEMICAL EQUIPMENT - Reactors - CHEMICAL REACTIONS - Reaction Kinetics - MATHEMATICAL TECHNIQUES - Differential Equations;
D O I
暂无
中图分类号
学科分类号
摘要
The authors report a theoretical study of the production of carbon during the decomposition of methane in mixtures with hydrogen under conditions of flow of these mixtures through a cylindrical reactor with a given temperature gradient. To obtain the numerical solution of a system of differential equation of chemical kinetics, we used the Rosenbrock method, which excludes iteration and inversion of matrices of a substep. It is found that the active formation of the carbon begins at temperatures of 1750-1950 degree K and rapidly reaches maximum values. Increase in the content of solid carbon can be attained by lowering the initial flow rate, which is equivalent to increase in the residence time in the reactor. However, even at the maximum residence time, corresponding to the real process, the equilibrium value is not achieved.
引用
收藏
页码:1447 / 1450
相关论文
共 50 条
  • [41] Formation of soot during the thermal decomposition of a methane/ carbon tetrachloride mixture
    Tesner, P.A.
    Rafal'kas, I.S.
    Shurupov, S.V.
    Kinetics and Catalysis, 1988, 29 (3 pt 2) : 629 - 631
  • [42] Theoretical and Experimental Study of Chemical Transformations of a Methane–Hydrogen–Coal Particles Mixture in a Rapid-Compression Machine
    Fedorov A.V.
    Tropin D.A.
    Penyazkov O.G.
    Leshchevich V.V.
    Shimchenko S.Y.
    Journal of Engineering Physics and Thermophysics, 2017, 90 (4) : 781 - 788
  • [43] Hydrogen production by methane decomposition on Pt/ γ-alumina doped with neodymium catalysts and its kinetic study
    Caballero, M.
    Del Angel, G.
    Rangel-Vazquez, I.
    Huerta, L.
    CATALYSIS TODAY, 2020, 349 (349) : 106 - 116
  • [44] Preparation of hydrogen and carbon nanotubes via methane decomposition in fluidized-bed reactor
    Liu, Tang
    Qian, Weizhong
    Wang, Zhanwen
    Wei, Fei
    Jin, Yong
    Li, Juncheng
    Li, Yongdan
    Huagong Xuebao/Journal of Chemical Industry and Engineering (China), 2003, 54 (11): : 1614 - 1618
  • [45] Production of hydrogen from thermo-catalytic decomposition of methane in a fluidized bed reactor
    Ammendola, P.
    Chirone, R.
    Ruoppolo, G.
    Russo, G.
    CHEMICAL ENGINEERING JOURNAL, 2009, 154 (1-3) : 287 - 294
  • [46] Hydrogen Production from Methane Decomposition Using a Mobile and Elongating Arc Plasma Reactor
    Mahsa Kheirollahivash
    Fariborz Rashidi
    Mohammad Mahdi Moshrefi
    Plasma Chemistry and Plasma Processing, 2019, 39 : 445 - 459
  • [47] Hydrogen Production from Methane Decomposition Using a Mobile and Elongating Arc Plasma Reactor
    Kheirollahivash, Mahsa
    Rashidi, Fariborz
    Moshrefi, Mohammad Mahdi
    PLASMA CHEMISTRY AND PLASMA PROCESSING, 2019, 39 (02) : 445 - 459
  • [48] A comprehensive review of the methane decomposition using a gliding arc discharge reactor for hydrogen generation
    Khan, Atif
    Rashid, Muhammad
    Rehman, Abdul
    Saleem, Faisal
    Naqvi, Salman Raza
    Afzal, Shabana
    Qazi, Umair Y.
    Ahmad, Waqar
    Butt, Iftikhar Nisar
    Mahmood, Khalid
    JOURNAL OF THE ENERGY INSTITUTE, 2023, 109
  • [49] Rates of methane decomposition and hydrogen permeation in catalytic-permeable Ni tube reactor
    Fukada, Satoshi
    Ono, Shigeki
    Suemori, Shigenori
    FUSION SCIENCE AND TECHNOLOGY, 2006, 50 (01) : 99 - 106
  • [50] The influence of hydrogen and methane on the growth of carbon particles during acetylene pyrolysis in a burnt-gas flow reactor
    Peukert, S.
    Sallom, A.
    Emelianov, A.
    Endres, T.
    Fikri, M.
    Boehm, H.
    Jander, H.
    Eremin, A.
    Schulz, C.
    PROCEEDINGS OF THE COMBUSTION INSTITUTE, 2019, 37 (01) : 1125 - 1132
12345