Methane combustion in hydrate systems: Water-methane and water-methane-isopropanol

被引:0
|
作者
V. E. Nakoryakov
S. Ya. Misyura
S. L. Elistratov
A. Yu. Manakov
A. A. Sizikov
机构
[1] Russian Academy of Sciences,Kutateladze Institute of Thermophysics, Siberian Branch
[2] Russian Academy of Sciences,Nikolaev Institute of Inorganic Chemistry, Siberian Branch
来源
Journal of Engineering Thermophysics | 2013年 / 22卷
关键词
Dissociation Rate; Engineer THERMOPHYSICS; Methane Combustion; Methane Hydrate; Hydrate Dissociation;
D O I
暂无
中图分类号
学科分类号
摘要
Kinetics of dissociation of synthetic and natural methane gas hydrates, and also double isopropanol-methane hydrate is investigated. Thermal fields of the sample surfaces are measured by means of thermal imaging in combustion of released methane with clathrate dissociation. The dissociation rates of natural hydrate and double hydrate with isopropanol are many times lower than those of synthetic methane hydrate. Methane combustion is accompanied by formation of a thin water film on the powder surface, which has a strong effect on the heat and mass transfer mechanisms. The experiments demonstrated partial self-preservation for methane hydrate and the absence of self-preservation for double isopropanol-methane hydrate. The experimentally observed dissociation rate of double isopropanol-methane hydrate is considerably lower than that of methane hydrate.
引用
收藏
页码:169 / 173
页数:4
相关论文
共 50 条
  • [1] Methane combustion in hydrate systems: Water-methane and water-methane-isopropanol
    Nakoryakov, V. E.
    Misyura, S. Ya
    Elistratov, S. L.
    Manakov, A. Yu
    Sizikov, A. A.
    [J]. JOURNAL OF ENGINEERING THERMOPHYSICS, 2013, 22 (03) : 169 - 173
  • [2] Methane hydrate nucleation on water-methane and water-decane boundaries
    Adamova, Tatiana P.
    Stoporev, Andrey S.
    Semenov, Anton P.
    Kidyarov, Boris I.
    Manakov, Andrey Yu.
    [J]. THERMOCHIMICA ACTA, 2018, 668 : 178 - 184
  • [3] Structure and stability of an amorphous water-methane mixture produced by cold compression of methane hydrate
    Tulk, C. A.
    Klug, D. D.
    Molaison, J. J.
    dos Santos, A. M.
    Pradhan, N.
    [J]. PHYSICAL REVIEW B, 2012, 86 (05)
  • [4] Empirical correlation for calculating the pure liquid water-methane hydrate-methane equilibrium pressure
    Madygulov, M. Sh.
    Vlasov, V. A.
    [J]. RESULTS IN ENGINEERING, 2022, 16
  • [5] CALCULATION OF WATER CONTENT IN WATER-METHANE SYSTEM
    Vonka, Petr
    Hubkova, Monika
    Meistr, Vit
    [J]. COLLECTION OF CZECHOSLOVAK CHEMICAL COMMUNICATIONS, 2010, 75 (03) : 257 - 274
  • [6] Effect of surface roughness on adsorption and distribution of methane at the water-methane interface
    Sujith, K. S.
    Ramachandran, C. N.
    [J]. JOURNAL OF MOLECULAR LIQUIDS, 2018, 266 : 856 - 863
  • [7] Effect of the water on the flame characteristics of methane hydrate combustion
    Cui, Gan
    Dong, Zengrui
    Wang, Shun
    Xing, Xiao
    Shan, Tianxiang
    Li, Zili
    [J]. APPLIED ENERGY, 2020, 259
  • [8] Resonance-Induced Reduction of Interfacial Tension of Water-Methane and Improvement of Methane Solubility in Water
    Pan, Zhiming
    Liu, Wenyu
    Yu, Leyang
    Xie, Zhiyang
    Sun, Qing
    Zhao, Peihe
    Chen, Dongmeng
    Fang, Wenjing
    Liu, Bing
    [J]. LANGMUIR, 2022, 38 (44) : 13594 - 13601
  • [9] Modeling of hydrodynamics of water-methane heterogeneous system
    Tsvetova, Elena A.
    [J]. 21ST INTERNATIONAL SYMPOSIUM ON ATMOSPHERIC AND OCEAN OPTICS: ATMOSPHERIC PHYSICS, 2015, 9680
  • [10] Heterogeneous Nucleation of Methane Hydrate in a Water–Decane–Methane Emulsion
    V. A. Shestakov
    V. I. Kosyakov
    A. Yu. Manakov
    A. S. Stoporev
    E. V. Grachev
    [J]. Russian Journal of Physical Chemistry A, 2018, 92 : 1293 - 1298
12345