Journal of Applied Mathematics and Mechanics (about journal) Journal of Applied
Mathematics and Mechanics

Russian Academy of Sciences
 Founded
in January 1936
(Translated from 1958)
Issued 6 times a year
ISSN 0021-8928
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IssuesArchive of Issues2016-5pp.391-399

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Total articles in the database: 10512
In Russian (ΟΜΜ): 9713
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M.K. Khasanov, "Injection of boiling liquid carbon dioxide into a stratum, accompanied by replacement of methane in hydrate by carbon dioxide," J. Appl. Math. Mech. 80 (5), 391-399 (2016)
Year 2016 Volume 80 Issue 5 Pages 391-399
DOI 10.1016/j.jappmathmech.2017.02.006
Title Injection of boiling liquid carbon dioxide into a stratum, accompanied by replacement of methane in hydrate by carbon dioxide
Author(s) M.K. Khasanov (Sterlitamak Branch of Bashkir State University, Sterlitamak, Russia, hasanovmk@mail.ru)
Abstract On the basis of equations of the mechanics of multiphase media, a mathematical model of injection of carbon dioxide into a porous medium saturated with methane and its gas hydrate is constructed. The case is considered where on two moving frontal surfaces separating a porous stratum into three regions, boiling of carbon dioxide and replacement of methane by carbon dioxide gas in the initial gas hydrate take place. For the axially symmetric problem, self-similar solutions describing the pressure distribution in each of the three percolation regions are constructed. The dynamics of the two moving phase transition boundaries as a function of mass injection rate, the initial pressure, and permeability of the porous medium is investigated. It has been established that the extent of the region saturated with liquid carbon dioxide increases with growth of the injection rate and the initial pressure and lowering of the permeability, and the velocity of the front of methane replacement in the hydrate by carbon dioxide gas increases with increase in the injection rate and permeability and lowering of the initial pressure. It has been shown that boiling of carbon dioxide as a consequence of a corresponding decrease of its viscosity promotes acceleration of the front of methane replacement in the hydrate by carbon dioxide gas.
Received 06 March 2016
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