Geodesic
Agreed thermodynamical model of multicomponent mixture with mass transfer
Matematičeskoe modelirovanie, Tome 22 (2010) no. 4, pp. 147-154 Cet article a éte moissonné depuis la source Math-Net.Ru

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It is considered an agreed thermodynamical model of compressible multicomponent mixtures with mass exchange between phases. The model allows to receive phase equilibrium surfaces and other thermodynamic functions in analytical form for isothermal case. The simple state equations and model Gibbs potential are offered correctly to describe thermodynamical behavior of gas-oil solutions in some range of parameters, which is interesting for practice. The model is convenient for numerical modeling of compositional flow of compressible fluids in porous media: it is reduced required computing resources, reliability of the account increases; it is exclude some unphysical decision.
Keywords: multicomponent mixture, thermodynamical model. 
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     title = {Agreed thermodynamical model of multicomponent mixture with mass transfer},
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A. V. Koldoba; E. V. Koldoba. Agreed thermodynamical model of multicomponent mixture with mass transfer. Matematičeskoe modelirovanie, Tome 22 (2010) no. 4, pp. 147-154. http://geodesic.mathdoc.fr/item/MM_2010_22_4_a10/

[1] Aziz Kh., Settari E., Matematicheskoe modelirovanie plastovykh sistem, Nedra, M., 1982, 408 pp.

[2] Rozenberg M. D., Kundin S. A., Mnogofaznaya mnogokomponentnaya filtratsiya pri dobyche nefti i gaza, Nedra, M., 1978

[3] Orr F. M., Theory of Gas Injection Processes, Stanford, Californiya, 2005

[4] Mitlin V. S., “Two-phase multicomponent filtration: instabilities, autowaves and retrograde phenomena”, J. Fluid Mech., 220 (1990), 369–395 | DOI

[5] Ueiles S., Fazovye ravnovesiya v khimicheskoi tekhnologii, v 2-kh chastyakh, Mir, M., 1989

[6] Batalin O. Yu., Brusilovskii A. I., Zakharov M. Yu., Fazovye ravnovesiya v sistemakh prirodnykh uglevodorodov, Nedra, M., 1992

[7] Koldoba A. V., Koldoba E. V., “Modelnoe uravnenie sostoyaniya i potentsial Gibbsa dlya chislennogo rascheta zadach mnogokomponentnoi filtratsii s fazovymi perekhodami”, Geokhimiya, 2004, no. 5, 573–576