RUS  ENG
Full version
JOURNALS // Preprints of the Keldysh Institute of Applied Mathematics

Keldysh Institute preprints, 2014, 094, 20 pp. (Mi ipmp1946)

On the computation of the phase equilibrium in multicomponent filtration problems
V. G. Lysov, Yu. G. Rykov

References

1. Brusilovskii A. I., Fazovye prevrascheniya pri razrabotke mestorozhdenii nefti i gaza, Graal, M., 2002
2. A. V. Koldoba, E. V. Koldoba, “Modelnoe uravnenie sostoyaniya i potentsial Gibbsa dlya chislennogo rascheta zadach mnogokomponentnoi filtratsii s fazovymi perekhodami”, Geokhimiya, 2004, no. 5, 573–576
3. O. Podgornova, A. Myasnikov, K. Bratvedt, Yu. Rykov, E. Koldoba, A. Koldoba, “Thermodynamically consistent analytical approach for streamline simulations of multicomponent hydrocarbon reservoirs”, EAGE 69th Conference & Exhibition (London, UK, 11–14 June 2007), SPE 107511, 6 pp. http://keldysh.ru/papers/2007/source/article/SPE
4. E. V. Koldoba, A. V. Koldoba, A. V. Myasnikov, O. V. Podgornova, Yu. G. Rykov, “Termodinamicheski soglasovannyi podkhod dlya chislennogo modelirovaniya protsessov vytesneniya nefti”, Matem. modelirovanie, 21:10 (7–18), 2009  mathnet
5. A. V. Koldoba, E. V. Koldoba, “Termodinamicheski soglasovannaya model mnogokomponentnoi smesi s fazovymi perekhodami”, Matem. modelirovanie, 22:4 (2010), 147–154  mathnet  zmath
6. Orr F. M., Theory of Gas Injection Processes, Stanford, California, 2005
7. Ueiles S., Fazovye ravnovesiya v khimicheskoi tekhnologii, V 2-kh chastyakh, Mir, M., 1989
8. Yu. G. Rykov, “O vozmozhnosti rasprostraneniya teorii zakonov sokhraneniya na nekotorye vyrozhdennye parabolicheskie sistemy uravnenii, opisyvayuschie protsessy szhimaemoi dvukhfaznoi mnogokomponentnoi filtratsii”, Matem. zametki, 89:2 (2011), 300–315  mathnet  crossref  mathscinet  zmath
9. Rykov Yu. G., “Strogaya formulirovka vychislitelnoi metodologii «strimlain» dlya modelirovaniya protsessa vytesneniya nefti s uchetom effektov szhimaemosti, mnogokomponentnosti i fazovykh perekhodov”, Preprinty IPM im. M. V. Keldysha, 2008, 004, 16 pp. http://library.keldysh.ru/preprint.asp?id=2008-4  mathnet
10. Rykov Yu. G., Zaitsev N. A., Kabanov V. V., Lysov V. G., Khabibullin R. F., “Vozmozhnaya termodinamicheskaya model dlya ispolzovaniya v skheme pryamogo modelirovaniya dvukhfaznykh potokov”, Preprinty IPM im. M. V. Keldysha, 2012, 040, 18 pp. http://library.keldysh.ru/preprint.asp?id=2012-40  mathnet  zmath
11. Whitson C. H., Michelsen M., “The Negative Flash”, Fluid Phase Equilibria, 53 (1989), 51–71  crossref  isi
12. Michelsen M. L., “Calculation of Phase Envelopes and Critical Points for Multicomponent Mixtures”, Fluid Phase Equilibria, 4 (1980), 1–10  crossref  isi
13. Michelsen M. L., “The Isothermal Flash Problem. Part I: Stability”, Fluid Phase Equilibria, 9 (1982a), 1–19  crossref  isi
14. Michelsen M. L., “The Isothermal Flash Problem. Part II: Phase-Split Calculation”, Fluid Phase Equilibria, 9 (1982b), 21–40  crossref  isi
15. Lohrenz J., Bray B. G., Clark C. R., Calculating Viscosity of Reservoir Fluids from their Composition, Society of Petroleum Engineers, 1964, October 1
16. Wilson G. M., “A Modified Redlich-Kwong Equation of State”, Presented at the 1969 AIChE 65th National Mtg., Application to General Physical Data Calculation (Cleveland, OH, 1969), 15C
17. PVTi Reference Manual, 2009.1, Schlumberger
18. Baker L. E., Pierce A. C., Luks K. D., “Gibbs energy analysis of phase equilibria”, SPE Journal, 1982, October, 731–741  crossref


© Steklov Math. Inst. of RAS, 2025