Geodesic
Numerical simulation of thermoconvection in a liquid for the case when viscosity is a quadratic function of temperature
Sibirskij žurnal industrialʹnoj matematiki, Tome 8 (2005) no. 4, pp. 51-59 Cet article a éte moissonné depuis la source Math-Net.Ru

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A. M. Il'yasov; K. V. Moiseev; S. F. Urmancheev. Numerical simulation of thermoconvection in a liquid for the case when viscosity is a quadratic function of temperature. Sibirskij žurnal industrialʹnoj matematiki, Tome 8 (2005) no. 4, pp. 51-59. http://geodesic.mathdoc.fr/item/SJIM_2005_8_4_a4/

[1] Altunina L. K., Kuvshinov V. A., Staseva L. A., “Issledovanie kinetiki geleobrazovaniya i reologicheskikh kharakteristik termoobratimykh polimernykh sistem primenitelno k usloviyam mestorozhdenii ANK “YuKOS””, Bashkir. khim. zhurn., 8:3 (2001), 53–57

[2] Altunina L. K., Zhukov V. A., Kuvshinov V. A., Staseva L. A., Shirgazin R. G., “Geleobrazuyuschie kompozitsii dlya ogranicheniya vodopritoka v yurskikh zalezhakh mestorozhdenii Zapadnoi Sibiri”, Teoreticheskie i prikladnye osnovy fiziko-khimicheskogo regulirovaniya svoistv neftyanykh dispersnykh sistem. Ch. 3, Sb. trudov SO RAN, Tomsk, 2001, 19–26

[3] Gershuni G. Z.,Zhukhovitskii E. M., Konvektivnaya ustoichivost neszhimaemoi zhidkosti, Nauka, M., 1972

[4] Gershuni G. Z., Zhukhovitskii E. M., Nepomnyaschii A. A., Ustoichivost konvektivnykh techenii, Nauka, M., 1989 | MR | Zbl

[5] Getling A. V., “Formirovanie prostranstvennykh struktur konvektsii Releya–Benara”, Uspekhi fiz. nauk, 161:9 (1991), 1–80

[6] Paskonov V. M., Polezhaev V. I., Chudov V. A., Chislennoe modelirovanie protsessov teplo- i massoobmena, Nauka, M., 1984 | Zbl

[7] Tarunin E. L., Vychislitelnyi eksperiment v zadachakh svobodnoi konvektsii, Izd-vo Irkutsk. gos. un-ta, Irkutsk, 1990

[8] Patankar S., Chislennye metody resheniya zadach teploobmena i dinamiki zhidkosti, Energoatomizdat, M., 1984

[9] Harlow F. H., Welch F. C., “Numerical calculation of time-dependent viscous incompressible flow of fluid with free surface”, Phys. Fluids, 15 (1965), 182