@article{ZVMMF_1992_32_6_a9,
author = {A. V. Shcheprov},
title = {Calculation of a flow of viscous fluid on adaptive grids},
journal = {\v{Z}urnal vy\v{c}islitelʹnoj matematiki i matemati\v{c}eskoj fiziki},
pages = {939--951},
year = {1992},
volume = {32},
number = {6},
language = {ru},
url = {http://geodesic.mathdoc.fr/item/ZVMMF_1992_32_6_a9/}
}
A. V. Shcheprov. Calculation of a flow of viscous fluid on adaptive grids. Žurnal vyčislitelʹnoj matematiki i matematičeskoj fiziki, Tome 32 (1992) no. 6, pp. 939-951. http://geodesic.mathdoc.fr/item/ZVMMF_1992_32_6_a9/
[1] Thompson J. F., Warsi Z. U. A., Wayne Mastin C., Numerical grid generation, North-Holland, N. Y. etc., 1985 | MR | Zbl
[2] Degtyarev L. M., Drozdov V. V., Ivanova T. S., “Metod adaptivnykh k resheniyu setok v singulyarno-vozmuschennykh odnomernykh zadachakh”, Differents. ur-niya, 23 (1987), 1160–1169 | MR | Zbl
[3] Dorfi E. A., Drury L. O'C., “Simple adaptive grids for 1-D initial problems”, J. Comput. Phys., 69:1 (1987), 175–195 | DOI | Zbl
[4] Duaier Kh. A., Ki R. Dzh., Sanders B. P., “Metod postroeniya adaptivnykh setok dlya zadach gidrodinamiki i teploprovodnosti”, Raketnaya tekhn. i kosmonavtika, 18:10 (1980), 70–80
[5] Nakakhasi K., Deiuert Dzh. S., “Avtomaticheskii metod postroeniya adaptiruyuschikhsya setok i ego primenenie v zadachakh obtekaniya profilya”, Aerokosmich. tekhn., 1987, no. 12, 10–18
[6] Anderson D., Tannekhill Dzh., Pletcher R., Vychislitelnaya gidromekhanika i teploobmen, v. 2, Mir, M., 1990 | Zbl
[7] Ivanenko S. A., Raschet techenii v vodoemakh na krivolineinykh setkakh, VTs AN SSSR, M., 1991
[8] Zubov V. I., Krivtsov V. M., Naumova I. N., Shmyglevskii Yu. D., “Sravnenie trekh metodov rascheta obtekaniya plastiny vyazkim gazom”, Zh. vychisl. matem. i matem. fiz., 27:6 (1987), 940–945 | Zbl
[9] Scheprov A. V., “Ob odnom sposobe adaptatsii setok”, Zh. vychisl. matem. i matem. fiz., 30:11 (1990), 1749–1752 ; 31:4 (1991), 639 | MR
[10] Khindman R. Dzh., Kutler P., Anderson D., “Metod resheniya nestatsionarnykh dvumernykh uravnenii Eilera dlya oblastei techeniya proizvolnoi formy”, Raketnaya tekhn. i kosmonavtika, 19:6 (1981), 10–19
[11] Flores J., Holst T. L., Kwak D., Batiste D. M., “A new consistent spatial differencing scheme for the transonic full-potential equation”, AIAA Journal, 22:8 (1984), 1027–1034 | DOI | MR | Zbl
[12] Koretskii V. V., Lyubimov D. A., “Modifitsirovannyi metod priblizhennoi faktorizatsii dlya rascheta potentsialnykh prostranstvennykh techenii v kanalakh”, Zh. vychisl. matem. i matem. fiz., 30:10 (1990), 1553–1570 | MR
[13] Rouch P., Vychislitelnaya gidrodinamika, Mir, M., 1980 | Zbl
[14] Quartapelle L., “Vorticity conditioning in the computation of two-dimension viscous flow”, J. Comput. Phys., 40:2 (1981), 453–477 | DOI | MR | Zbl
[15] Levin M. P., K postanovke granichnykh uslovii dlya vikhrya pri chislennom reshenii uravnenii Nave-Stoksa, VTs AN SSSR, M., 1989 | MR
[16] Tarunin E. L., “O vybore approksimatsionnoi formuly dlya vikhrya skorosti na tverdoi granitse pri reshenii zadach dinamiki vyazkoi zhidkosti”, Chisl. metody mekhan. sploshnoi sredy, 9, no. 7, VTs SO AN SSSR, Novosibirsk, 1978, 97–111
[17] Samarskii A. A., Nikolaev E. S., Metody resheniya setochnykh uravnenii, Nauka, M., 1978 | MR
[18] Samarskii A. A., Gulin A. V., Chislennye metody, Nauka, M., 1989 | MR
[19] Kochin N. E., Kibel I. A., Roze N. V., Teoreticheskaya gidromekhanika, v. 2, Fizmatgiz, M., 1963 | Zbl
[20] Marchuk G. I., Metody vychislitelnoi matematiki, Nauka, M., 1977 | MR | Zbl
[21] Ghia U., Ghia K. N., Shin C. T., “High-Re solutions for incompressible flow using the Navier-Stokes equations and multigrid method”, J. Comput. Phys., 48:3 (1982), 387–411 | DOI | Zbl