numerical simulation, interface of two incompressible liquids.
Subject:
Numerical simulation of rayleigh-taylor instability.
Main publications:
N. N. Anuchina, V. I. Volkov, N. S. Es'kov, O. S. Ilyutina, O. M. Kozyrev, “Numerical simulation of rayleigh-taylor instability evolution in cylindrical and spherical geometries for the cases of two and three spatial variables”, Hydrodinynamic Instability and Turbulence, 2001, 145
M. G. Anuchin, N. N. Anuchina, V. I. Volkov, V. A. Gordeychuk, N. S. Eskov, O. M. Kozyrev, “A technique to calculate local hydraulic resistance in 2D and 3D channel geometries”, Matem. Mod., 18:6 (2006), 109–126
2004
2.
N. N. Anuchina, V. I. Volkov, E. N. Evlanov, V. P. Elsukov, N. S. Eskov, O. M. Kozyrev, V. Yu. Politov, A. V. Petrovtsev, O. F. Prilutskii, A. T. Sapozhnikov, M. K. Shinkarev, A. N. Shushlebin, “Computational and theoretical studies of mass-spectrometric measurements of the comet halley dust composition in Vega experiments”, Fizika Goreniya i Vzryva, 40:3 (2004), 77–86; Combustion, Explosion and Shock Waves, 40:3 (2004), 319–327
3.
N. N. Anuchina, V. I. Volkov, N. S. Eskov, O. S. Ilyutina, O. M. Kozyrev, “2D and 3D simulation of Rayleigh–Taylor instability in cylindrical and spherical geometries”, Matem. Mod., 16:2 (2004), 69–86
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