DEVELOPMENT OF RICHTMYER–MESHKOV INSTABILITY AS A RESULT OF THE TRANSMISSION OF A SHOCK WAVE THROUGH A CYLINDRICAL STRUCTURE OF HEAVY GAS

Volume 90, №2

DEVELOPMENT OF RICHTMYER–MESHKOV INSTABILITY AS A RESULT OF THE TRANSMISSION OF A SHOCK WAVE THROUGH A CYLINDRICAL STRUCTURE OF HEAVY GAS

On the basis of a mathematical model of the mechanics of a two-velocity two-temperature mixture of light and heavy gases with different pressures, the dynamics of a heavy-gas droplet in the case of incidence of a shock wave on it is numerically studied within the framework of two-dimensional nonstationary flow of the mixture. An analysis of experimental data on the dependence of the spatial expansion of the droplet on time has shown their satisfactory agreement with calculated data

Author: K. I. Zyryanov, G. A. Ruev, and A. V. Fedorov
Keywords: shock wave, droplet, mixing layer, Richtmyer–Meshkov instability, two-velocity two-temperature dynamics of gas mixtures
Page: 430

Link

K. I. Zyryanov, G. A. Ruev, and A. V. Fedorov. DEVELOPMENT OF RICHTMYER–MESHKOV INSTABILITY AS A RESULT OF THE TRANSMISSION OF A SHOCK WAVE THROUGH A CYLINDRICAL STRUCTURE OF HEAVY GAS //Journal of engineering physics and thermophysics. . Volume 90, №2. P. 430.

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