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Technical Physics
Published in: Technical Physics 6/2020

01-06-2020 | ATOMIC AND MOLECULAR PHYSICS

On the Nonlinear Dynamics of Massive Particles in Tornadoes

Author: L. Kh. Ingel

Published in: Technical Physics | Issue 6/2020

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Abstract

The motion of inertial particles in intense vortices with a vertical axis in the field of gravity has been analytically studied. In this problem, the nonlinear nature of the hydrodynamic resistance—its dependence on the modulus of the particle’s velocity relative to the medium—is essential. Different components of the movement interact with each other, since each of them affects the coefficient of resistance. An effective method for an approximate solution of the problem is found. A number of general laws of particle dynamics are established. In particular, a regime is characteristic in which their tangential velocity is close to the velocity of the medium, while the radial velocity is substantially smaller (it is close in order of magnitude to the geometric mean of tangential velocity of the particle and the difference between the latter and the tangential velocity of the medium).
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Footnotes
1
Instead of the particle diameter in the expression for the Reynolds number, you can, of course, use the radius. Therefore, for example, in [9] and [10], the values of the Reynolds numbers, ceteris paribus, differ by a factor of 2.
 
2
Thus, some classes of initial conditions and motions are excluded from consideration—for example, those considered in [5], where the motion of particles entering the vortex is mainly studied.
 
Literature
1.
D. V. Nalivkin, Tornadoes (Nauka, Moscow, 1984) [in Russian].
2.
V. V. Kushin, Tornado (Energoatomizdat, Moscow, 1993) [in Russian].
3.
Natural Hazards of Russia, Vol. 5: Hydrometeorological Hazards, Ed. by G. S. Golitsyn and A. A. Vasil’ev (Kruk, Moscow, 2001) [in Russian].
4.
A. S. Pleshanov, RF Patent No. 2027344 (2005).
5.
A. S. Pleshanov, On the Theory of Hydrodynamic Stability of Tornadoes (Informenergo, Moscow, 1993) [in Russian].
6.
L. A. Ostrovskii, Izv. Akad. Nauk SSSR, Fiz. Atmos. Okeana 26, 1307 (1990).
7.
8.
9.
V. M. Voloshchuk, Introduction to Hydrodynamics of Coarse Aerosols (Gidrometeoizdat, Leningrad, 1971) [in Russian].
10.
L. T. Matveev, General Meteorology Course. Atmospheric Physics (Gidrometeoizdat, Leningrad, 1984) [in Russian].
11.
12.
K. N. Volkov and V. N. Emel’yanov, Gas Flows with Particles (Fizmatlit, Moscow, 2008) [in Russian].
Metadata
Title
On the Nonlinear Dynamics of Massive Particles in Tornadoes
Author
L. Kh. Ingel
Publication date
01-06-2020
Publisher
Pleiades Publishing
Published in
Technical Physics / Issue 6/2020
Print ISSN: 1063-7842
Electronic ISSN: 1090-6525
DOI
https://doi.org/10.1134/S1063784220060122

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