A. L. Tukmakov, “Dependence of the mechanism of solid particle drift in a nonlinear wave field on the time constant and wave front passage time”, Prikl. Mekh. Tekh. Fiz., 52:4 (2011), 106–115; J. Appl. Mech. Tech. Phys., 52:4 (2011), 590

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Prikladnaya Mekhanika i Tekhnicheskaya Fizika, 2011, Volume 52, Issue 4, Pages 106–115 (Mi pmtf1508)

This article is cited in 4 scientific papers (total in 4 papers)

Dependence of the mechanism of solid particle drift in a nonlinear wave field on the time constant and wave front passage time

A. L. Tukmakov

Institute of Mechanics and Engineering, Kazan’ Research Center, Russian Academy of Sciences, Kazan’, 420111, Russia

Full-text PDF (313 kB) Citations (4)

Abstract: A criterion that allows determining the prevailing mechanism and direction of the drift of a solid spherical particle in a nonlinear wave field of a closed acoustic resonant cavity, depending on the ratio between the particle time constant, compression wave front growth time, and duration of passage of the acoustic wave, is analyzed. Particle motion is assumed to occur under the action of the Stokes force, buoyancy force, and virtual mass force.

Keywords: acoustic resonant cavity, particles suspended in a gas, Navier–Stokes equations, time constant of a particle, compression wave front passage duration. nodes and antinodes of a standing velocity wave.

Received: 18.02.2009
Accepted: 02.06.2009

English version:
Journal of Applied Mechanics and Technical Physics, 2011, Volume 52, Issue 4, Pages 590–598
DOI: https://doi.org/10.1134/S0021894411040122

Bibliographic databases:

Document Type: Article

UDC: 519.63:534.13

Language: Russian

Citation: A. L. Tukmakov, “Dependence of the mechanism of solid particle drift in a nonlinear wave field on the time constant and wave front passage time”, Prikl. Mekh. Tekh. Fiz., 52:4 (2011), 106–115; J. Appl. Mech. Tech. Phys., 52:4 (2011), 590–598

Citation in format AMSBIB

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\by A.~L.~Tukmakov

\paper Dependence of the mechanism of solid particle drift in a nonlinear wave field on the time constant and wave front passage time

\jour Prikl. Mekh. Tekh. Fiz.

\yr 2011

\vol 52

\issue 4

\pages 106--115

\mathnet{http://mi.mathnet.ru/pmtf1508}

\elib{https://elibrary.ru/item.asp?id=16973566}

\transl

\jour J. Appl. Mech. Tech. Phys.

\yr 2011

\vol 52

\issue 4

\pages 590--598

\crossref{https://doi.org/10.1134/S0021894411040122}

Linking options:

https://www.mathnet.ru/eng/pmtf1508

https://www.mathnet.ru/eng/pmtf/v52/i4/p106

This publication is cited in the following 4 articles:

D. A. Tukmakov, N. A. Tukmakova, “Numerical Study of the Influence of the Dispersed Phase Density on the Interphase Interaction in an Electrically Charged Gas Suspension for the Mass and Surface Electric Charge Density”, Tech. Phys., 69:10 (2024), 2596
A. L. Tukmakov, A. A. Ahunov, “Evolution of the composition and changes in the nature of oscillations of a coagulating gas suspension in the wave field of an acoustic resonator”, High Temperature, 60:6 (2022), 804–811
D. A. Tukmakov, N. A. Tukmakova, “Numerical study of the effect of droplet coagulation on the dynamics of a two-fraction aerosol in an acoustic resonator”, Rossijskij tehnologičeskij žurnal, 9:2 (2021), 96
D. A. Gubaidullin, R. G. Zaripov, P. P. Osipov, L. A. Tkachenko, L. R. Shaidullin, High Temperature, 59:3 (2021), –

Citing articles in Google Scholar: Russian citations, English citations
Related articles in Google Scholar: Russian articles, English articles

Prikladnaya Mekhanika i Tekhnicheskaya Fizika

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