The Dynamics of an Aerosol in an Open Tube under Oscillations of Various Intensities near Resonance

The Dynamics of an Aerosol in an Open Tube under Oscillations of Various Intensities near Resonance The dynamics of an aerosol in an open tube under the action of acoustic waves of various intensities near the first eigenfrequency in the transient mode, when shock waves are not formed, was experimentally studied. The time–pressure profiles of the aerosol were obtained, whose shape becomes somewhat different from the harmonic one only at resonance. The time of aerosol clearing for different frequencies and the piston-displacement amplitudes is determined. It is demonstrated that the dependence of the aerosol clearing time on frequency with a minimum at the first eigenfrequency is nonmonotonic in character. In the transition mode, the aerosol clearing occurs 1.5 times faster than in the shock-free wave mode with the same piston-displacement amplitudes. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png High Temperature Springer Journals

The Dynamics of an Aerosol in an Open Tube under Oscillations of Various Intensities near Resonance

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Publisher
Springer Journals
Copyright
Copyright © 2018 by Pleiades Publishing, Ltd.
Subject
Physics; Atoms and Molecules in Strong Fields, Laser Matter Interaction; Materials Science, general; Classical and Continuum Physics; Physical Chemistry; Industrial Chemistry/Chemical Engineering
ISSN
0018-151X
eISSN
1608-3156
D.O.I.
10.1134/S0018151X1801008X
Publisher site
See Article on Publisher Site

Abstract

The dynamics of an aerosol in an open tube under the action of acoustic waves of various intensities near the first eigenfrequency in the transient mode, when shock waves are not formed, was experimentally studied. The time–pressure profiles of the aerosol were obtained, whose shape becomes somewhat different from the harmonic one only at resonance. The time of aerosol clearing for different frequencies and the piston-displacement amplitudes is determined. It is demonstrated that the dependence of the aerosol clearing time on frequency with a minimum at the first eigenfrequency is nonmonotonic in character. In the transition mode, the aerosol clearing occurs 1.5 times faster than in the shock-free wave mode with the same piston-displacement amplitudes.

Journal

High TemperatureSpringer Journals

Published: Mar 14, 2018

References

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