Shift of the velocity of low-frequency pressure perturbations in the vapor-liquid mixture under nonadiabatic conditions
E.A. Tairov
Melentiev Energy Systems Institute SB RAS, Irkutsk, Russia
Keywords: a layer of spherical particles, vapor-liquid mixture, the equilibrium velocity of sound, non-stationary heat transfer
Pages: 333–338
Abstract
A theoretical study of the equilibrium velocity of sound in the liquid-vapor mixture containing the close-packed layer of spherical particles has been carried out. Thermodynamic relations include a description of a non-stationary heat transfer between the mixture and particles in compression half-wave. The theoretical model allows explaining the experimentally observed significant reduction in the equilibrium velocity from its adiabatic value at the increase in vapor content of the mixture. The calculated results agree with experimental data obtained in the vertical channel at filtering the liquid-vapor mixture in a close-packed layer of spherical particles of borosilicate glass and steel.
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