Study of evaporation for liquid with free interface in the enclosed tank: acoustic and low-pressure exposure on the liquid

Experimental and theoretical study was conducted on liquid evaporation from free interface when the liquid is placed into an enclosed tank and subjected to vacuum and sonic exposure. A mathematical model was developed describing the influence of sonic exposure and gas pressure on the liquid temperat...

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Bibliographic Details
Published in:Thermophysics and aeromechanics 2019-03, Vol.26 (2), p.255-266
Main Authors: Trushlyakov, V. I., Novikov, A. A., Lesnyak, I. Yu, Panichkin, A. V.
Format: Article
Language:English
Subjects:
Distilled water
Evaporation
Evaporation rate
Exposure
Gas pressure
Low pressure
Physics
Physics and Astronomy
Regression analysis
Temperature dependence
Thermodynamics
Vacuum chambers
Working fluids
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Summary:Experimental and theoretical study was conducted on liquid evaporation from free interface when the liquid is placed into an enclosed tank and subjected to vacuum and sonic exposure. A mathematical model was developed describing the influence of sonic exposure and gas pressure on the liquid temperature and evaporation rate. The experimental program and methods were designed; experimental setup was constructed, the test jobs were accomplished. The experiments were based on a piezoceramic transmitter with assigned frequency and amplitude of sonic oscillations. Distilled water was chosen as working fluid. The paper presents experimental dependency of the liquid temperature variation and calculated evaporation rate for situations of composite sonic and vacuum exposure or separate influence of every factor. Comparison of calculated and experimental value of liquid temperature while evaporation demonstrated the compliance with 10% accuracy. The research presents the regression analysis for the factor impacting the liquid evaporation rate: pressure inside the vacuum chamber and power of sonic exposure. The regression equation was derived for estimating the impact of sonic and vacuum exposure on the liquid evaporation rate during experiments at different pressures and liquid mass. The suggestions for further studies were formulated as well.
ISSN:0869-8643
1531-8699
DOI:10.1134/S0869864319020094