Some research results on the law of increasing pressure of the wave interaction process in the mixture freon21 with vapour bubbles
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https://doi.org/10.54939/1859-1043.j.mst.FEE.2023.172-177Keywords:
Liquid; Vapour bubbles; Short wave; Wave interaction; Phase; Presure; Mixture.Abstract
The mixture freon 21 containing vapour bubbles is commonly found in the energy industry, in hydraulic systems and cooling systems of automobiles and construction machinery. This paper presents the phenomenon of pressure increase due to the interaction between short waves in the mixture in the freon 21 containing vapour bubbles. The wave interaction process is described by the system of hydro - thermodynamic equations. The numerical method is applied to calculate, study and analyze the influence of the volume concentration of vapour phase in the mixture on the pressure increase of the waves interaction process. From the obtained results on the dependence of the mixture pressure on the volume concentration of the vapour phase at the time of wave interaction, the pressure increase law of the short waves interaction process in the mixtures of freon 21 containing vapour bubbles can be determined.
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