In this article, the results of experimental study of surface and volumetric effects arising in a fluid under the action of high-frequency vibration are considered. Some elements in the theory of the surface effects are analyzed with regard to their origin and interrelations with other similar phenomena. The height of splashing fountains on the fluid surface is assessed based on the analogy with particle bounce over a vibrating plane. It is found that the influence of vibration on the average velocity of fluid flow is more pronounced at such excitation parameters that enhance the surface effects under study, namely, the formation of cellular structures (Faraday ripple), the creation of turbulence in the fluid surface layer and splashing. The analytical study of motion of a bubble in an oscillating volume of a fluid, saturated with gas at a certain depth, is provided, with compressibility of both the bubble and surrounding gas-saturated fluid layer being taken into account. The condition of bubble sinking in such a compressible medium and the condition of vibrational instability of the separate state of the gas–fluid system are determined.
High-frequency sonoelectrochemical processes: mass transport, thermal and surface effects induced by cavitation in a 500 kHz reactor
