Combined method for acoustic cavitation research

Kotukhov, A. V.; Гаврилюк, В. С.; Минчук, В. С.; Дежкунов, Н. В.

doi:10.35596/1729-7648-2020-18-4-80-88

Doklady Belorusskogo gosudarstvennogo universiteta informatiki

2020

DOI: 10.35596/1729-7648-2020-18-4-80-88

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Combined method for acoustic cavitation research

A. V. Kotukhov

В. С. Гаврилюк

В. С. Минчук

et al.

Abstract: At present, the field of applications of powerful ultrasound is expanding intensively, and the improvement of equipment and technological processes continues. With that, the key factor in the effect of ultrasonic vibrations on processes in liquids and liquid-like media is cavitation, i.e. the phenomenon of formation, pulsation and collapse of gas microbubbles under the influence of variable pressure. The widespread introduction of promising ultrasound technologies is largely constrained by the fact tha… Show more

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Cited by 3 publications

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“…It is demonstrated that a negative correlation between the intensities of this subharmonic and SL is observed in a pulsed ultrasound field with an increase in the duty cycle of pulses. A detailed description of the setup and the experimental procedure was provided in [13]. The working vessel is a stainless-steel cylinder with hollow water-cooled walls with an inner diameter of 100 mm and a height of 180 mm.…”

mentioning

confidence: 99%

Study of cavitation noise without subharmonics

Kotukhov A. V,

Efremov D. V.,

Bannikova I. A.

et al. 2023

Technical Physics Letters

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The evolution of the cavitation noise (CN) spectra in the field of a focusing emitter with an increase in the intensity of ultrasound (US) was studied. Spectra without subharmonics f0/2 were recorded for the first time, where f0 is the frequency of the ultrasound generating cavitation,. Such a spectrum is observed in partially degassed water at a high duty cycle of ultrasonic pulses. The threshold for the appearance of sonoluminescence (SL) coincides with the threshold for the appearance of the frequency f0/2 in the CR spectrum. In a pulsed field at an ultrasonic intensity much higher than the cavitation threshold, the SL intensity increases with an increase in the duty cycle of the pulses, while the intensity of the f0/2 line in the CS spectrum decreases. Keywords: sonoluminescence, subharmonics.

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mentioning

confidence: 99%

Study of cavitation noise without subharmonics

Kotukhov A. V,

Efremov D. V.,

Bannikova I. A.

et al. 2023

Technical Physics Letters

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Research of Acoustic Cavitation: Results, Practical Implementation and Development Prospects

Gavriluk,

Dezhkunov,

Kotukhov

et al. 2024

Doklady Belorusskogo gosudarstvennogo universiteta informatiki

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The most signiﬁcant results of research performed in the Belarusian State University University of Informatics and Radioelectronics, aimed at creating methods and instruments for monitoring cavitation and controlling its activity, are presented. To achieve this goal, it was necessary to clarify the mechanisms and patterns of new and little-studied phenomena: ultrasonic capillary eﬀect, sonoluminescence, cavitation noise and its spectral components and evaluate the possibilities of their use for hardware implementation as cavitation indicators. New cavitation phenomena have been discovered: reverse ultrasonic capillary eﬀect, generation of constant EMF under the inﬂuence of alternating pressure of ultrasonic frequency; acoustic clearing of the cavitation area with pulsed modulation of the ultrasonic ﬁeld, the eﬀect of long-term memory of the cavitation properties of the liquid. Previously unknown patterns have been established: it is shown that the cavitation region goes through four stages of development with increasing ultrasound intensity; a theorem on the maximum cavitation activity was formulated; the spectral characteristics of cavitation noise were established, correlating with the intensity of sonoluminescence. It has been shown that pulsed modulation of the ultrasonic ﬁeld makes it possible to control the dynamics of the development of the cavitation region and the activity of cavitation. Based on the data obtained, new methods and instruments have been developed to study cavitation and control its activity. In a number of parameters, the created equipment surpasses the best world samples, what is conﬁrmed by deliveries to the Russia, EU countries, China, USA and South Korea.

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Assessment of Cavitation Activity by Cavitation Noise in Different Frequency Ranges

Minchuk,

Perhunova,

Fedorinchik

et al. 2024

Doklady Belorusskogo gosudarstvennogo universiteta informatiki

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The results of testing the spectral-acoustic cavitometer with measurement modes that differ in the frequency ranges of integration of cavitation noise are presented. For each of the H1–H4 modes, the lower integration frequency fmin is 1, 70, 180 and 300 kHz, respectively. The upper frequency is the same for all modes and is fmax = 10 MHz. Piezoelectric waveguide sensors were used as a cavitation noise receivers. The distributions of cavitation activity in non-uniform ultrasonic fields were recorded: in the volume of the ultrasonic bath (f0 = 35 kHz) and in the field of the submersible emitter (f0 = 21 kHz). The frequency range of integration was varied by changing the lower bound. It has been established that a change in the integration range within a fairly wide range does not have a noticeable qualitative effect on the result of measurements of cavitation activity, only a multiple change in the readings occurs. This conclusion was confirmed using sensors that differ in their spectral characteristics.

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Combined method for acoustic cavitation research

Cited by 3 publications

References 5 publications

Study of cavitation noise without subharmonics

Study of cavitation noise without subharmonics

Research of Acoustic Cavitation: Results, Practical Implementation and Development Prospects

Assessment of Cavitation Activity by Cavitation Noise in Different Frequency Ranges

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