SU1692672A1 - Ultrasonic treatment technique - Google Patents

Abstract

The invention relates to ultrasound technology and may find application in emulsification, dispersing and cleaning processes. The purpose of the invention is to increase the efficiency of the ultrasonic liquid treatment process by increasing the zone of active cavitational action and the radiated acoustic power. For this, when performing ultrasonic liquid treatment in a rod oscillatory system, a concentrator 1 with a variable internal profile is used. The internal cavity 3 of the concentrator 1 is filled with liquid to at least 2/3 of the volume to ensure the stability of the focusing mode 1 sludge.

Description

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The invention relates to ultrasound technology and may find application in emulsification, dispersing and cleaning processes.

The aim of the invention is to increase the efficiency of the ultrasonic treatment process by increasing the zone of active cavitation effect and increasing the radiated acoustic power.

The method of ultrasonic treatment consists in immersing the end surface of the core concentrator with a variable internal profile into a liquid to a depth of 10–15 mm, removing air from the inner cavity of the concentrator before filling this cavity with at least 2/3 volume of liquid, and initiating longitudinal vibrations in the concentrator.

The proposed method is illustrated in the drawing.

A stepped concentrator 1 with a variable internal profile is fixed on the waveguide 2 of the rod oscillatory system and lowered into the liquid to a depth, which excludes the processing of air leaks under its radiating end surface (approximately 10-15 mm). The internal cavity 3 of the concentrator 1 is not less than 2/3 of the volume filled with liquid.

Upon the excitation of ultrasonic vibrations in the concentrator 1, an intense sound field is formed in the liquid and an active cavitation zone is formed.

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impact (treatment area), occupying the space not only under the working end face of the concentrator, but also in the cavity filled with liquid and beyond.

The cavity depth of a half-wave stepped concentrator with a variable internal profile is equal to 14 longitudinal waves in the concentrator material (for a steel or titanium concentrator, 1/4 of the longitudinal wave at a frequency of 22 kHz is a value close to 60 mm). In half-wave concentrators (exponential, triangular, catenoidal) the depth of the cavity is equal to the height of the concentrator.

The transverse oscillations that occur in the core concentrator when longitudinal oscillations are excited in it, are in any case transmitted to the medium. For a hub with a variable internal profile, transverse oscillations are transmitted by both the lateral surface of the concentrator and the surface of the cavity. If both these surfaces are completely in contact with the liquid, then due to the large contact area, the radiation intensity is small, the weak transverse oscillations are almost completely crushed by the load (fluid). When the end surface of the concentrator is immersed in a liquid to a depth of 10-15 mm (the height of the concentrator at a frequency of 22 kHz is about 120 mm), most of the lateral surface of the concentrator is in air and this surface remains practically unloaded. Therefore, when only the cavity of a hub with a variable internal profile is filled

liquid, the radiation intensity increases. In addition, the focus effect works, the cavity surface works as a cylindrical focusing transducer. Filling the cavity with liquid for 2/3 of the volume and more ensures the stability of the focusing mode. When applying sound fields formed in the region of the working end of the concentrator and the side wall of the cavity, the active cavitation zone will fully occupy the space covered by the end of the concentrator and the cavity. Processing efficiency will increase due to an increase in the volume of the simultaneously voiced liquid and an increase in the amount of acoustic energy transferred to the liquid.

Claims (1)

Invention Formula The method of ultrasonic treatment, which consists in immersion of the end surface of the core concentrator in a liquid and in the excitation of longitudinal oscillations in it, characterized in that to increase efficiency by increasing the zone of active cavitation effect and increasing acoustic power, it uses a concentrator with a core concentrator with a variable internal profile, the end surface of the core concentrator is immersed in a liquid to a depth of 10–15 mm, and before exciting longitudinal oscillations in the core concentrator, air is removed from its internal cavity before filling this cavity with at least 2/3 volume. The zone of active camping