SU1678426A1 - Cavitation mixer - Google Patents

Abstract

The invention relates to devices for producing emulsions, suspensions in a hydrodynamic cavitation field, and can be used in the chemical, petrochemical, food, pulp and paper and other industries. The aim of the invention is to increase the efficiency of the cavitation treatment. Cavitation mixer includes a housing with connections for supplying and discharging the processing medium and a cylindrical flow chamber. Inside the flow chamber, an axis is installed with rows of consecutive cavitators made in the form of fairings having the shape of truncated cones, located in each row with a radially smaller base near the axis, and a larger one near the inner surface of the flow chamber. The mixer is equipped with elastic elements. The first in the course of the processed medium, the number of cavitators is fixed, and all subsequent ones - with the possibility of rotational and reciprocating motion. Elastic elements are placed between the rows of cavitators and connected to them. Elastic elements are made in the form of springs. 1 hp f-ly, 2 ill. (Ls

Description

The invention relates to devices for producing emulsions, suspensions in a hydrodynamic cavitation field, and can be used in the chemical, petrochemical, food, pulp and paper and other industries.

The aim of the invention is to increase the efficiency of the cavitation treatment.

Figure 1 shows the cavitation mixer, section; FIG. 2 is a section A-A in FIG.

The cavitating mixer includes a housing with nozzles for the inlet 1 and outlet 2 of the treated medium and a cylindrical flow chamber 3. Inside the chamber 3, an axis 4 is installed with rows of

Cavitators 5, 6 and 7 are located. Cavitators 5, 6 and 7 are made in the form of fairings 8, having the shape of truncated cones, located in each row with a radially smaller base near the axis, and large - near the inner surface of the flow chamber 3. The mixer is equipped with elastic elements 9. The first in the course of the medium being processed is a series of cavitators 5 fixedly mounted, and all subsequent 6 and 7 with the possibility of rotational and reciprocating motion. The elastic elements 9 are placed between the rows of cavitators 5, 6 and 7 and connected to them. The elastic elements 9 are made in the form of springs.

Cavitation mixer works as follows.

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The processed medium through the nozzle 1 enters the flow chamber 3. When the flow of the processed medium flows around the fairings 8 of the cavitators 5, 6, 7, cavities are generated. Moving in the flow and breaking, the cavities form a pulsating field of cavitation bubbles, which, interacting with each subsequent flow along the row of cavitators 6 and 7, causes its different-frequency oscillations in the autoresonant mode.

A rarefaction impulse passing through the field of cavitation bubbles, caused by pulsations of the flow of the medium being processed, different-frequency oscillations of cavitator categories b and 7, and nonstationarity of cavities contributes to the achievement of significant initial bubbles and, therefore, an increase in their potential energy. Subsequent passage of an increased pressure pulse through the same field leads to their more rigid collapse and additionally accumulated potential energy allows obtaining a large interfacial surface of the processed product. In addition, the pressure in zones of simultaneous collapse of groups of bubbles increases significantly,

In this case, the joint effect on the flow of the processed medium by pulsating cavitation fields and different-frequency longitudinal and radial self-oscillations of the cavitator series b and 7 causes intense generation of cavitation bubbles over the entire cross section of the medium flow. The resulting additional cavitation bubbles, together with an increase in the frequency of separation of

A cavitator cavitator leads to an increase in the intensity of the influence of cavitation fields on the medium being processed and contributes to an improvement in the quality of mixing.

In addition, the source of additional pulsations of the flow of the medium and the cavitation bubbles formed are the elastic connecting elements 9 themselves.

Uses of the Invention

allows to improve the quality of the finished product due to the intensification of the cavitation effect on it, as well as to achieve a more complete use of the energy of the flow of the processed medium.

Claims (2)

1. Cavitation mixer, comprising a housing with nozzles for supplying and discharging the processed medium and cylindrical a flow chamber inside which an axis is installed with rows of consecutive cavitators made in the form of fairings having the shape of truncated cones located in each row radially smaller base near the axis, and large near the inner surface of the flow chamber, characterized in that, in order to increase the efficiency of cavitation processing, it is equipped with elastic elements, while the first row of cavitators is fixed along the treated medium, and all subsequent - with the possibility of rotational and reciprocating motion, and elastic elements are placed between the rows of cavitators and connected to them. 2. A mixer according to claim. 1, characterized in that the elastic elements are made in the form of springs. ± five BUT/ t L 1 eight Fie.2