SU1701391A1 - Aeration unit for flotation machine - Google Patents

Abstract

This invention relates to mineral processing. The purpose of the invention is to increase the efficiency of the flotation process. The aeration unit for the flotation machine consists of a slurry pipeline 1, at the lower end of which an end flange 2 is made. Inside the slurry pipeline 1 there is an air pipe 3 with aerator 4. made in the form of a hollow cone with holes 5 circumferentially at its base. Under the aerator 4 there is an ultrasonic emitter 6. The surface of the flange 2 is located parallel to the surface of the emitter 6. Compressed air passes through pipe 3 to the aerator 4, from where it passes through the holes 5 into the gap between the flange 2 and the radiator 6, where air bubbles are dispersed in ultrasonic vibrations. x high intensity. 1 il. / 1 YO VI Oh with about

Description

The invention relates to the enrichment of minerals and wastewater treatment from finely dispersed soils by the flotation method and can be used in flotation machines.

Known aeration node containing aeration tube and a pneumatic aerator in the form of a check valve.

A disadvantage of this device is low air dispersion, which reduces the efficiency of the flotation process.

Closest to the invention is an aeration unit for a flotation machine, comprising a slurry line, an aeration tube, and a pneumatic aerator, made in the form of a hollow cone with openings at the base of its side surface.

The disadvantage of this device is a relatively low degree of air dispersion, since a decrease in the pore size of the perforation element does not lead to a corresponding decrease in the diameter of the air bubbles.

The purpose of the invention is to increase the efficiency of the flotation process.

This goal is achieved by the fact that, in the device, air outlets from the aerator are located between the ultrasound transducer additionally introduced into the flotation machine and the end flange of the slurry pipeline, with the surface of the end flange of the slurry pipeline facing the radiator parallel to the working surface of the radiator.

The drawing shows the aeration site, a general view.

The aeration unit includes a slurry pipeline 1 with a flange 2 at the end, an aeration pipe 3 with an aerator 4 made in the form of a hollow cone with apertures .5 circumferentially at its base. Under the pneumatic aerator 4 and the end flange 2 placed ultrasonic emitter 6.

Aeration node works as follows.

The compressed air through the aeration pipe 3 enters the aerator 4, then to the holes 5. The pulp flow supplied through the pipeline 1 is accelerated by smoothly reducing the cross section of the pipeline 1, which traps air bubbles that form at the outlet of the holes 5. The mixture of pulp with the air goes further into the region of developed cavitation, which is formed in

the space between the flange 2 and the radiator 6, which excites high-intensity ultrasonic oscillations in the fluid. Passage through the cavitation area, air bubbles thanks

the dispersing and mixing action of cavitation is dispersed to almost the same size and evenly distributed throughout the flow volume. Further, the flotation process is carried out as in known flotation cells.

The parallelism of the surface of the end flange 2 facing the emitter 6 and the surface of the emitter 6 allows the mixture of pulp and air to be under the uniform influence of high-intensity ultrasonic vibrations throughout the flow from the entrance to the cavitation region to the exit from it to the flotation cell, which ensures stability process

flotation.

Thus, the proposed zona- tion unit for the flotation machine makes it possible to increase the efficiency of the flotation process. The most efficient process

flotation occurs at comparable sizes of air bubbles and recoverable particles and a uniform distribution of air throughout the fluid volume.

In addition, air bubbles after

High-intensity ultrasound fields have increased flotation activity.

Claims (1)

The invention of the aeration node for flotation machine, including the slurry pipeline, aeration tube and aerator, made in the form of a hollow cone with holes around the circumference at its base, about a and h a tout and so that, in order to increase the efficiency of the flotation process, it is equipped with an ultrasonic emitter located under the aerator, the slurry pipe is made with an end flange, while the surface of the end flange, to the ultrasonic emitter, located parallel to the working surface of the ultrasonic emitter, and the base of the cone of the aerator is placed between the emitter and the end flange