SU914096A1 - Apparatus for aerosol feeding of liquid, mainly of flotation agent - Google Patents

Description

The invention relates to a device for producing aerosols and can be used in the field of mineral processing in the process of dispersing reagents before entering them into a technological process, for example flotation.

A device for aerosol supply of flotation reagents, comprising a housing with a mixing. chamber, diffuser inserts in which toroidal chambers are made, and reagent and air supply pipes Ш * ·

The disadvantages of this device are its significant metal consumption and design complexity.

The closest to the proposed technical essence and the achieved result is a device for aerosol fluid supply, mainly flotation reagent, containing a housing with a displacement chamber, nozzle inserts and vortex chambers, a fluid supply pipe with ejectors and an air supply pipe covering it [2].

A disadvantage of known devices is the high content (up to ³⁰ May 50%) of reagent droplets size to 4 microns to form an aerosol, which is not technologically feasible, since the most optimum size provided effective management of about ¹⁰ cession drops should be of size 4-20 .mu.m. It is not possible to eliminate this drawback by adjusting or selecting the optimal mode on known devices, for ¹⁵ since particles up to 4 microns in size are instantly ejected from the device into the medium being processed, for example, flotation pulp.

The purpose of the invention is to increase the uniformity of the aerosol due to electrocoagulation of its finely divided part,

The goal is achieved by that. What is a device for aerosol supply of liquid, mainly flotation reagent, containing a housing with a mixing chamber, nozzle deposits, chambers and vortex chambers, a fluid supply pipe with ejectors and an air supply pipe covering it, equipped with two corona electrodes of opposite polarity located along the walls of each vortex chambers opposite each other, and additional plate electrodes mounted along the axis of each vortex chamber.

The drawing shows a diagram of the device.

A device for aerosol fluid supply (flotation reagent) contains a housing 1 with a mixing chamber 2 and vortex chambers 3 (one of them is not shown). For example, nozzle inserts 5 (one of them not shown), each of which has an axial cylindrical channel 6 with conical inlets 7 and mounted, are mounted in the housing 1, for example, by means of multi-threaded threads 4. weekend 8 plots.

The apparatus comprises a supply pipe 9 with a reagent ejectors 10 and covering it, the air supply pipe 11 communicating with the chamber 2 smete- Nia ₃₀ through openings 12 formed in the housing 1.

In each vortex chamber 3 along the walls two corona electrodes 13 and 14 of opposite polarity are mounted opposite each other, having corona projections 15 and 16 of a needle shape.

On the axis of each vortex chamber 3 additional plate electrodes 17 are mounted with a gap to each other in the direction of supply of the aerosol mixture, connected to the middle point of the voltage source 18.

The device operates as follows.

Compressed air enters through the nozzle 11, which passes through the openings 12 of the housing 1 into the mixing chamber 2. At this time, a reagent is supplied through the nozzle 9, which is mixed in the chamber 2 with air, forming an aerosol mixture, which is then sent through the inlet section 7 to the cylindrical channel 6 of the nozzle insert 5 and exits to the swirling outlet section 8 into the vortex chamber 3. In the vortex chamber 3, the aerosol mixture passes between the electrodes 13, 14 and 17 ·. In the areas between the corona protrusions 15 ', the aerosol particles receive a charge opposite in sign to the particles moving in the regions of the corona protrusions 16. The charged aerosol particles of both signs under the influence of the electric field of the electrodes during the movement of the aerosol mixture are mixed and displaced to additional plate electrodes 17, as a result which creates a zone of increased density of oppositely charged particles in the central part of the vortex chamber and partially coagulates them. The direct approach of bipolarly charged aerosols occurs at the points of their transition of the boundary line in the gaps between the additional plate electrodes 17 ...

Zong The increased density of bipolar charged aerosols is stable, since when the boundary line is crossed, the aerosols are recharged and the backward motion under the action of electric field forces. Coagulated droplets of aerosols leave the vortex chamber 3 and are sent directly to the medium being processed, for example, flotation pulp.

As shown by experimental studies, the device provides the ability to significantly reduce the yield of aerosols with a particle size of up to 4 microns and increase the yield of a mixture with a particle size above 4 microns.

Using the proposed device for aerosol supply of reagents provides the possibility of the formation of an aerosol mixture with a given size of droplets of reagent, which can then be effectively used in the flotation process.

The device is easy to maintain, can be easily manufactured and implemented in processing plants and in technological schemes of many coal, chemical and non-ferrous metallurgy industries.

Claims (1)

Claim A device for aerosol fluid supply, mainly flotation reagent, comprising a housing with a mixing chamber, nozzle inserts and vortex chambers, pipe 5 914096 liquid supply with ejectors and an air supply pipe covering it, characterized in that, in order to increase the aerosol uniformity due to electrocoagulation of its finely dispersed part, it is equipped with two corona electrodes of opposite polarity located along the walls of each vortex chamber opposite each other , and additional ¹⁰ plate electrodes mounted along the axis of each vortex chamber.