SU1421407A1 - Electric magnetic hydrocyclone - Google Patents

Abstract

SUBSTANCE: invention relates to ferrous metallurgy, can be used at concentrating factories processing magnetite ores, in technological processes of purification of waste water and gases of metallurgical industries containing ferromagnetic particles, and allows increasing the efficiency of the process of thickening and extracting magnetic material into a condensed product by creating the volume of the body of a hydrocyclone of electromagnetic forces causing directional movement of ferromagnetic particles toward

Description

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The invention relates to ferrous metallurgy and can be used at concentrating plants processing magnetite ores, in technological processes for purifying waste water and gases of metallurgical industries containing ferromagnetic particles.

The aim of the invention is to increase the efficiency of the process of condensing and extracting magnetic material into a condensed product by creating an electromution force in the body of the hydrocyclone body, which causes the excessive movement of ferromagnetic particles towards the sand nozzle,

Fig, 1 shows the proposed device of the electromagnetic hydrocyclone, option, longitudinal section; Fig 2 is the same, top view; Fig, 3 - the same, bottom view,

Electromagnetic hydrocyclone includes a case consisting of cylindrical short and 1 conical 2 parts, a pipe for supplying power 3, removing drain 4 and sand 5, an electromagnetic system consisting of linear inductors 6 and 7 of a running magnetic field located along the perimeter of the case with offset along a helical descending line, having a slope of 0.5-9, with respect to the flow axis of the material entering the hydrocyclone from the supply nozzle 3, the first linear

the inductor 6 is in the power supply area behind the supply nozzle 3, the magnetic flux concentrator 8 installed on the outside of the drain nozzle 4, the linear inductors 6 and 7 of the traveling magnetic field consist of a magnetic conductor 9 with transverse grooves in which the electromagnetic winding 10 is laid, fed alternating three-phase current and made in the form of individual annular coils.

Electromagnetic hydrocyclone works as follows.

The electromagnetic system 6 and 7 in the volume of the cylindrical and conical parts of the body and on the surface of the walls creates a traveling magnetic field that has a higher voltage in the power supply zone 1 1 as a result of the magnetic field of the linear inductor 6 interacting with the magnetic flux concentrator 8 and on the conical part 2 of the housing at the point where the magnetic cores of the 9 inductors 9 are located in the zone 12 of the sand discharge. The running magnetic field moves in the direction of forming a cylindrical 1 and a conical 2 body parts towards the discharge nozzle 4, the ferromagnetic particles, interacting with it, begin to rotate and move along the walls towards the sand nozzle 5,

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The source material is fed by the supply nozzle 3 tangentially to the cylindrical part 1 of the housing, enters the space bounded by the magnetic flux concentrator 8 and the cylindrical part 1 with the linear inductor 6 located behind it into the area 11 of the action of the traveling magnetic field of increased tension and receives rotational motion with a high angular velocity. At the same time, the solid particles are acted on by centrifugal forces, displacing them to the periphery of the hydrocycling, and on ferromagnetic particles - by centrifugal and electromagnetic forces, causing the formation of rotating magnetic flocks, attracting and increasing their radial velocity in the direction of the wall of the cylindrical part 1, causing the magnetic material to move along the wall towards the sand connector 5. As the material moves further along the electromagnetic system, placed along a screw downward line having an inclination angle of 0.5-9.5 with respect to the axis of the flow of material entering the hydrocyclone, the magnetic part of the material is twisted and shifted in this direction as the current progresses The process of extracting magnetic particles into a peripheral vortex flow of condensed material, which, rotating at a high angular velocity, spirals down the walls of the cylindrical and conical parts 1 and 2 and is discharged through the sand nozzle 5. the content of magnetic particles, discharging through the discharge nozzle-4. Along the axis of the conical part 2 of the housing, the electromagnetic system creates a non-uniform magnetic field, which has a maximum p extent with zone 12, contributes .chto extraction of magnetic particles in a sand fraction and prevents the output of the magnetic material in the drain,

The proposed design of the electromagnetic system of a hydrocyclone due to the increase in the radial velocity of the magnetic particles to the walls, the displacement of the magnetic material along

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walls in the direction of the sand outlet 5, additional swirling of the flux of magnetic particles along a helical descending trajectory with an angle

slope of 0.5–9.5 ° relative to the axis of the flow of material entering the hydrocyclone, as well as exposure to a traveling magnetic field

strength in the initial and final phases of separation, allows to increase the efficiency of the process of condensation and extraction of magnetic material in the condensed product.

Analysis of the results of experimental tests is given in the table.

A hydrocyclone with a diameter of 125 mm was used with a taper angle of 10 with a 8 mm sand piping. The pressure of the initial suspension at the inlet was 1.9-10 -2-10 Pa.

Analysis of the results of experimental tests shows that the proposed electromagnetic hydrocyclone, as compared with the base object, allows increasing the yield of solids in a condensed product by 4.2% (from 91.9 to 96.1%), extraction of iron into a condensed product by 5 ± 1% (from 92.5 to 97.6%) and increase the iron content in the sands by 0.6% (from 63.5 to 64.1%).

Claims (1)

Invention Formula five Electromagnetic hydrocyclone, including a cylindrical housing with an electromagnetic system, power supply nozzles and removal of separation products, a magnetic flux concentrator installed on the outside of the drain nozzle, characterized in that, in order to increase the efficiency of the thickening process and extract the magnetic material into a condensed product, the electromagnetic system made of separate linear inductors with transverse grooves for the winding, installed along the displaced axially along a helical descending line with a slope of 0.5-9.5 ° relative to the axis of the inlet nozzle, the first linear inductor mounted directly behind the supply nozzle in the course of the power supply. five 0 6 Schi g Fig.z