SU1298399A1 - Foam generator - Google Patents

Abstract

The invention relates to the mining industry and m. used to combat dust in mining and processing of minerals. The purpose of the invention is to increase the efficiency of dust suppression by increasing the degree of electrification of the foam and preventing leakage of electric charge from the surface of the foam. The foam generator comprises a housing 1 of a dielectric material with an air-conducting 2 and a solution-conducting 4 channels. An air flow solution is supplied to the foaming mesh 6. After the mesh 6, a system of electrifying plates 7 is located along the froth flow. They are rigidly fixed in the housing 1 and oriented perpendicular to the outer surface of the mesh 6. The plates 7 are made of electrically conductive material, interconnected and covered with a dielectric layer. When electric potential is applied to plates 7 from a high voltage source 9 of constant voltage, surface polarization charges appear on the surface of the dielectric layer. The foam flow is in contact with the charged surface of the plates 7 and the electrical charge is transmitted to the foam itself. This leads to an increase in its electric charge. 1 hp f-ly ,. 2 of FIG. (L | CX) with

Description

The invention relates to the mining industry and can be used to control dust in the mining and processing of minerals.

The purpose of the invention is to increase the efficiency of dust suppression by increasing the degree of electrification of the foam and preventing leakage of electric charge from the surface of the foam.

FIG. 1 shows a schematic diagram of a foam generator; in fig. 2 shows section A-A in FIG. one.

The foam generator consists of a housing 1, an air duct 2 with openings 3, a mortar channel 4 equipped with nozzles 5, foaming grids 6, a system of electrifying plates 7 located perpendicular to the outer surface of the foaming grids 6, while the plates 7 are made of electrically conductive material, interconnected, covered by a high-voltage dielectric layer 8 and rigidly fixed in the body 1 of the foam generator. The plates 7 are covered with a high-voltage dielectric layer 8 and connected to one of the high voltage foam clamps in contact with the charged surface of the electrifying plates and the electric charge from the surface is transmitted directly to the foam itself, which leads to an increase in the electric charge of the foam more than by electrifying the foam through spray foaming solution. Also, due to the isolation of the electrifying plates and the supply of the potential of one polarity to them, there is no crown field. Therefore, the value of the total charge of the foam is, on average, an order of magnitude higher than the charge of the foam obtained through the electrification of the foaming agent solution.

The value of the total charge of the foam in this case is proportional to the value of the applied potential, and the foam acquires a charge of the same sign as the potential of the electrifying plates. To prevent electrical leakage from the surface of the foam, the body of the foam generator is made of a dielectric material.

Claims (2)

1. Foamer, including a housing with air and solution supply channels. Whose source is 9 constant voltage. 25 foaming mesh and electrifying The foam generator works as follows. The compressed air enters the foaming generator through the openings 3 of the air supply duct 2. The foaming agent solution is supplied through the solution supply duct 4 30 to the nozzles 5 and is directed by air flow to the foaming grids 6. The foam formed on the grid passes between the system of electrifying plates 7 located perpendicular to the outer surface of the foaming grids. When the potential is applied to electrifying plates, surface polarization electric charges appear on the surface of the dielectric layer. Since the electrifying plates are perpendicular to the outer surface of the foaming grids, it is formed on the grid by PA-A 35 Plates, characterized in that, in order to increase the dust suppression efficiency by increasing the degree of electrification of the foam, the electrifying plates are made of an electrically conductive material, interconnected and covered with a dielectric layer, while they are rigidly fixed in the foam-foam body after the foaming mesh along the foam flow and oriented perpendicular to its surface, and the foam generator is equipped with a high voltage source of constant voltage, to one of the terminals of which are connected plates. 2. The foam generator according to claim 1, characterized in that, in order to prevent electric charge from leaking from the surface of the foam, the body of the foam generator is made of a dielectric material. the foam current is in contact with the charged surface of the electrifying plates and the electrical charge from the surface is transmitted directly to the foam itself, which leads to an increase in the electrical charge of the foam to a greater extent than when electrifying the foam through a sprayed solution of the foaming agent. Also, due to the isolation of the electrifying plates and the supply of the potential of one polarity to them, there is no crown field. Therefore, the value of the total charge of the foam is, on average, an order of magnitude higher than the charge of the foam obtained through the electrification of the foaming agent solution. The value of the total charge of the foam in this case is proportional to the value of the applied potential, and the foam acquires a charge of the same sign as the potential of the electrifying plates. To prevent electrical leakage from the surface of the foam, the body of the foam generator is made of a dielectric material. Invention Formula 1. Foamer, including a housing with air and solution supply channels. Plates, characterized in that, in order to increase the dust suppression efficiency by increasing the degree of electrification of the foam, the electrifying plates are made of an electrically conductive material, interconnected and covered with a dielectric layer, while they are rigidly fixed in the foam-foam body after the foaming mesh along the foam flow and oriented perpendicular to its surface, and the foam generator is equipped with a high voltage source of constant voltage, to one of the terminals of which are connected plates. 2. The foam generator according to claim 1, characterized in that, in order to prevent electric charge from leaking from the surface of the foam, the body of the foam generator is made of a dielectric material.