SU1131541A2 - Floatation hydraulic cyclone - Google Patents

Abstract

HYDROCYCLONE-FLOTATOR on author. St. No. 973174, characterized in that, in order to increase durability during its operation, it is equipped with a suction tube, through which the electrolysis chamber is connected to an ejector placed in the upper part of a cylindrical chamber equipped with a protective ring. (L cond

Description

The invention relates to a device for the separation of suspensions, emulsions and mixtures thereof and can be used in the mining, chemical, food industry and utilities.

According to the main author. St. No. 973174 is known for a hydrocyclone-flotator having a cylindrical conical body with a tangential inlet nozzle, a cylindrical chamber with a tangentially tapering nozzle, which is coaxial with the inlet nozzle and forms an ejector with it, is electrically isolated from the body. The body and the cyclone chamber are connected to an electric current source. The hydrocyclone has a prefabricated chute with a pipe for draining foam and a pipe for draining clarified liquid and sludge [1] The disadvantages of this design are the inconvenience of replacing the replaceable part of the cylindrical chamber, the electrochemical dissolution of the inlet part of the ejector, the asymmetric outlet of the pipe for draining the clarified liquid.

The purpose of the invention is to increase durability while simplifying its operation.

This goal is achieved in that the hydrocyclone-flotator is equipped with a suction tube, through which the electrolysis chamber is connected to an ejector located in the upper part of the cylindrical chamber, equipped with a protective ring.

The drawing shows a hydrocyclone floater, section.

The hydrocyclone has a cylindrical conical body 1, to which a cylindrical chamber 2, electrically isolated from the body _{35, is} attached to the upper part and has a prefabricated annular groove 3 with a pipe for removing foam in the upper part. The chamber 2 has a removable lower cylindrical part 4 (anode) of the same diameter as the chamber 2. The clarified liquid is supplied ⁴⁰ through the inlet tangential nozzle 5 and through the ejector 6, which is fixed tangentially outside the chamber 2. The ejector 6 is connected to the electrolysis chamber by a suction tube 7 formed by the walls of the housing ₄₅ 1 and the cylindrical part 4. A pipe 8 is located along the cyclone axis to discharge the clarified liquid. In the lower part of the cone is a sludge trap 9 with a tube 10 for discharging sludge. The hydrocyclone is connected to a source of electric current 50 11. In the upper part of the chamber 2 has a protective ring 12.

Hydrocyclone-flotator works as follows.

The suspension or emulsion to be separated or their mixture is supplied by the inlet pipe 5 through the ejector 6 tangentially VNIIPI Order 9322/3 Patent Production Center Branch, g into chamber 2, while under the action of centrifugal forces, the suspensions or emulsions are separated. Dense particles are thrown onto the walls of chamber 2 and cylinder _{5 of the} cylindrical part 4 and slide down them into the conical part, while the light particles are concentrated along the cyclone axis and float up. To increase the separation effect in a cyclone, electrolysis of a liquid is used. For this, the cyclone body is connected ¹⁰ to the negative, and the chamber 2 with the cylindrical part 4 to the positive terminal of the electric current source 11, while in the annular space between the body 1 and the cylindrical part 4, electrolysis of the liquid occurs, accompanied by the formation of metal hydroxide and hydrogen evolution. The evolved gases during electrolysis ejector 6 are sucked through the tube 7 and together with the treated liquid fed to a hydrocyclone, where the surfacing ^20, have a floating action. The replaceable cylindrical part 4 can be made of any electrochemically soluble metal, but for economic reasons it is recommended to fabricate it from low-grade mild steel of the type St.0 — St. 1. In this case, iron hydroxide is formed, which is a good coagulant. Particles of metal hydroxide fall down outside the removable cylindrical part 4, and particles of suspension on the inner wall. At the lower edge of the replaceable cylindrical part 4, these flows occur, and particles coagulate, which settle in the form of sludge and enter through the openings in the conical part. 9 into the sludge collector, from where they are continuously or periodically removed through the tube 10. Flotation products as the chamber overflows and under the action centrifugal forces enter the collection chute 3 and are removed from it through the pipe 13. In order to avoid overflow of liquid over the edge of the chamber 2, the latter is equipped with a protective ring 12, which allows the use of a hydrocyclone with a variable load. The clarified liquid is discharged by gravity through the pipe 8.

The proposed hydrocyclone-flotator has increased separation efficiency of multiphase media, since the separation of light fractions in it is enhanced by flotation, and heavy fractions by coagulation, both processes occur in different zones of the cyclone, which eliminates oncoming flows. In addition, the hydrocyclone has a higher efficiency since all electrolysis products are used in it to increase its efficiency, the ejector durability is also increased, and its operating conditions are improved. The hydrocyclone is easy to manufacture and operate.

Circulation 550 Subscription Uzhhorod, vul. Project, 4

Claims (1)

HYDROCYCLONE-FLOTATOR by author. St. No. 973174, characterized in that, in order to increase durability while simplifying its operation, it is equipped with a suction tube through which the electrolysis chamber is connected to an ejector located in the upper part of the cylindrical chamber, equipped with a protective ring. P SU „, .1131541