SU1243830A1 - Hydraulic cyclone - Google Patents

Description

2. A hydrocyclone according to claim 1, characterized in that, in order to increase reliability and simplify

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hydrocyclone, tokovodov v.p1enneny in the form of a hexagon.

The invention relates to a fluid cleaning technique, in particular to devices for separating a suspension in a centrifugal field, and can be used in the chemical, construction, mining industry and in the public sector.

The purpose of the invention is to reduce energy costs for heating the fluid and increase the efficiency of work. . FIG. 1 shows a hydrocyclone, a general view; in fig. 2 is a section A-A in FIG. one.

A hydrocyclone contains a kryppka 1 with a tangential inlet nozzle 2 and a flange 3. The cylindrical part of the hydrocyclone body is made in-set and consists of electrically conductive rings 4 and insulating ring gasket 5. At the bottom, the hydrocyclone has a cone 6 with a flange 7 and a slurry pipe 8. Krippka, cone and the set of rings are tightened between each other by the studs 9, and between the set and the flush holes, the gaskets 10 are sealed for sealing and electrical insulation.

Electrically conductive rings have a circular cut-out, and gaskets have two of the same diametrically opposed opposites. Rings are packaged in a package so that even rings have a cutout located, for example, to the left, and odd ones to the right. The hydrocyclone is connected to the current source by means of two current leads 11, having a polyhedron in cross section, located in insulating sleeves 12 between the flanges. The right current lead is shown in the connected state, with its edge touching only even rings, and the other conductor similarly touching only odd rings. The otvrd clarified liquid is carried out through a coaxially located nozzle 13.

The hydrocyclone works as follows.

The suspension to be separated is supplied to the hydrocyclone through nozzle 2. Due to the rotation of the liquid in the case of the hydrocyclone, the suspension is separated in the field of centrifugal forces, and the suspension particles with a density greater than the liquid density are thrown onto the walls of the cylindrical chamber and rotate into the conical part 6, from where they are removed through the nozzle 8. The clarified liquid is discharged from the central part of the hydrocyclone through the nozzle 13. To connect the hydrocyclone to the current source, the current lead 11 with a nut th key rotated to secure the ribs of tangency to the rings 4 and themselves tokoprovo- .dy with clamps or other devices are coupled to a current source. Both constant and alternating current with a voltage of 1-3 V or less are suitable for power supply. On the inner annular surface of the adjacent rings 4, electrolysis of the fluid occurs, accompanied by. emitting gases (mainly

hydrogen) Since the distance between adjacent rings 4 is equal to the thickness of the pro-, cladding 5, the power consumption for:. ohmic heating fluid is minimal. In addition, an increase in the separation factor occurs due to an increase in the angular velocity of rotation of the fluid flow in the cylindrical part of the hydrocyclone body, which is caused by the presence of a gas interlayer separating the liquid from the solid walls and reducing the hydraulic resistance of the hydrocyclone. All this. increases the operating efficiency of a hydrocyclone, either by reducing the required pressure of the fluid before the hydrocyclone, or by increasing its performance ceteris paribus.

cpus.2

Claims (2)

1. A HYDROCYCLONE, containing _t cylindrical housing with a tangential inlet, drain and slurry nozzles, current leads connected to a current source, characterized in that, in order to reduce energy consumption, the cylindrical part of the housing is made of electrically conductive rings with a cutout on the outer surface and insulating ring gaskets between the rings, while the cutouts on the even and odd rings are offset one from another and are located against the current leads, isol. isolated from the housing. fmg / SU ,,, 1243830 .1 2438 30 2. Hydrocyclone according to π. 1, from l and - hydrocyclone, current leads are made in that, with the aim of looking like a hexagon. increase reliability and simplify 1 ~~