SU1660758A1 - Hydrocyclone - Google Patents

Abstract

This invention relates to a slurry separation technique and allows for improved separation efficiency. The hydrocyclone consists of a cylindrical housing (K) 1, a tangential inlet (VP) 4 to supply the initial suspension for separation, a slurry nozzle 3 for withdrawing the concentrated suspension, a tangential nozzle 5 for withdrawing the intermediate product located on box 6, having a cone shape and installed rotatably around the axis K 1. The lid 8 is equipped with a drain pipe 2 for draining the clarified suspension and an additional socket (DP) 7 for draining the suspension from the stagnant zone above the VP 4. DP 7 is located in front of VP 4, tilted in its direction and connected to the cavity K 1 through a slit opening with a longitudinal axis radially. 2 Il.

Description

The invention relates to the technique of separation of inhomogeneous liquid media, in particular to devices for separating suspensions in the field of centrifugal forces, and can be used in the chemical industry in wastewater treatment.

The purpose of the invention is to increase the efficiency of separation.

FIG. 1 shows a hydrocyclone, a general view; in fig. 2 shows section A-A in FIG. one.

The hydrocyclone consists of a cylindrical housing 1 with a drain pipe 2 for removal of the clarified suspension, a slurry pipe 3 for removal of the concentrated suspension, a tangential inlet pipe 4 for supplying the initial suspension, a tangential pipe 5 for exhaust of the intermediate product located on insert b, having a truncated cone shape and located on the housing for rotation around an axis. The tangential nozzle 5 is mounted on the insert 6 so that the angle between it and the central axis can vary depending on the required quality of the intermediate product.

The additional pipe 7 is fixed on the cover 8, under which the gasket 9 is located, which is screwed by the nut 10. Similar nuts 11 also tighten the insert 6 with the housing 1. The additional pipe 7 is located in front of the inlet pipe 4, tilted in its direction and connected to the cavity of the body through slot hole 12 with a longitudinal axis located along the radius of the cover.

Hydrocyclone works as follows.

The initial suspension under pressure through a tangential inlet 4 is fed into the body of the hydrocyclone 1, where it acquires a rotational-translational motion and is subjected to centrifugal forces. Two streams are formed: descending and ascending. The downward flow path of the suspension is a volumetric multi-turn helix, at which the downward flow density of the suspension is not uniform, with the smallest between turns of the flow path and the greatest displacement from the center of the coil to the periphery of the trajectory. particles along a spiral shaped trajectory move in flow to the walls of the body.

When the suspension is thickened, the conical insert 6 with the nozzle 5 of the intermediate product outlet is rotated around the central axis until it intersects with

part of the stream having the lowest density. At the moment when the suspension with the lowest density starts to separate out of the nozzle 5, the insert b is attached to the housing 1 by means of

cap nut 11. When the suspension is thickened, due to the fact that a suspension having the lowest density is discharged into the pipe 5, a suspension with a higher density enters the slurry pipe 3, i.e. its concentration increases.

From the inlet 4 to the hydrocyclone body 1, not all the suspension begins to spiral, part of it goes under the lid, where a stagnant zone is created,

which is continuously fed with new portions of the suspension.

From the stagnant zone, the suspension enters the discharge pipe 2 and into the downward flow, thereby deteriorating the quality of the separation

suspensions.

During the operation of a hydrocyclone, the suspension from the stagnant zone, as it enters, will be diverted through an additional pipe 7 into the tank of the initial suspension and then

flow through the inlet 4 for treatment in a hydrocyclone. Due to the fact that the additional nozzle 7 is inclined towards the inlet nozzle, the suspension leaves the stagnant zone smoothly, undesirable accumulations are not created before entering the nozzle 4. The location of the slot 12 is such that its longitudinal axis is located along the lid radius, provides in the process

hydrocyclone is almost complete elimination of the stagnant zone, since the additional nozzle is in the way of the flow.

Claims (1)

Invention Formula A hydrocyclone containing a cylindrical conical body with a lid, a tangential inlet, a drain and sludge nozzle, an additional nozzle installed on the cover and connected to the body cavity through an opening in the cover, characterized by the fact that an additional nozzle located in front of the inlet and installed with a slope in his direction, and the hole in the lid is made slit with a longitudinal axis located along the radius of the lid. eight P FIG. 2