SU1000114A1 - Hydraulic cyclone plant - Google Patents

Description

This invention relates to a device for separating suspensions in a centrifugal field and can be used in the chemical, ore dressing, wheat, oil refining and other industries.

A known design of a hydrocyclone includes a cylindrical body with a tangential supply nozzle, a chamber for withdrawing a condensed product and devices 9 for withdrawing a clarified product.

The initial suspension is fed tangentially into the body of the hydroclone and twists, moving along a helical path to the lower part of the body. Due to the action of centrifugal inertial forces, the solid and liquid phases are separated. Output products; The separation is performed through discharge ports at the bottom of the apparatus. The upward suspension flow in this hydrocyclone design is missing 1.

The disadvantages of this apparatus are the increased entrainment of the solid phase by the clarified stream due to the location of the discharge device near; the zone of maximum concentration of the suspension

in the lower part of the cone, as well as the inability to adjust the ratio of the volumes of clarified and condensed products.

Closest to the proposed technical essence and the achieved result is an installation containing a cylindrical body with a tangential inlet pipe, a branch pipe for discharging the condensed fraction and a device for discharging light. lennofraction installed with the possibility of axial movement.

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A disadvantage of the known installation is the low efficiency of the clarification of suspensions.

The purpose of the invention is to increase the effectiveness of the clarification of suspensions.

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Claims (2)

The goal is achieved by the fact that the installation containing a cylindrical housing with a tangential inlet pipe, a condensed fraction withdrawal pipe and a device of 25 clarified fractions mounted axially, is equipped with a condensed product withdrawal chamber, in which the clarified fraction drain device is updated, made in the form of a cylindrical conical hydrocyclone located at the top. The drawing shows the installation, general view. The installation includes a cylindrical cone 1 with a tangential c) joint pipe 2, a chamber 3 for discharging a condensed product and a device for discharging a clarified product, which is a cylindrical conical hydrocyclone 4 with a branch pipe 5 for discharging the final clarified product and an outlet for outputting between the exact condensed product. An elastic gasket 7 allows for axial movement of the device for removing the clarified product of a cylindrical hydrocyclone 4j, in order to adjust the size of the annular channel without leakage of the condensed product. The hydrocyclone 4 is mounted with its top upwards with the possibility of axial movement relative to the chamber 3 of withdrawing the condensed product. The initial suspension under pressure is fed through the inlet pipe 2 into the cylindrical body 1, twists and moves to the bottom of the cone. Under the action of centrifugal forces of inertia, the particles of the solid phase are thrown away to the wall of the apparatus and move along it to the chamber 3 of the discharge of the condensed product, which is located in the lower, narrowest part of the body 1, where the values of the tangential velocity of the suspension and the centrifugal separation factor are maximum, i.e. The chamber 3 of the condensed product outlet is located in the zone of the greatest separation separation efficiency. The formation of the wall layer of the condensed product is removed through the annular channel between the wall of the installation housing 1 and the wall of the cylindroconical hydrocyclone 4. The clarified slurry stream is led through a hole at the apex of the cylindroconical hydrocyclone 4, where the secondary clearing process takes place. The nozzle 5 of the outlet of the conical clarified product is located in the lower cylindrical zones of the hydraulic cylinder 4, in its widest part and at the greatest elongation from the ST nok apparatus a. Due to the separation process occurring in the hydrocyclone 4, the particles of the solid phase also move to its wall and are removed through the b branch pipe of the intermediate condensed product withdrawal. Thus, the advantages of the device proposed are as follows. The selection of the condensed product occurs in the zone of the highest concentration of the suspension, and the final clarified product in the zone furthest from the path of movement of the particles of the solid phase. The possibility of axial movement of the cylindrical hydrocyclone 4 allows adjustment of the area of the annular azzor between the housing 1 and the hydrocyclone 4 and, consequently, the ratio of the flow between the chamber 3 of the condensed product and the discharge devices 5 and 6. The proposed invention exceeds by 2-10% the efficiency of clarification of a known installation. The invention of the Hydrocyclone is an installation comprising a cylindrical housing with a tangential inlet nozzle, a nozzle of the thickened fraction and a clarified drainage device, the fraction installed with the possibility of axial movement, so as to increase the effectiveness of clarifying suspensions It is equipped with a chamber for discharging a condensed product, in which a device for discharging wastes of a breeze fraction is installed, made in the form of a cylindroconical hydrocyclone located at the top. Sources of information taken into account during the examination 1. USSR author's certificate No. 390838, cl. B 03 B 5/34, 1972. 2. Authors certificate of the USSR 444560, cl. B 04 C 3/00, 1972.