SU899149A2 - Hydraulic cyclone - Google Patents

Description

The invention relates to devices for the continuous separation of pulp under the action of centrifugal forces, and can be used in hydraulic engineering, at concentrating plants in the chemical and other industries.

According to the main author. St. No. 709181 is known a hydrocyclone consisting of a cylindrical inclined mounted body, a tangential inlet nozzle, a round drain nozzle and a nozzle for withdrawing sludge in which to improve the hydrocyclone performance by improving the hydrodynamic mode of the pulp flow, the body has an ovoid shape in cross section, the smaller radius of which is located in the upper part of the housing 11.

A disadvantage of the known hydrocyclone is that the execution of a round shaped discharge nozzle in a cross section entails a disturbance of the internal current in the hydrocyclone, increases resistance since the flow moving in the hydrocyclone has an ovoid shape, and when conjugating it to a round drain the pipe occurs irrational losses of the cleaned internal load, which does not get into the drain, and change the flow turbulization.

The purpose of the invention is to intensify the process of clarification and increase the productivity of oblique ovoidal hydrocyclones due to the improvement in their hydrodynamic flow regime. ka pulp.

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The goal is achieved by the fact that in the hydrocyclone the discharge nozzle is made in the cross section of the ovoid shape, with a smaller ovoid radius located in the upper

15 parts of a hydrocyclone.

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

Hydrocyclone consists of ovoid

20 of the housing 1, the tangentially mounted nozzle for the entrance of the pulp 2, the ovoidal nozzle for the release of the clarified liquid 3 and the slurry holes 4.

25

Hydrocyclone works as follows.

The initial separation product is fed by means of a pump or self-pressure into the ovoid hydrocyclone.

30 Here under the action of centrifugal forces.

separation takes place: a heavier fraction is pressed against the wall of the hydrocyclone and under the influence of an external flow enters the sands, the lighter fraction, with an internal flow, will rise up and out into the drain. Since the body of the hydrocyclone has an ovoid shape, both the external and internal flow repeat this form and the manufacture of the discharge nozzle also of the ovoid shape will contribute to the laminarization of the total current and the high quality hydrocyclone operation.

The proposed hydrocyclone is simple in design and allows to significantly improve the hydrodynamic regime of the flow and particles moving in it. The manufacture of the ovoid shaped drain connection will allow not only to reduce the internal resistance, but also to increase the area compared to the circular cross-section by 1.5 times, thereby intensifying

the clarification process and the productivity of the ovodial hydro cyclone will increase.

Claims (1)

1. USSR author's certificate No. 709181, cl. B 04 C 5/103, 1977.