SU971492A1 - Hydrocyclone - Google Patents

Description

(54) SHDROCYCLONE

one

The invention relates to devices for carrying out the processes of separating pulps, suspensions and unmixing liquids in a centrifugal field and can be used in chemical, petrochemical, mining, coal, cement, pulp and paper production and other branches of the national economy.

Known hydrocyclone, including a cylindrical housing with a tangential inlet nozzle and nozzles to drain the clarified and thickened fractions, a control valve in the form of a rubber cuff mounted on the nozzle to drain the thickened fraction 1.

The disadvantage of this hydrocyclone is the impossibility of making adjustments to the clarified product, which largely affects the quality indicators of separation and contributes to undesirable carry-over of the solid phase from the apparatus during the clarification of suspensions.

Also known is a hydrocyclone, which includes a cylindrical body with a tangential inlet, a nozzle for removal of separated fractions and a rod equipped with a needle valve and co. reciprocating vertically 2J.

The disadvantage of such a hydro cyclone is that the installation of a control valve on only one discharge port does not allow obtaining the required solid content simultaneously in the clarified and thickened separation products, while the composition and quality of the section 15 is adjusted solely by moving rod with a needle valve.

The closest in technical essence and the achieved result to

Claims (3)

20, the proposed hydrocyclone is a hydrocyclone comprising a cylindrical body with a tangential inlet, drain and Peskov branch pipes, located along the axis of the body a hollow rod with regulating valves installed with axial displacement f 3 the body of the apparatus, where due to the action of the centrifugal forces of inertia, it is divided into a clarified and condensed fraction. The separation products are withdrawn from the hydrocyclone through discharge pipes. The solids content in the clarified and condensed streams is regulated by moving the control valves rigidly mounted on the rod, along the OCJI apparatus. At the same time, the annular sections of the discharge openings for removing the clarified and condensed fractions simultaneously change, which leads to a redistribution of the outflows and a change in the solid content of the material while maintaining the total hydrocyclone performance unchanged. The disadvantage of this hydro cyclone is the impossibility of individual adjustment of the cross sectional area of the annular slots of the discharge openings. In addition, in such a hydrocyclone, nel1) 3, self-regulate the process of separating the presence of rigid valves that impede the internal redistribution of the solid phase material in the clarified and condensed products, which limits the possibility of obtaining products of a given composition and quality. Changing the ratio of the areas of the discharge openings in a wider range requires disassembling the hydrocyclone to install the valves in a certain position. The aim of the invention is to improve the efficiency of the separation due to the implementation of the self-regulation of the separation process by valves. The goal is achieved by the fact that in a hydrocyclone containing a cylindrical body with a tangential inlet, drain and Peskov nozzles, a hollow rod c is located along the body axis. Adjustable with valves that are installed with the possibility of axial displacement, the valves are made in the form of elastic annular shells installed on the outer surface of a hollow brush having a slot, and the hydrocyclone is equipped with a SINGLE SHIP of inert incompressible fluid that is connected to a hollow rod. cjniBHoro flow sections and sand nipples. ps supplying stock with dividing partition. FIG. 1 shows a general view of the hydrocyclone on ftp. 2 shows an embodiment of self-regulating flexible valves. The hydrocyclone consists of a tire-shaped housing 1 with a cover 2, a tangential inlet 3, a drain 4 and a sand 5 nozzle, a receiving chamber 6 of the condensed product, a hollow rod 7 with slots 8 and elastic ring shells 9 fixed to this rod with clamps 10. The rod 7 can to be provided with a partition wall 11, which provides individual adjustment of the cross-sectional areas of the passage openings for removal of separation products, as well as a drop-shaped elastic sheath 12 for self-regulation of the separation process. This rod, together with the elastic shells 9 and 12, has the ability to reciprocate: obtuse movement along the axis of the housing 1. The hydrocyclone works as follows. Separated suspension under pressure is fed into the housing 1 through a pipe, 3, located under the hood 2. Due to the centrifugal inertia forces, heavy particles are released from the flow, which move along the spiral trajectory to the walls of the housing 1 and then move down to the chamber 6 enters it through an annular gap formed by the walls of the housing 1 in the lower part of the cone and the shell 9 attached to the brush 7 by clamps 10, ensuring the tightness of the connection. Next, the condensed product is withdrawn from chamber 6 through nozzle 5. A stream of clarified liquid with an insignificant content of solid phase moves into the central zone of the hydro cyclone and is withdrawn from it through nozzle 4. After passing through the annular gap between the walls of this nozzle and upper sheath 9. Stem 7 has slots 8 in places where shells are installed 9. Adjustment of separation indices is carried out by supplying inert incompressible fluid to the internal cavity of rod 7. If the supply pressure of this fluid exceeds the pressure in the housing of the hydraulic slope, the shells 9 are expanded, reducing the area of the annular flow sections for removal of separation products, as shown in FIG. 1 and 2. The pressure of the inert fluid in the rod 7, less than the working pressure in the hydrocyclone, causes a reduction in the shells 9, which is (for example, an increase in the flow cross sections of the discharge openings, and a trace, and a change in the separation indices. the possibility of its returning-but-along movement along the hydrocyclone axis. The presence of a partition 11 in the rod 7 allows individual regutgars of the cross-sectional areas of the slits to drain the clarified and thickened fractions with a two-sided supply of inert liquid and or gas at different pressures into the internal cavity of the brush 7 (Fig. 1). These flow annular sections can be self-regulated if the working pressure in the housing along the height of the hydro-cyclone is not the same, which is typical of actual working conditions of the shreddrokonichesky hydro-cyclones. the environment in the hydrocyclone in the lower zone of the overflow chamber 6, caused by the greater density of the suspension in this area, leads to compression of the lower shell 9 (FIG. 1, without a partition 11) or shell 12 (Fig. 2). In the presence of an incompressible fluid in the rod 7, the compression of the lower shell 9 causes movement (squeezing) of this fluid to the upper part of the rod 7 and, as a consequence, the expansion of the shell 9 installed in the zone of the socket 4 (Fig. 2). This simultaneously changes the flow areas of the annular slots for removal of separation products, the ratio of the volumes of the effluent streams and the content of the solid (heavy) phase in them. Thus, the application of the proposed hydro cyclone, equipped with elastic valves, in the processes of separation of slurries, suspensions and immiscible liquids allows both the simultaneous and individual adjustment of the volume flow rates of the thickened and clarified fractions, size and content of the heavy phase in them, as well as provides the possibility of self-regulation of separation indicators, which is especially important when processing suspensions with an unstable content and size of the solid phase in them. The implementation of a hydrocyclone according to the invention eliminates dismantling and mounting operations for the purpose of replacing drainage pipes and sand nozzles when working on various media with different composition and quality, as well as diets, the ability to obtain thickened and clarified products of the desired concentration of the heavy phase in a wide range of properties. suspensions, slurries and immiscible liquids, which makes it effective. hydrocyclones. Claim 1. A hygrocyclone containing a cylindrical housing with gangential inlet, drain and Peskov branch pipes, located along the axis of the housing a hollow stem with control valves, mounted with the possibility of axial movement, characterized in that in order to increase the efficiency of separation due to the implementation of self-regulation separation process valves, the latter is made in the form of elastic annular shells mounted on the outer surface of the hollow stem, having slots, and hydrocyclone supply n the source of the inert supplyable fluid attached to the hollow brush. 2. A hydrocyclone according to Claim 1, characterized in that, in order to provide independent individual adjustment of the flow and drainage nozzles, the hollow rod is provided with a partition wall. Sources of information taken into account in the examination 1.Povarov A.I. Hydrocyclones at the processing plants. M., Nedra, 1978, p. 188, fig. 6, 4 in. 2. USSR Author's Certificate No. 38О357, cl. B 04 C 5/181, 197О. 3. USSR author's certificate number 566633, cl. .B 04 C 5/181, 1976.