RU189540U1 - Hydrocyclone installation - Google Patents

Abstract

The claimed utility model is intended for the classification and enrichment in the aquatic environment of finely ground materials by size, for thickening the enrichment products and can be used in color, cement and other industries. The technical result in the proposed utility model is to prevent the formation of a pulp flow regime of the pulp, reducing the viscosity of the pulp with a high content of solid particles (more than 50%) not only due to the maximum amount of air molecules dissolved in its liquid phase, but also mainly by creating an increased concentration of mechanically mixed with her air bubbles. This is achieved by the fact that a hydrocyclone unit includes a hydrocyclone with an inlet nozzle, a compressed air supply line, a discharge line supplying the original pulp and a mixer, which is made in the form of serially connected pipelines with different cross sections, while the source pulp pipeline is tangentially connected to a pipeline with a large cross section the cross section of the mixer, which, in turn, is connected to the compressed air supply pipe on the one hand, and on the other hand connected to the pipeline m A smaller cross section connected to the inlet of a hydrocyclone. 1 il.

Description

The claimed utility model is designed for separation processes under the action of centrifugal forces of heterogeneous systems. It is used for the classification in the aquatic environment of finely ground materials by size, for thickening the enrichment products and can be used in the colored, cement and other industries.

Known standard hydrocyclone containing the upper cylindrical and lower conical part, tangential inlet, drain and sand nozzles

(MM Basharov, OA Sergeeva. Construction and calculation of hydrocyclones: study guide. Edited by AG Laptev. - Kazan: Westfalika, 2012-92 p.)

A disadvantage of the known hydrocyclone is that the separation of heterogeneous systems in it, in which the content of the solid component exceeds 50%, is significantly reduced and, ultimately, becomes impossible due to a sharp increase in the viscosity of the pulp. Reducing the viscosity of the pulp by increasing its moisture in some cases is unacceptable by production technology.

When drilling wells, aerated drilling muds have found industrial application. According to the materials of publications, the introduction of air bubbles into the drilling fluid and their dispersal in it causes fluidization of the solid phase in a multiphase system. At the same time, the solid phase of the drilling fluid and the drill cuttings that saturate it are evenly distributed throughout the volume, spreading between air bubbles. Such a separation in the dispersion of its individual particles and aggregates by air bubbles helps to reduce internal friction in the system, reducing viscosity, increasing its fluidity under dynamic conditions, and reducing the hydraulic resistance in pipes. (Pseudo-liquefaction. Edited by prof. NM Galperin, M., Chemistry, 1974).

The closest in technical essence is a hydrocyclone unit, for the preparation of limestone-nepheline charge according to patent No. 170230, in which the pressure pipelines for feeding pulp to cyclones are equipped with injectors connected to a source of compressed air.

However, experimental tests show that such aeration of a pulp stream containing more than 50% solids does not give the effect required for the classification of pulp in a hydrocyclone.

Under the influence of the hydrostatic pressure gradient in a liquid medium, air bubbles are mainly concentrated in the upper part of the cross section of horizontal pipeline sections. When this happens, they merge into larger ones, collapse and periodic formation of an airlock that overlaps the cross section of the pipe, a pure cork movement of the air-liquid mixture occurs, leading to pressure surges that have a negative impact on the classification process of the pulp in a hydrocyclone.

The formation of air plugs also does not contribute to the uniform dispersion of small air bubbles in the pulp volume.

The presence of plugs drastically reduces the surface interaction of the phases and reduces the possibility of air dissolving at the molecular level in the liquid phase.

As a result of the formation of air tubes, inefficient dispersal of small air bubbles in the pulp volume and a reduction in the amount of air dissolved in the liquid phase, the fluidization effect and decrease in the viscosity of the pulp, which is required to fully classify it in a hydrocyclone, is not achieved.

The main task of the utility model is to reduce the viscosity of the pulp with a high content of solid particles (more than 50%) and ensure its full classification in the hydrocyclone.

The technical result is achieved by the fact that in a hydrocyclone installation, including a hydrocyclone with an inlet pipe, a compressed air supply line, a discharge line for supplying the original pulp and a mixer, characterized in that the mixer is made in the form of cylindrical pipelines with a variable cross section tangentially attached to the side surface of the pipeline with a large cross-section, in one of the bases of which a compressed air supply line is introduced, in another vanie installed conduit with smaller cross-section connected to the inlet of the hydrocyclone.

FIG. The scheme of the inventive hydrocyclone installation is shown. The unit has a hydrocyclone 1 with an inlet pipe 2, a pipeline with a large cross section 3 and a smaller cross section 4, a pipeline for supplying compressed air 5, a pipeline supplying the original slurry 6, while the pipeline of the original slurry 6 is tangentially installed in the side surface of the pipeline with a large transverse section 3,

The installation works as follows:

A mixture of finely ground material with water in the form of pulp with a solids content of more than 50% through pipeline 6 is injected under pressure tangentially into pipeline 3. Compressed air is simultaneously supplied to the central part of the base of pipeline 3 through pipeline 5. As a result of the tangential injection of pulp, the air-liquid flow in the pipeline 3, along with the translational, acquires a rotational motion.

The internal flow area occupies a smaller part of the pipe section and is a cylindrical vortex channel 7 of increased turbulence. Air bubbles from pipeline 5 together with gases dissolved in the pulp are entrained by the moving pulp, intensive crushing occurs, additional air dissolution in the pulp liquid phase, relatively uniform dispersion of air bubbles and the predominant formation of a mechanical mixture of air with pulp. Therefore, the mixture acquires a lower viscosity.

The radial migration of air bubbles under the action of a pressure decrease gradient towards the center of the vortex channel 7 prevents the formation of air plugs in the upper part of the pipe section. This eliminates the formation of a cork regime for the flow of pulp and has a positive effect on the process of its subsequent classification in a hydrocyclone.

In this area, the basic conditions for additional highly efficient dissolution of air in a liquid are best realized: air is introduced directly into the structure of the aerated area, the molecules of the suspension phases are most closely spaced to each other, and the flow of the mixture with increased turbulence is organized.

At the entrance to the pipeline 4, the jet is compressed, then it expands again and at the same time intensively mixes with the slurry in the pipeline 4 surrounding the jet. It follows from Bernoulli’s law that when the flow cross section decreases, due to an increase in velocity, i.e. dynamic pressure, static pressure drops. When in the narrowest cross-section of the pipeline 3, due to high local velocities, the pressure decreases so much that it becomes less than the saturation pressure, i.e. pressure, at which the "boiling" of the liquid begins, cavitation occurs, rapid evaporation of the liquid phase occurs. At the same time, in the initial stage of vapor release, the vapor phase is in the form of small bubbles distributed over the volume of the moving fluid, an increase in the flow volume occurs predominantly by forming a mechanical mixture of air with other pulp phases, which leads to a decrease in the viscosity of the pulp. And the dissolution of air in the liquid phase of the pulp to reduce its viscosity has a slight effect and has an auxiliary character.

Since the narrow pipe 4 is connected to the inlet pipe 2, the air-liquid mixture of the pulp of the vortex channel with a high concentration of air bubbles mechanically mixed with it and the maximum amount of air molecules dissolved in the liquid phase enters the hydrocyclone 1. This mixture has a much lower density and viscosity, better mobility and the ability to stratify in comparison with the original pulp.

Thus, the technical result in the proposed utility model is to prevent the formation of cork flow of the pulp, reducing the viscosity of the pulp with a high content of solid particles (more than 50%) not only due to the maximum number of air molecules dissolved in its liquid phase, but also mainly by creating increased concentrations of air bubbles mechanically mixed with it.

This is achieved by the fact that a hydrocyclone unit including a hydrocyclone with an inlet nozzle, a compressed air supply line, a discharge line supplying the original pulp and a mixer that is made in the form of serially connected pipelines with different cross sections, while the original pulp pipeline is tangentially connected to the pipeline with a large the cross section of the mixer, which in turn is connected to the compressed air supply pipe on the one hand, and on the other hand connected to the pipeline smaller cross-section connected to the inlet pipe of a hydrocyclone.

Such a design of the installation ensures the formation of a rotating flow of the original pulp and its structuring so that its internal area occupies a smaller part of the pipe section and is a cylindrical vortex channel of increased turbulence with air air bubbles closely adjoining the pulp jets. Air bubbles along with gases dissolved in the pulp are carried away by the moving pulp, closely contact with it, intensive crushing occurs, additional air dissolution in the liquid phase of the pulp, relatively uniform dispersion of air bubbles and the predominant formation of a mechanical mixture of air with pulp. Radial migration of air bubbles under the influence of pressure reduction in the direction of the center of the vortex channel prevents the formation of air plugs in the upper part of the pipe section.

Thus, the maximum saturation of the pulp with air and the reduction of its viscosity is achieved through the use of the kinetic energy of its flow, a rational combination of air supply and pulp, intensive additional dissolution of air under pressure in the liquid phase, but mainly the predominant intensive formation of a mechanical mixture of air with pulp. As a result, such a mixture has a much lower density and viscosity, better mobility and the ability to delaminate into a hydrocyclical. ie in comparison with the original pulp.

Claims (1)

Hydrocyclone installation including a hydrocyclone with an inlet nozzle, a compressed air supply pipeline, a pressure feed line for supplying the original pulp and a mixer, characterized in that the mixer is made in the form of serially connected pipelines with different cross sections, while the pipeline of the original pulp is tangentially connected to a pipeline with a large cross section the cross section of the mixer, which in turn is connected to the pipeline for supplying compressed air on the one hand, and on the other hand connected to the pipeline smaller cross-section connected to the inlet pipe of a hydrocyclone.

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