SU1562017A1 - Mixing device - Google Patents

Abstract

The invention relates to devices for mixing solid-liquid mixtures and can be used in the petroleum, chemical and petrochemical industries. The mixing device contains a cylindrical mixing chamber in which two annular collectors are concentrically mounted. The collectors are equipped with ejectors with hydrodynamic nozzles. Ejectors on the collectors are offset relative to each other around the circumference. The point of intersection of the axes of the ejectors on the internal collector lies above the point of intersection of the axes of the ejectors on the external collector. Removable mesh partitions are located above the ejectors. 3 il.

Description

The invention relates to devices for mixing solid-liquid mixtures and may find application in the petroleum, chemical and petrochemical industries for the preparation of solutions of chemical reagents.

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

FIG. 1 shows the device section; in fig. 2 is a section A-A in FIG. one; in fig. 3 — node 1 in FIG. 1 (ejector with hydrodynamic nozzle).

The mixing device includes a housing 1, made in the form of a vertical cylinder with a spherical bottom, in which a threaded sub 2 is installed. A threaded nipple 3 is connected to the sub, communicating with the base 4, on which two tubular annular collectors are concentrically mounted: primary 5 and additional 6. manifolds placed nozzles 7, which are screwed ejectors with hydrodynamic nozzles 8, and the ejectors on the outer manifold 6 and the inner manifold 5 are installed with a shift around the circumference tion to each other. The intersection point of the axes of the ejectors on the inner manifold 5 is located above the point of intersection of the axes of the ejectors on the outer manifold 6.

Above the ejectors, removable mesh partitions — lower 9 and upper 10 — are mounted in the housing, which are held by annular stops 11. On the sub 2, there are nozzles for supplying working fluid 12 and heat carrier 13. In case 1 there is a receiving hopper 14 with slit-like openings and a sump tank 15 at the top. The bunker 14 is separated by a continuous side partition 16 and a bottom partition 17 in the form of a grid. The filter sump 15 is connected to the pipe 18 of the outlet of the finished solution.

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The device works as follows.

The housing 1 is loaded from above on 2/3 of the height with a solid reagent, for example, trisodium phosphate, and filled with water (heated or cold) through the nozzle 12. The working fluid pumped under pressure from the nozzle 12 is distributed to the outer and inner annular tube collectors, and from there - 7 ejector pipes. Liquid jets from ejectors located on two concentric annular collectors form two cones, outer and inner, and placing ejectors with the point of intersection of their axes on the inner collector above the point of intersection of the axes of the ejectors on the outer collector allows to obtain an inner cone of the liquid high and the outer one below, with the top inside the high inner cone. The internal (higher) liquid cone breaks, crushes and partially mixes the solid component of the mixture with the working fluid, and the external (low) liquid cone mixes the previously loosened solid component of the mixture. As a result of the increase in contact area and the presence of reduced static pressure inside

cone mixing efficiency is enhanced.

It has been established experimentally that the miscibility is greatest when the ratio of the diameters of the outer ring collector to the inner one is 2: 1 and when an equilateral liquid cone is formed with a height of not more than 2/3 the height of the inner liquid cone.

Claims (1)

Invention Formula A mixing device containing a cylindrical mixing chamber with mesh partitions, ejectors with hydrodynamic nozzles placed on an annular tube collector, branch pipes for supplying the working fluid and draining the finished solution, characterized in that the mixing chamber is equipped with an additional annular collector with ejectors mounted concentrically to the main, while ejectors on the collectors are displaced in a circle relative to each other and have a point of intersection and the axes of the ejectors on the internal manifold above the point of intersection of the axes of the ejectors in the outer manifold. 1 Figg 1 turned Fig.Z