SU1407498A1 - Vibrating jet-type extractor - Google Patents

Abstract

The invention relates to the design of extraction apparatus, improves the efficiency of operation and can be used in various solvent extraction processes. The extractor comprises a housing 1, inside which a vertical partition 5 is installed with openings through which the perforated pipes 7 pass, the vertical partition being connected to the actuator 6 and performing reciprocating movements. 2 Il.

Description

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The invention relates to chemical and chemical HOJioTHMecKONfy equipment and can be used in production lines as an apparatus for carrying out the extraction process in liquid-liquid systems in the chemical industry.

The aim of the invention is to increase the efficiency of the extractor.

FIG. 1 shows the extractor, a general view; in fig. 2 - node 1 figure 1

The extractor consists of a housing 1 having a bottom 2 at the bottom and a rim 3 at the top. Separated perforated partitions 4 are installed between the lid and the case. Inside the case there is a vertical partition 5 with a driving rod 6 and perforated pipes 7 with holes 8 passing through it. and the bottom have nozzles 9-12 for the supply and removal of material flows.

The extractor operates as follows.

The initial solution is supplied to the pipe 10, and the extractant is fed to the pipe 11. At the same time, the vertical partition 5 begins to reciprocate under the action of the drive rod 6 connected to the drive. When the vertical partition 5 moves, for example, to the left, the dispersed medium from the left side begins to flow into the right through perforated pipes. In the left part of the apparatus, the dispersed medium through the holes 8 enters the perforated pipe. Whatever the solution drops (heavy liquid), they pass through a calibrated orifice, acquire the size of the diameter of this orifice and after it move in a jet of a carrying flow of light liquid. First, the relative velocity of the droplet system — the medium is high, then the droplet accelerates, and the jet velocity goes out and changes direction, taking the direction of motion of the total flow in the pipe (Fig. 2). In this connection, a large relative speed is maintained. After passing a section in which the liquid crossed the plane of the moving towards the partition, the dispersed medium exits

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From a jungle of another pipe, again through the calibrated orifices, but during the movement of the tube, the droplets of the heavy liquid descend into the lower layers of the dispersion medium and the heavy liquid leaves the perforated pipe through the openings below and the light liquid through the upper openings. Therefore, longitudinal mixing of the medium is practically eliminated in the apparatus. When the vertical partition moves in the opposite direction, the flow pattern repeats. Since the diameter of the calibrated holes in perforated pipes can be either predetermined, the design of the apparatus allows to obtain a predetermined contact surface in advance. This important property of the apparatus is provided by its purely constructive features. Since the transfer of droplets from one plane to another is carried out by the carrier flow in two jets with two turns in the pipe, the relative velocity is constantly high, which increases the mass transfer coefficient from droplets to the continuous phase. Under the influence of gravity, droplets of the solution all the time go down, the perforated pipes are successively running one after the other, and the raffinate is collected under the lower perforated partition wall 4 and leaves the apparatus through the nozzle 12. The extract comes out of the nozzle 9.

Claims (1)

Invention Formula Vibration-jet extractor, comprising a rectangular section, branch pipes for supply and removal of phases, upper and lower partition walls, a vertical partition with openings connected to a drive, horizontally spaced rods passing through the openings of a vertical partition, the ends of which are fixed on opposite walls of the apparatus, characterized in that, in order to increase the efficiency of its operation, the rods are made in the form of perforated pipes. eight 9ig.2