SU7310A1 - Solute extraction apparatus using liquid - Google Patents

Description

For the extraction of a substance dissolved in one liquid with the help of another that is not miscible with the first liquid, there are two essentially different ways:

1. A method of direct mixing of liquids, by stirring them with appropriate devices (emulsifiers, propeller mixers, Witt mixer, etc.).

2. Extraction by punchers.

The disadvantages of the first method are: a) large amounts of extracting liquid; in general, they should be proportional to the volume of the extracted substance; when dealing with weak solutions containing a small percentage of a substance, the situation is very difficult; b) lack of continuity in the extraction process; mixed liquids must then be settled for a long time, which is a dead process; c) emulsification concomitant with the mixing of liquids, which impedes the rapid separation of liquids.

All these disadvantages are more or less eliminated when using the second method of extraction with perforators. The task of this apparatus is to produce a certain amount of a given solvent (benzene, ether, etc.) to extract a substance that is in solution of an arbitrarily large amount of another liquid that is not miscible with the first one. At the same time, the solvent absorbing substance either continuously or periodically must regenerate its absorption capacity, and the liquid delivering the substance is continuously (or periodically) removed from the perforator. The perforators that are still encountered in practice and are still used in practice are based on the principle of droplet transmission of the extracted liquid through the mass (large excess) of the extracting liquid, while the latter regenerates its absorption capacity. This principle has been transferred from the practice of gas washing with liquids. The existing designs of perforators bear the character of laboratory analytical apparatus. They have extremely low productivity and are not applicable in factory practice.

The proposed apparatus for extracting solutes by liquid is designed for high productivity and has the goal of reducing the amount of organic solvents used and saving in working time.

Pa. the drawing of FIG. 1 shows a diagram of the apparatus of the apparatus proposed, FIG. 2 is a schematic transverse section through AB in FIG. 1, fig. 3 is the same as the CD in FIG. 1, fig. 4-lenticular hollow disk in two projections. The proposed apparatus consists of a rotating in the bearing cover of the body A of a lenticular canopy of a disk equipped with two rows of