SU15475A1 - Method for electrolytic oxidation of yellow blood salt to red - Google Patents

Description

The present invention relates to methods for the electrolytic oxidation of yellow blood salt to red in diaphragm mercury cathode baths.

It is known that the process of electrolytic oxidation of yellow blood salt to red is advantageously carried out in solutions saturated with K4p (CN) e. KNZO. Taking this into account, the author comes to the conclusion that it is necessary to maintain in the anolyte the possible full saturation of the yellow blood salt as the degree of its saturation decreases during the electrolysis process. However, further experiments have shown that the saturation of the anolyte with yellow salt in the bath itself presents difficulties with either oversaturation and the appearance of tiny crystals of yellow salt, which then contaminate the product, or with the clogging of the pores of the bag or vessel containing solid yellow blood salt.

In the proposed method, in order to eliminate the above difficulties, the electrolyte is passed sequentially through the anode spaces of several baths and vessels intermediate between the baths, which serve to saturate the electrolyte with yellow salt, and after the electrolyte is saturated with red salt, the latter is separated outside the anode space in separate crystallizers. The process, as explained in the accompanying schematic drawing, is carried out as follows. A saturated solution of yellow salt, neutral or slightly alkaline, depending on the anode material, is introduced into bath 1, which is diaphragmed with a porous vessel or bag 2, in which the anode 4 is placed. Mercury cathode 3 is located at the bottom of the bath. Upon completion of the assembly of the bath and filling it with electrolyte, an electric current is passed to form a solution close to the release of oxygen on the anode with thorough mixing of the anolyte and then the latter is transferred to the secondary saturation vessel 5, which is enriched in yellow blood salt, and then follows the second electrolytic bath 6. Baths b, 8, etc., the number of which depends on the size of production, collected and put into operation simultaneously with bath 1, send their anolytes to the vessels following them for don sour. The monolithic bath 1 is continuously replenished with a fresh saturated solution of the yellow salt. Thus the continuity of the process is performed. It can also be carried out with a breakdown of the oxidizable liquid stream for small industries. In this case, bringing the process to a favorable degree of oxidation, transferring the anolyte to the saturation vessel and then returning it to the bath for additional electrolysis, etc. When the solution is saturated with the yellow salt, the oxidation leads to saturation of the anolyte with the red salt. The latter is then isolated in a solid state, in order to simplify operation outside the anode space in separate crystallizers. A bath temperature of 50 ° is most favorable for the oxidation process.

The baths can be interconnected both in series and in parallel, and the order of the connection of the frond does not affect the process occurring in them under the influence of the electric current.

Amalgam decomposition is carried out in a generally known manner.

The subject of the patent.

A method of electrolytic oxidation of yellow blood salt to red in diaphragm mercury cathode baths, characterized in that the electrolyte is passed through several anodic spaces of several baths and vessels intermediate to the baths to saturate the electrolyte with yellow salt, and after the electrolyte is saturated with the red salt, the latter is allocated anode space in separate molds.