SU730878A1 - Diaphragmless electrolyzer for magnesium production - Google Patents

Description

the end surfaces of the anodes are 2: 1: 1, and the distance between the lower edge of the dividing partition and the upper edge of the ledges of the screen was 0.1-0.2 of the width of the end surface of the anode.

The distance between the lower edge of the partition separating the working compartment and the collecting cell and the upper edge of the rectangular ledges of the front cathode screen is necessary to prevent contact between the screen and the partition (as is known from operating experience of magnesium electrolyzers, electrolytic cells made of refractories, under cathode potential, quickly destroyed). These ledges provide good conditions for the removal of magnesium by the circulating electrolyte flow into the collecting cell and prevent chlorine released on the end surfaces of the anodes facing the front cathode screen from entering the gas space of the collecting cell of the electrolyzer.

FIG. 1 - electrolysis cell, longitudinal section; in fig. 2 - the same cross section.

The electrolyzer consists of a working compartment 1 with anodes 2 and permanently installed cathodes 3, equipped with an non-rare screen 4, separated by a partition 5 of the assembly cell 6, located perpendicular to the plane of the electrodes. On the front cathode screen 4, steps 7 are rectangular in shape, arranged coaxially with the corresponding end surfaces of the anodes 2.

The cell operates as follows.

Magnesium released during the electrolysis process on the cathodes 3, the circulating electrolyte flow through the windows formed by the adjacent ledges 7, is carried into the collection cell 6, from which it is periodically removed. The chlorine released on the anodes 2 is separated in the working compartment 1 of the electrolyzer and is discharged through the main chlorine pipeline system. Due to the presence of the ledges 7 on the front screen 4 of the cathode frame, which are located coaxially with the corresponding end surfaces of the anodes, emissions of chlorine collected at the ends of the anodes facing the front screen are prevented.

The application of the invention will reduce by 20-25% the loss of chlorine with gases of sanitary suction, increase the yield of chlorine by 20-25 kg / ton of magnesium and improve working conditions.

Claims (3)

1. A diaphragm-free electrolyzer for obtaining magnesium, including a working compartment with anodes and stationary cathodes installed in it, equipped with a front screen, and a collecting cell separated from the working compartment by a dividing partition and located perpendicular to the plane of the electrodes, characterized in that, in order to reduce losses chlorine with gases of sanitary suction and improvement of working conditions, the front screen in the upper part is made with rectangular ledges located coaxially with the corresponding face anode surfaces. An electrolyzer according to claim 1, characterized in that the height and width of the ledges of the screen refer to the width of the respective end surfaces of the anodes as 2: 1: 1. 3. An electrolyzer according to claim 1, characterized in that the distance between the lower edge of the separation wall and the upper edge of the ledges of the screen is 0.1-0.2 of the width of the end surface of the anode. Sources of information taken into account in the examination 1. USSR Author's Certificate No. 390185, cl. C 25 C 3/04, 1971. 2. USSR author's certificate number 541899, cl. From 25C 3/04, 1975. 5ov An. /: -3 -7 r4 Vuz.1