SU602613A1 - Magnesium electrolyzer anode - Google Patents

Description

This invention relates to non-ferrous metallurgy, in particular to the production of magnesium by electrolysis of molten media.

The anode of the electrolyzer is known for producing magnesium, which has a system of vertical bleed channels on the surface open toward the interelectrode gap 1.

The disadvantage of such an anode is that chlorine is not removed from the entire surface of the cathode, but only from the one that is located opposite the vertical channel. The cathode surface located opposite the protrusion located on the anode is subject to the action of chlorine, especially in its upper part, where the thickness of the chlorine gas fan reaches a maximum value. Uneven removal of chlorine from the surface of the cathode prevents obtaining higher technical performance.

The closest to the present invention is the anode. It has on its working surface a system of parallel channels for the removal of chlorine from the cathode. For better removal of chlorine, the channels are located between the projections made on the anode 2.

In order to increase the current efficiency by more complete removal of chlorine from the cathode channels on. the surface of the proposed anode is made inclined at an angle of 5-30 to the vertical.

Chlorine released on the surface of the inclined chloro-removal channel is discharged along it to the surface of the electrolyte, where it is separated, i.e. in the same way as in an electrolyzer with vertical chlorine channels.

The chlorine bubbles released on the surface of the protruding part of the anode pass vertically along the aforementioned part of the anode, and having reached the inclined chlorinated channel, get into it and are transported through the channel to the electrolyte surface, without increasing the thickness of the chlorine gas layer over the anode height, since chlorine from each protruding portion of the anode enters the chlorinated channel.

Thus, the use of electrolyzers with inclined bleed channels located on the surface of the anode allows more complete removal of chlorine from the working surface of the cathode and thereby increase the current efficiency. In addition, the slope of the channels allows the electrolyte flow to be directed towards the cell to collect magnesium, i.e., to regulate circulation.

The drawing shows the proposed anode installed in the electrolyzer.

The electrolyzer consists of a casing 1, lining 2, anodic overlap 3, anodes 4 with channels 5 located obliquely, cathodes. 6, dividing partition 7, cells 8 for collecting magnesium. The PTirin of the bleed channels is 50 mm, the distance between the channels is 50 mm. The angle of inclination of the canals to the vertical is 5-30 °.

During the electrolysis process, chlorine released on the channel surface is transported to the surface of the electrolyte, where it is separated from the electrolyte. Chlorine bubbles discharged on the protruding part of the working surface of the anode (between the chlorophyll drain channels) rise vertically up along the surface of the anode and, a little more than 100 mm, pass into the inclined chlorine drain channel and transfer to the electrolyte surface. Thus, chlorine, being released on the protruding surface of the anodes, does not fall on the opposite surfaces of the cathode, since the thickness of the chlorine fan in a section 100 mm high does not exceed 5 mm.

Testing of the electrolysis cell with anodes of the proposed design showed that the current efficiency on it was higher than on the electrolyzer with vertical discharge channels.

Claims (2)

1. USSR author's certificate jVo 282665, cl. C 25 C 3/04, 1969. 2. USSR author's certificate K ° 527487, cl. C 25 C 3/04, 09.06.75.