SU390188A1 - LIBRARY A.S. Derkach - Google Patents

Description

The invention relates to the field of aluminum production by cryolite-alumina melt electrolysis.

A known method of forming a self-burning anode of an aluminum carbon cell electrolyzer, in which the liquid part of the anode is in a static state.

The proposed method differs from the known one in that the liquid part of the anode is compacted by vibration.

This increases the density of the anode, improves the technical and economic indicators of aluminum production and working conditions.

The formation of a self-burning anode is carried out with periodic vibration of a layer of liquid carbon mass using immersion vibrators or vibrators mounted directly on the anode structure. The vibration of the filler mass during vibration, which mainly provides the required anode properties, increases the concentration of the filler in the molten carbon mass, and reduces the required binder content. This leads to the compaction of the structure of the forming anode, the increase in its electron conductivity and the reduction of the emission of harmful resinous straps formed during the firing of the binder carbonaceous mass into the surrounding atmosphere. As a result, the consumption of carbonaceous mass and electricity is reduced, the technical and economic indicators of production are increased, and the working conditions are improved.

Subject matter

A method of forming a self-burning anode of an aluminum carbon cell by electrolyte, characterized in that, in order to increase the density of the anode, improve the technical and economic indicators of aluminum production and working conditions, the liquid part of the anode is compacted by vibration.