SU110499A1 - Arch and device for continuous feeding of electrolyzer with heated alumina - Google Patents

Description

A characteristic feature of modern industrial aluminum electrolysis cells is the use of constant electric current in them, not only for carrying out the electrochemical process, but also simultaneously for heating the electrolyzer due to electrical losses of heat developed by the current when passing through the electrolyte layer.

Under these conditions, on the side surface of the working space of the cell of the electrolyzer bath, a garnissage of solid, solidified electrolyte is formed, which protects the lining material from the destructive effect of molten fluorine salts and prevents leakage of current through the coal lining.

On the open upper surface of the electrolysis cell bath, a frozen crust of the electrolyte is formed, which must be periodically punched and collapsed to load alumina into the electrolyzer bath.

In the practice of the aluminum industry, the design of an electrolyzer with an upper current supply to the anode is also known. The absence of current lead pins on the side surface of the anode and the presence of a constant housing make it possible to close such an electrolysis cell bath from above and thereby reduce heat losses and, consequently, energy consumption.

The overlapping of the top of the electrolysis cell bath with the vault simultaneously prevents the formation of a crust on the surface of the electrolyte and ensures the continuous and automatic loading of the electrolyzer with alumina.

This achieves the constancy of the mode of operation of the electric: m.; |; Pa. mechanization of services, easing conditions and increasing the productivity of labor.

The present invention provides a constructive p-schenka

No. 110499

a vault device for an electrolytic cell made of cast-iron fterozaknyh plates, which protects the electrolyte from the formation of a crust on its surface and provides continuous and automatic power supply with heated alumina electrolyzer to produce aluminum.

The design of the proposed arch and device for continuous feeding of the electrolyzer with alumina is shown in the drawing with partial cuts.

The vault of the electrolyzer consists of sections assembled from cast-iron cast lids /, equipped with a protective and heat insulating lining of plates of crystallized carborundum, ensuring reliable operation of the vault under the conditions of an aggressive environment (vapor and splash of fluoride salts) when heated to dry heat.

During the opening of the roof, lifting of individual sections is carried out with cables winding on blocks of 2 different diameters, as a result of which the latter are brought into position in which their inner surface is turned opposite to the working side, not interfering with the maintenance of the electrolyzer.

The device for supplying alumina to the electrolyte is directly connected to the upper support part of the roof section and the anodic resin box 3 and preheats the alumina, which comes from the hopper 4 along the longitudinal side of the anode.

The alumina feeder is made in the form of a pipe embedded in the roof with inlet and outlet openings for alumina. Inside the pipe, it makes a reciprocating motion of the gas engine with the disks 5, driven by a pneumatic actuator 6. As it moves, the alumina is poured into the electrolyte through the holes periodically, in portions.

Subject invention

The arch and device for continuous feeding of the electrolyzer with heated alumina, characterized in that, in order to facilitate repairs and create automation of the alumina loading, the arch is made of removable cast-iron lids lined with heat insulating and chemically resistant materials, and the feeder is made as laid into the arch pipes with inlet and outlet openings; and disks with disks, which, after reciprocating, ensures a uniform supply of alumina in portions.