SU633937A1 - Aluminium electrolyzer - Google Patents

Description

The invention relates to devices for intensifying the process of electrolysis of aluminum and controlling the thermal conditions of electrolyzers and can be used in the aluminum industry.

Aluminum electrolysis cells are known with devices for regulating the thermal regime and intensifying the process of electrolysis of aluminum.

For example, in order to increase the intensification of the electrolysis process, it has been proposed to transfer heat to the atmosphere from the baked part of the anode casing with the help of heat sink elements installed in special pockets of the anode casing. However, the installation of such heat-removing elements does not allow controlling the amount of heat removed and does not envisage the utilization of the heat that is inevitably lost by the anode of the electrolyzer Ij.

In another proposal, adopted as a prototype, for regulating the thermal regime and heat recovery from the cathode jacket, hermetic cavities are provided in the area of the cathode jacket, connected to the air discharge line, and in which heat shields are installed. Air lines with air distribution valves are connected to the sealed cavities. However, this device provides for the utilization of heat, inevitably lost only by the cathode shell, and does not provide for the possibility of intensifying the electrolysis process 21.

The purpose of the invention is to increase the efficiency of the aluminum electrolysis cell by controlling the temperature conditions.

This is achieved by sealed

cavities that are additionally installed on the outside of the casing are connected to the discharge air line, this connection being made parallel to the cavity of the cathode casing.

The flow of air circulating in the cavity of the anode casing can be regulated, which makes it possible to select different amounts of heat. With the selection of heat corresponding to inevitably lost due to radiation into the environment, the efficiency of electrolysis increases, and with the selection of a larger amount of heat, it becomes possible to further intensify the process of electrolysis by increasing the current strength

The drawing shows the electrolyzer with the top current supply.

The anodic part of the electrolyzer has a casing 1 inside which there is an anode having liquid and solid baked parts 2. The current to the anode is supplied with pins 3. The anode casing 1 is provided with hermetic cavities 4, which are connected to the discharge air line 5.

The cathode section of the electrolysis unit consists of a steel casing 6 having a bottom 7 and lined with carbon blocks 8. Inside the cathode casing there is a layer of molten aluminum and an electrolyte layer above it, and near the sides there is a skull protecting the casing from the chemical effect of the electrolyte. Between the coal blocks 8 and the bottom 7, as well as the lining and the beads, there is a layer of solid thermal insulation 9 and 1Q. The cathode is supplied by blooms 11. Under the bottom of the electrolyzer there is a second bottom 12, which forms a cavity 13 with the bottom 7 of the electrolyzer. The outer wall 14 of the cathode casing and the inner wall 15 form a cavity 16 in the bead area. Cavities -13 and 16 are connected, on the one hand, through the air distribution valve 17 to the main line 18, and on the other hand to the main line 19, through which hot air enters for recycling. The air distribution valve 17 serves to redistribute the air flow between the cavities 13 and 16 in accordance with the required temperature conditions in the areas of the sides and the bottom of the electrolyzer. WITH

In order to control the temperature conditions of the electrolyzer, the discharge air line 20 is connected to the line 18 and 5. through the distributor valve 21.

The cell operates as follows.

From the blower fan, air flows through valve 21 into cavity 4 of the anode casing. Through line 18 through the valve 17, the air enters simultaneously in the cavities 13 and 16 of the cathode shell. Heating is caused by heat, which is inevitably lost by the anode and cathode housings, air is transported via highway 10 to recycling. i

The present invention will allow the process to electrify electrolyte by cooling the anode. At the same time, the degree of utilization increases.

heat inevitably lost by the electrolyzer due to its use from the anode casing.

Claims (2)

1. USSR author's certificate NO 434136, cl. C 25 C 3 / O8, 1973. 2. Forward N 2359494/02, cl. C 25 C 3 / O8, 1976, according to which made a positive decision on the issuance of copyright certificate.