SU773151A1 - Electrolyzer for aluminium production - Google Patents

Description

one

The invention relates to devices for controlling the energy regime of the electrolysis cells, and can be used in the aluminum industry.

A known electrolyzer for regulating the energy regime of the cathode device of the electrolyzer, in which hermetic cavities are provided in the zone of the sides and bottom of the cathode casing, connected to the discharge air line through air distribution valves f

Closest to the invention is an electrolysis cell for producing aluminum containing anode and casing housings, in which sealed cavities connected to the air line parallel to the cavity of the cathode casing 1X1 are additionally placed to regulate the energy regime of the anode device

In these solutions, the energy regime of the cathode or anode device is separately controlled. At the same time, hermetic cavities in the zones of the anodic and cathodic housings are not

interconnected by mains. However, in the practice of operating electrolyzers, for example, in the process of intensification of the mode of operation

5, it becomes necessary to redistribute the heat fluxes between the elements, in particular, to warm the walls of the anodic and cathodic shells. Existing air line circuits do not allow this.

The purpose of the invention is to increase the efficiency of regulating the energy regime of the elements of the electrolyzer by redistributing heat fluxes from the anode device to the cathode one and back.

This goal is achieved by the fact that hermetic cavities in the zones of the anode and cathode devices are interconnected by additional air lines. Due to this, airflow from the cavities of the cathode shell can be used for

25 insulate the side zones of the anode, and the air flow, the flow rate of which is regulated by means of an air distribution valve, can be directed from the cavities of the anode casing into strips of the cathode casing.

The drawing shows the proposed electrolyzer with the upper supply current.

The anodic part of the electrolyzer for producing aluminum consists of solid coked part 1 and liquid phase 2 located in the anode skin, Jxe 3. On the outer side of the anode there are sealed cavities 4 connected to highways of cold and heated air.

The cathode part of the electrolyzer is a coi, toit from a steel cathode casing 5 having coal blocks 6 and the bottom 7. In the zones of the sides and the bottom of the electrolyzer there are sealed cavities 8 and 9 connected to the air ducts. Inside the casing there is a layer of molten aluminum 10 and above it an electrolyte layer 11, and near the sides there is garnissage 12 protecting the casing 5 from the influence of electrolyte 11.

In the cavity 4 of the anode casing, air enters through line 13 and 14 through the control valve 15, and in cavity 8 and 9 of the kakhrdny casing through line 16. The air heated in hermetic cavities enters the utilization through line 17 and 18. Cavities the cell covers are interconnected by additional masters 19 and 20.

The proposed electrolyzer for producing aluminum operates as follows.

From the pressurized air fan, air flows through lines 13 and 14 through distribution valve 15 into the cavity 4 of the anode casing 3. Air heated in cavity 4 is directed through lines 17 and 18 to heat recovery.

In the cavities 8 and 9 of the cathode casing, air enters through line 16, and of them through line 18 to utilize the excess heat of the cathode.

On line -20 heated in by post x 8 and 9 of the cathode casing, the air enters the cavity 4 of the anode casing. On line 19 heated in the cavity 4 of the anode casing, the air enters the cavities 8 and 9 of the cathode casing. Thus, the excess heat from the anode casing is transferred to insulate the walls of the cathode casing and, conversely, a warm air flow from the cathode casing can be used to warm the side wall of the anodesic casing. Due to the redistribution of heat flows between

the anode and cathode cases of the electrolyzer can regulate the energy regime of individual elements and the unit as a whole. The use of the invention allows simultaneously with the utilization of the excess heat of the electrolyzer to stabilize the energy regime of the cathode and anode housings and thereby increase the technical and economic

aluminum electrolysis process indicators.

Claims (2)

1. USSR author's certificate No. 605365, class, C 25 C 3/08, 1976. 2. Authors certificate of the USSR 633937, cl. C 25 C 3/08, 1977. From A "Hch. U /. /. Yes X and utilization. ,. ".-. . -. t- -TvV-T ... UK