RU2375504C2 - Covering of aluminium electrolytic cell with self-burnt anode and top current contact jaw - Google Patents

Abstract

FIELD: metallurgy.

SUBSTANCE: invention relates to non-ferrous metallurgy, to electrolyte production of aluminium from molten salts, particularly to covering of near-anode space on electrolytic cells with top current contact jaw. Covering of aluminium electrolytic cell including cathode with enveloping sheet and alumina filler contains gas-collecting bell, burner and secondary gas-collector, containing from folds. Folds of secondary gas-collector through connected to its bottom part isolated supports are installed on top edge of enveloping sheet. Folds are installed with ability of sliding by top edge at movement of self-burning anode with formation of clearance between them, located higher than level of alumina filler.

EFFECT: effectiveness increasing of gas after burning in burners that essentially reduces background discharges into environment.

1 dwg, 1 tbl

Description

The invention relates to non-ferrous metallurgy, to the electrolytic production of aluminum from molten salts, and in particular to shelters of the anode space on electrolyzers with an overhead current lead.

It is known that electrolyzers with a top current lead for collecting gases emitted from under a self-burning anode are equipped with a gas collecting bell with a burner (Aluminum production. VG Terentyev et al., Irkutsk, 2001, p. 102).

A disadvantage of the known shelter of the electrolyzer is that when depressurization of the anode space, the efficiency of collecting gas released from the self-baking anode of gases decreases by the gas collection bell; accordingly, the amount of harmful emissions into the atmosphere increases.

Closest to the claimed solution in technical essence is the shelter of the electrolyzer with the upper current lead, containing the cathode with a cladding sheet and an alumina backfill, including a gas collection bell, a burner and a secondary gas collector from flaps immersed in the alumina backfill with the lower edge (Solving environmental problems in aluminum production. WAMI, 1990, pp. 34-36).

The disadvantage of sheltering the prototype electrolyzer is that air is drawn into the secondary gas collector, which entrains particles of alumina and carbon. Particles adsorb resinous substances from anode gases, which leads to overgrowth of the inner cavity of the burner with dust and tar deposits. As a result, the afterburning efficiency of resinous substances is deteriorating. The overgrown burner often goes out, which leads to an increase in the concentration of harmful emissions into the atmosphere.

The basis of the invention is the task of developing a shelter for an aluminum electrolyzer with a self-burning anode and an upper current lead, the use of which would increase the efficiency of burning resinous substances in the burner and reduce the amount of harmful emissions from the electrolyzer into the atmosphere.

The technical result, due to which an increase in the efficiency of burning resinous substances in the burner is achieved, is to reduce dust removal from the surface of the alumina backfill with air sucked through the gap into the secondary gas collector, which is determined by the design of the electrolyzer cover with an upper current supply, which reduces the dust content of the air entering the burner.

The problem is solved in that in the shelter of an aluminum electrolyzer with a self-burning anode and an upper current lead, including a cathode with a cladding sheet and an alumina backfill containing a gas collection bell, a burner and a secondary gas collector, consisting of the valves, according to the claimed invention, the valves of the secondary gas collection their parts are insulated supports mounted on the upper edge of the cladding sheet with the possibility of sliding along it when moving the self-burning anode and is formed a gap between them located above the level of alumina backfill.

The inventive device differs from the prototype in that the flaps of the secondary gas collector through insulated supports are installed on the upper edge of the sizing sheet with the formation of a constant gap in size located above the level of alumina backfill. As a result, dust removal from the surface of the alumina backfill decreases with the air sucked through the gap into the secondary gas collector, which increases the efficiency of the burners and, accordingly, reduces harmful emissions into the atmosphere. When the anode of the electrolyzer is moved up or down due to the sliding of the supports along the upper edge of the cladding sheet, contact between them remains with a constant value of the gap.

A comparative analysis of the essential features of the proposed solution and the essential features of the analogue and prototype indicates that the solution meets the criterion of "novelty."

Comparison of the proposed solution not only with the prototype, but also with other technical solutions in this technical field, did not reveal the signs that distinguish the claimed solution from the prototype, which makes it possible to conclude that the criterion of "inventive step".

The invention is illustrated by the drawing, which shows the cathode 1 of the electrolyzer with a top current lead with a cladding sheet fixed to the cathode 1. Alumina backfill 3 is placed on the cathode 2. A gas collection bell 5 is fixed to the anode 4. Secondary gas collector 6 consists of leaves 7. To the bottom the sash 7 attached insulated support 8.

The device operates as follows.

To conduct tests on an aluminum electrolyzer with a top current lead equipped with a gas collection bell, a secondary gas collector was installed from the sashes with two insulated supports of 5 cm width attached to their lower part.The supports create a gap of 3 cm between the lower edge of the sash and the upper edge of the sizing sheet. The test results are shown in the table.

Options The claimed shelter Prototype The temperature of the gases at the outlet of the burner, ° C 1100 990 The content of resinous substances at the outlet of the burner, mg / nm ³ 9 25

The test results shown in the table indicate a greater completeness of combustion of resinous substances on the cell when using the inventive shelter.

Using the proposed shelter design increases the efficiency of gas afterburning in burners, which significantly reduces lantern emissions into the environment.

Claims (1)

Shelter of an aluminum electrolyzer with a self-baking anode and an upper current supply, including a cathode with a cladding sheet and an alumina backfill, containing a gas collection bell, a burner and a secondary gas collector, consisting of valves, characterized in that the valves of the secondary gas collector are installed through insulated supports attached to the lower part of the top the edge of the cladding sheet with the possibility of sliding along it when moving the self-burning anode and with the formation of a gap between them located above the level of h foreign backfill.

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