UA81090C2 - Electrolyser - Google Patents

Abstract

The invention relates to non-ferrous metallurgy, in particular to the construction of an electrolyzer for obtaining metals from aqueous solutions of acids or salts thereof. The electrolyzer comprises a bath for electrolyte with an opening for outboard suction unit, stationary anodes, alteration cathodes and housings. Electrolyzer housing is installed along electrolyzer bath perimeter over the opening of outboard suction unit around anodes and cathodes. Area of electrolyzer around anodes and cathodes, free of electrolyzer housing, is 20-30 % of the electrolyte bath. The invention provides reduction of power inputs and decreasing of harmful substance liberation from the electrolyzer provided explosion safety of gas-and-air mixture, which is removed through the outboard suction unit.

Description

Description of the invention

The claimed invention relates to devices for obtaining metals by an electrolytic method and can be used during the obtaining of chromium by electrolysis of an aqueous solution of its acids and salts.

The electrolyzer chosen for the prototype, which is the closest in terms of features to the invention, is the electrolyzer, which contains an electrolyte bath with a slot for an on-board suction, stationary anodes, replaceable cathodes and an electrolyzer cover, which is located above the on-board suction slot. The cover of the electrolyzer is made in the form of overlays installed in the horizontal plane on the anodes above the slot of the on-board suction, fixed along their entire width on both sides and made with a decrease in width as they move away from the slot of the onboard suction, as well as overlays on the cathodes fixed across their width on both sides and made with the possibility of connection with anode overlays (Assembly of the USSR Mo1592403, IPC C25S7/00, publ. 09/15/1990, Bull. Moz4).

The object claimed as an invention and the selected prototype have the following essential features. Both units contain an electrolyte bath with an on-board suction port, fixed anodes, replaceable cathodes, and an electrolyser housing that sits above the on-board suction port.

The analysis of the technical properties of the prototype, determined by its features, shows that the following reasons prevent the obtaining of the expected technical result when using the prototype. The shortcomings of the prototype electrolyzer include a large uncovered area of the electrolyte mirror around the perimeter of the electrolyzer bath. According to 720 requirements of the technological process of obtaining chromium by electrolysis of an aqueous solution of its acids and salts, the width of the electrolyzer bath is much wider than the width of the anodes and cathodes. There are also large gaps between the extreme anodes along the length of the bath and the end walls of the bath. For example, in an electrolyzer, the length of the bath for the electrolyte is 1050 mm, the width is ZbOhm, while the distance between the axes of the extreme anodes is 81 mm, and the width of the cathodes and anodes is 250 mm. In particular, such an uncovered zone is due to the need to suck air into the electrolyzer from the outside, ensuring the dilution of the explosive mixture of hydrogen and (He) oxygen, which is formed from the water component of the electrolyte during electrolysis, to safe concentrations. However, the presence of a large uncovered zone of the electrolyte mirror leads to the removal of large volumes of harmful substances from the electrolyzer outside into the atmosphere, polluting it. The speed of air suction from the outside into the electrolyzer to dilute the explosive mixture, which is formed during electrolysis, to safe concentrations in the place farthest from the slot of the on-board suction should ensure complete Ф) removal of harmful substances from the electrolyzer. Due to the presence of the indicated large uncovered area, the operation of such an electrolyzer is characterized by high energy costs for sucking in a large volume of air from the outside to dilute the explosive mixture that is formed during electrolysis and for the complete suction of the formed gas-air mixture from the electrolyzer, which needs to be removed. In the conditions of industrial production with large total areas of electrolyzer baths, such a technical solution is characterized by low efficiency.

The basis of the claimed invention is the technical task of creating such an electrolyzer design, in which improvements by introducing new elements and new ratios between elements allow, when using the invention, to ensure the achievement of the technical result, which consists in reducing the release of harmful substances from the electrolyzer by explosion-proof conditions of the gas-air mixture, which is removed from the electrolyzer through the on-board suction, and reduction of energy consumption. c The electrolyzer claimed as an invention is characterized by such essential features sufficient to achieve the expected technical result. The electrolyser contains an electrolyte bath with an on-board suction slot, stationary anodes, replaceable cathodes and an electrolyser housing that is located above the on-board suction slot 15. The electrolyzer cover is installed around the perimeter of the electrolyte bath around the anodes and cathodes. At the same time, the area of the area of the electrolyzer free from shelter around the anodes and cathodes is 20-3095 of the area of the bath for the electrolyte. o in some cases, the execution of the electrolyzer is characterized by the fact that: - contains additional shelter in the form of overlays fixed on the anodes along their entire width above the slot (se) 50 of the on-board suction; o - contains additional shelter in the form of overlays fixed on the cathodes along their entire width above the on-board suction cup slot; - contains additional shelter in the form of overlays fixed on the anodes and cathodes along their entire width above the slot of the on-board suction.

When using the invention, the achievement of the technical is ensured

GF) of the result, which consists in the reduction of emissions of harmful substances from the electrolyzer under the condition of 7 explosion safety of the gas-air mixture, which is removed from the electrolyzer through the on-board suction, and the reduction of energy consumption.

There is such a cause and effect relationship between the essential features of the claimed invention and the technical result that is achieved. Equipping the electrolyzer with a shelter, which is installed around the perimeter of the electrolyte bath around the anodes and cathodes and provides an area free of shelter around the anodes and cathodes within 20-3095 from the area of the electrolyte bath, allows you to reduce the gaps between the electrodes and the sides of the bath along its entire length. length and width above the slot of the on-board suction, which, in turn, allows to reduce the open area of the electrolyte mirror, preventing the removal of harmful substances from the electrolyzer to the atmosphere, and also ensures the necessary suction of air from the outside into the electrolyzer with speed,

which guarantees the removal of harmful substances from the electrolyte through the slot of the on-board suction, preventing them from being carried outside and ensuring the minimum volumes of the gas-air mixture that is removed through the on-board suction with minimal energy consumption.

The free area of the electrolyzer area around the anodes and cathodes, which is 20-30905 of the area of the bath for the electrolyte, which is free from shelter, allows to ensure the proper speed of air suction from the bath of the electrolyzer at an electrolyte temperature of 18-242С at a level of at least 2 m/s, and also provides the possibility installation and removal of replaceable cathodes without removing the cover, which allows removing the electrolyzer cover during cleaning of the electrolyte bath from contamination. 70 The area of the electrolyzer area around the anodes and cathodes, which is free from the electrolyzer cover, which is less than 2095 of the area of the bath for the electrolyte, does not allow to ensure the proper speed and volume of air suction from the outside into the bath to dilute the explosive mixture of hydrogen and oxygen, which formed from the water component of the electrolyte during electrolysis, up to safe concentrations.

The area of the electrolyzer area around the anodes and cathodes, which is free from the electrolyzer shelter, which is 7/5 more than 3095 of the area of the electrolyte bath, leads to an increase in the open area of the electrolyte mirror, which leads to the removal of harmful substances from the electrolyzer to the outside into the atmosphere, while for ensuring the complete removal of harmful substances from the electrolyzer from the place farthest from the slot of the on-board suction, it is necessary to increase the energy consumption for suction.

The essence of the invention is explained by the drawings, which show: in Fig. 1 - a general view of the electrolyzer; Fig. 2 - section along A-A in Fig. 1. Fig. 3 - top view of the electrolyzer;

The following elements are indicated by positions on the drawings: 1 - bath for electrolyte; c 2 - slot for on-board suction;

C - anodes; i) 4 - cathodes; 5 - shelter; b - overlays; Ha") 7 - electrolyte.

The electrolyzer contains a bath 1 for the electrolyte with a slot 2 for the on-board suction. The slot 2 for the on-board aspirator is located on the vertical wall of the bath 1 above the electrolyte mirror. Stationary anodes З and variable cathodes 4 are placed in the electrolyte bath (3). On the perimeter of the electrolyte bath 1, around the stationary anodes З and variable cathodes 4, a shelter 5 is installed, which is located above the slot 2 of the on-board -

Зз5 Suction cup. In some cases, an additional cover of the electrolyzer in the form of pads 6 can be attached over the entire width of the stationary anodes C over slot 2 of the on-board suction cup. in the form of overlays (not shown in the drawings). In addition, the additional shelter of the electrolyzer can be made in the form of overlays fixed on the anodes and cathodes along their entire width above the slot of the suction side (not shown in the drawings). At the same time, the area of the area of the electrolyzer around the stationary anodes C and variable cathodes 4, which is free from the cover of the electrolyzer, and formed by the cover 5 and the additional cover of the electrolyzer in the form of overlays b, is 2595 of the area of the bath 1 "" for the electrolyte. The cover of the electrolyzer, which is formed by the cover 5 and the additional cover in the form of overlays 6, is made of a dielectric material that has corrosion resistance in the environment of an aqueous solution of acids and chromium salts, for example, from textolite. o The electrolyzer works like this.

Electrolyte 7 is poured into bath 1 for the electrolyte with stationary anodes C below slot 2 for the on-board suction unit to the specified level. Then the cathodes 4 are immersed in the bath 1 for the electrolyte. The cover of the electrolyzer, which is formed by the cover 5 and the additional cover in the form of overlays 6, covers the area of the bath 1 for the electrolyte 5o by 75905, i.e. the area free from the cover of the electrolyte mirror is 2595 of the surface area of the bath 1 for o electrolyte. When voltage is applied to anodes C and cathodes 4, the technological process of obtaining chromium by electrolysis of an aqueous solution of its acids and salts begins. When the fan of the on-board suction system (not shown in the drawings) is turned on, the explosive mixture of hydrogen and oxygen is diluted with air, which is sucked into the electrolyzer from the outside through an area free from shelter at an electrolyte temperature of 18-249С at a speed of at least 5B 2m/s, which is formed during electrolysis from the water component of the electrolyte, to safe concentrations and capture of harmful secretions from the electrolyte into slot 2 of the on-board aspirator. It is necessary to suck air into the electrolyzer from the outside. Through the area free from shelter, ko is provided at a speed that guarantees explosive concentrations of hydrogen and oxygen in the place farthest from the slot 2 of the on-board suction and ensures the complete removal of harmful emissions from the electrolyte 7 in the slot 2 of the on-board suction, preventing their removal outside into the atmosphere and providing minimum volumes of the gas-air mixture, which is removed through slot 2 of the on-board suction with minimum energy consumption.

The use of the claimed invention makes it possible to reduce the total area of the gaps and, as a result, the volume of air that is sucked in from the outside, in comparison with the prototype on 4095. Due to this, it is possible to prevent the removal of harmful substances from the electrolyzer to the outside while ensuring the maximum removal of harmful substances from the electrolyzer through the slot of the on-board aspirator with minimal volumes of gas-air mixture, which is removed through the on-board aspirator with minimal energy consumption.

Claims (4)

The formula of the invention 1. An electrolyzer containing an electrolyte bath with a slot for an on-board suction, stationary anodes, replaceable cathodes and an electrolyzer shelter located above the on-board suction slot, which is characterized by the fact that the shelter is installed around the perimeter of the electrolyte bath around the anodes and cathodes, /o0 at therefore, the area of the electrolyzer area around the anodes and cathodes, which is free from the electrolyzer shelter, is 20-3095 of the area of the electrolyte bath. 2. The electrolyzer according to claim 1, which is characterized by the fact that it contains an additional shelter of the electrolyzer in the form of pads fixed on the anodes along their entire width above the slot of the on-board suction. C. The electrolyzer according to claim 1, which differs in that it contains an additional cover of the electrolyzer in the form of /5 overlays fixed on the cathodes along their entire width above the slot of the on-board suction. 4. The electrolyzer according to claim 1, which is characterized by the fact that it contains an additional shelter of the electrolyzer in the form of overlays fixed on the anodes and cathodes along their entire width above the slot of the on-board suction. c) 6) "c) (o) "c) "- d) - and? (ee) - («c) se) (42) ime) 60 b5