SU1788985A3 - Apparatus for burning of anodic gases, particularly, of aluminum electrolyzer - Google Patents

Description

The invention relates to burner devices can be used in the production of aluminum by electrolysis for burning anode gases.

The aim of the invention is to increase the efficiency of gas combustion and dust collection.

1 shows a burner; figure 2 is the same, cross section.

The device consists of a combustion chamber 1 with an opening for unloading dust in the lower part 2, a gas elbow 3, a pipe 4 for supplying anode gases and pipes 5 for supplying reaction gases.

Anode gases from the electrolyzer enter the burner through the nozzle 4. Air (reaction gas) enters the combustion chamber through the nozzles 5.

The angular introduction of anode gases into the burner creates their vortex movement along the cylindrical wall of the combustion chamber, which ensures a longer stay of gases in the burner and more efficient (more complete) use of the volume of the combustion chamber. Using nozzles for supplying reaction gases connected to the combustion chamber at an angle to its surface, an optimal direction of air flow in the burner is created, providing vortex swirling and uniform mixing of the air-gas mixture in the combustion chamber and a high degree of afterburning of the combustible components of the anode gases.

The best mixing of the gas-air mixture in the burner occurs when air enters the combustion chamber at an angle of 20 - 45 °. The content of carbon monoxide in the gases at the outlet of the burner is 0.025 0.112%. The direction of the air flow in the burner at an angle to its surface of less than 20 ° discourages, in all probability, the flow of anode gases from the walls of the burner, concentrates them in the center and reduces the residence time in the chamber combustion. The carbon monoxide content in the exhaust gases in this case is more than 0.2%. ’·

When installing nozzles for supplying reaction gases at an angle to the surface

1788985 AZ burner over 45 ° air flow is directed almost to the center of the combustion chamber, which does not provide sufficient mixing of air and anode gases. The carbon monoxide content in the exhaust gases again increases to 0.2% or more.

The angle of entry of the pipe for supplying anode gases to the burner is selected based on the minimum dust content in the gases at the outlet of the burner and the maximum degree of surviving gases.

When the nozzle is horizontally introduced into the burner (angle of inclination less than 5 °), the gas flow entering the burner captures the dust deposited on the bottom of the burner and carries it into the general exhaust system. The dust content in the exhaust gases is 0.8 - 1.2 g / nm ³ , i.e. almost 100% pyleunos. With an increase in the angle of inclination of the nozzle to the burner body from 55 ° to 30 °, the dust content in the gases at the outlet. From the burner decreases from 1.0 to 0.25 - 0.3 r / nm ³ . However, with an increase in the angle of inclination of the nozzle inlet to the burner above 30 °, the residence time of the anode gases in the combustion chamber decreases and, as a result, the degree of survival of the combustible components of the anode gases decreases.

The table shows the operating parameters of the burners of the known and proposed designs (the content of carbon monoxide and dust in the gases at the outlet of the burner).

Claims (1)

Claim A device for burning anode gases, mainly an aluminum electrolyzer, containing a combustion chamber and nozzles for supplying anode and reaction gases, connected to the combustion chamber at an angle to its surface, characterized in that, in order to increase the efficiency of gas combustion and dust collection, the nozzle the anode gas supply is set at an angle of 5 - 30 ° to the plane of the cross section of the combustion chamber, and the angle formed by the axis of the pipe for supplying the reaction gas and tangent to the surface of the chamber is 20 - 45 ^p . Burner The content of carbon monoxide,% The dust content, g / nm ³ Crevice 0.8 0.8 With angled inlet 0.2 0.8 Proposed 0.025-0.112 0.25-0.3