SU1413391A2 - Open-hearth furnace regenerator - Google Patents

Abstract

This invention relates to the steel industry. The purpose of the invention is to increase the efficiency of the regenerator and the life of the nozzles. The nozzle 4 of the regenerator adjacent to the gas exhaust duct 7 with a smaller passage section of the channels is performed with longitudinal channels 9 and transverse channels 10 from the level of the dividing partition 5 to the arch 8 of the regenerator. The living section of the longitudinal channels 9 is twice as large as the transverse channels 10. The invention eliminates the uneven heating of the nozzle, increases the heating temperature of the fan air by 5-8%, and increases the furnace campaign for nozzles by 30-50 heats. 1 p. F-ly, 1 ill. a B (L

Description

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The invention relates to ferrous metallurgy, in particular, to the design of regenerators of an open-hearth furnace, and is an improvement of the regenerator of an open-hearth furnace according to author. No. 585386.

The aim of the invention is to increase the efficiency of the regenerator and the service life of the nozzles.

The drawing shows a regenerator longitudinal section,

The regenerator contains a saddle wall 1 on the side of the slag, a regenerative chamber consisting of a nozzle space 2, a nozzle 3 located on the side of the slag with a large cross section through the vertical channels, the nozzle 4 when it goes to the gas outlet path with a smaller section vertical channels, while the flow area of the nozzle channels 3 is 5–15% larger than the cross section of the channels 4, the dividing vertical partition 5 protruding into the supra-nesting space 2 is 0.1-0.2 of its height, and the total for nozzles 3, 4 is sub-nozzle a space 6 connected to the gas exhaust line 7. The nozzle 4 is made up to the arch 8 of the regenerator from the level of the dividing wall 5 with the longitudinal channels 9 and the transverse channels 10 for the passage of flue gases. The living section of the longitudinal channels 9 is twice the living section of the transverse channels 10.

The regenerator works as follows.

Flue gases with a temperature of 1700-from the slag through the saddle wall 1 enter the supra-nesting space. Pass through the nozzles 3 and 4, heat them to a predetermined temperature, enter the sub-nominal space 6, and are removed through the exhaust gas 7.

When the nozzle is heated to a predetermined temperature, the flow of flue gas gases to the regenerator is stopped and air is injected into the sub-headspace 6, which, passing through the nozzles 3, 4, heats up and enters the super-head space 2, from where it passes through the pass wall 1 into the open-hearth space ovens.

 Due to the fact that the part 7 adjacent to the exhaust pipe

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The pits 4 are made up to the arch 8 of the regenerator, and the refractory masonry from the level of the dividing wall 5 to the arch 8 forms longitudinal 9 and ab. Pepper 10 channels for flue gases, and the living section of the longitudinal channels is two times larger than the transverse ones;

0 small section of channels

decreases, the efficiency of the regenerator increases.

In the described regenerator additional purification of flue gases from

The t5 of the melting pan is carried out at the end of the nozzle 4, from the level of the partition wall to the roof 8, while the resistance of the nozzle 4 is increased. Selection of the cross section of the longitudinal channels in

Twenty two times the cross section of the transverse channels is determined by the optimum conditions of service of the nozzle and is determined by calculation.

Provide heat transfer and durability

The 25 nozzles in the proposed regenerator are improved as the flue gases are distributed evenly over the entire surface of the nozzle, which eliminates uneven heating of the nozzle, the fan air flows evenly throughout the entire nozzle section, while its temperature rises 10-15 ° C gases, the passage through the nozzle 4, is cleaned at the entrance to

With the longitudinal channels and the resistance of this part of the nozzle increases, increasing the overall life of the entire nozzle.

4Q As a result of using the invention, the furnace campaign by: nozzles is increased by 10-12%, i.e. 20-50 heats.

Claims (1)

Invention Formula Regenerator open-hearth furnace auth.St. No. 585386, characterized in that, in order to increase the efficiency of the regenerator and the service life of the nozzles, the part of the regenerative nozzle adjacent to the gas exhaust duct is made from the level of a dividing vertical partition with longitudinal and transverse channels for the passage of flue gases, while two times more than the transverse.