SU1129252A1 - Recuperative soaking pit - Google Patents

Abstract

1. A REGENERATIVE HEATING WELL containing a working chamber, regenerators with a nozzle for heating the air, installed in pairs on opposite sides of the chamber, and gas supplying pipes located between the regenerators in each pair, distinguished by the fact that in order to reduce service life and reduce fuel consumption , the well is equipped with additional vertically installed slit chambers between the regenerators in each pair, each of which is connected in its lower part to the gas supply pipe, and The upper part - with the working chamber from the side adjacent to it. 8 th with IN9 ate 4 W //////// // // //:

Description

2. A POP.1 well, characterized in that each slit chamber is connected to the working chamber by means of an aperture in it located from the upper edge of the nozzle

regenerator at a distance of 0.15–0.40 in the height of the regenerator, and the width of the nozzle of the regenerator adjacent to the working chamber of the well is 0.4–0.7 width of the other regenerator of this pair.

one

The invention relates to heating wells and can be used in the factories of the metallurgical industry.

A regenerative heating well is known, which contains the KeiMepy working and regenerators for heating air with cold gas supply through the end wall of the regenerator into the supra-nesting space along its longitudinal axis ;.

The disadvantages of this design are high fuel consumption and low durability.

The closest in technical essence and the achieved result to the invention is a regenerative heating well, containing a working chamber, regenerators for heating air, installed in pairs on opposite sides of the chamber, and gas supplying pipelines placed in each pair of regenerators between them 2.

The disadvantages of the known construction of the heating well are the relatively high fuel consumption and the short turnaround time due to the formation of refractory slags and the need to remove it mechanically.

The purpose of the invention is to increase the service life and reduce fuel consumption.

This goal is achieved by the fact that a regenerative heating well containing a working chamber, regenerators with a nozzle for heating the air, installed in pairs on opposite sides of the chamber, and gas supplying pipes located between the regenerators in each pair, are provided with additional vertically installed between the regenerators in each pair slit chambers, each of which is connected in its lower part with the gas supplying pipeline, and in the upper part with the working chamber on the side adjacent to it.

In addition, each slit chamber is connected to the working chamber through holes in it, located from the upper edge of the lamina.

the regenerator at a distance of 0.15–0.40 in the height of the regenerator, and the width of the nozzle of the regenerator adjacent to the working chamber of the well is 0.40, and the width of the other regenerator is a pair.

Such a well construction provides partial heating of the gas — and full use of oxygen on the upper part of the regenerator nozzle adjacent to the working chamber, and the formation of scale at the bottom is mainly in the form of FeO, which is periodically removed in the molten form and does not require stopping the well to remove scale by mechanical means .

The drawing shows a half of the heating well, a section along the longitudinal axis.

Regenerative heating well contains a working chamber 1, gas slit chambers 2, air regenerators 3 and 4, located on opposite sides of the working chamber, supply gas line 5, air-smoke burs 6, holes H, located in the upper hour: separating wall between the gas a chamber and an air regenerator immediately adjacent to the working chamber at a distance h / H of 0.15-0.40; and the supra-nodal space 3 with an A / B size ratio of 0.4-0.7, where-h is the distance from the top of the regenerator nozzle to the hole in the slit chamber: H is the height of the regenerator, L is the width of the regenerator adjacent to the working chamber b - width of the elastic regenerator in each pair

The heating well works as follows.

The gas supplied through the supply gas line 5 to the heating well enters the lower part of the gas chamber 2, rises therein to the openings 7 through which it goes to the nozzle of the air regenerator 3, where it mixes with the air passing through this regenerator and incomplete combustion. Products of incomplete combustion of gas escape from the regenerator 3 into the supernatant pro-gas 11292 space 8, where they meet with air coming from the regenerator 4. In the super-nozzle space there is an after-burning of gas, which continues in the working chamber 1, while at the bottom of the fire 5 not containing oxygen, which is necessary for the predominant formation of low-melting iron oxide in the welding slag. A reduction in the ratio / 6 of less than 0.4 and an increase in the ratio h / H of more than 0.4 will lead to a reduction in the air flow through the regenerator 3 10 2 and impair the thermal operation of the well. An increase in the A / B ratio of more than 0.7 and a decrease in the h / H ratio of less than 0.15 will lead to an increase in the air flow through the regenerator 3 and the appearance of an excess of free oxygen above the hearth, i.e. to the formation of refractory scale. The economic effect from the introduction of the proposed device on one group of wells will be 112 thousand rubles. per year by increasing the turnaround time and reducing fuel consumption.

Claims (2)

1. REGENERATIVE HEATING WELL containing a working chamber, regenerators with a nozzle for heating air, installed in pairs on opposite sides of the chamber, and gas supply pipes located between the regenerators in each pair, characterized in that, in order to increase the service life and reduce fuel consumption , the well is equipped with additional slit chambers vertically mounted between the regenerators in each pair, each of which is connected in its lower part to the gas supply pipe, and at the top hour ty - with a working chamber from the side adjacent to it. boo boo boo 2. Well pop. 1, characterized in that each slotted chamber is connected to the working chamber through an opening in it located from the upper cut of the regenerator nozzle at a distance of 0.15 0.4 0 regenerator height, and the width of the regenerator nozzle adjacent to the working chamber well, equal to 0.4-0.7 width of another regenerator of this pair.