SU1368338A1 - Recuperative soaking pit - Google Patents

Abstract

The invention relates to mining metallurgy, namely to the heating of the metal in the heating wells before rolling on the pressing mills. The goal is to increase the length of the turnaround time by eliminating the second heat exchanger recuperator overheating by radiant heat flux from the lining of the flue duct and increasing the temperature of the air. . The first section consists of a module 6, installed vertically in a wall on the base of a vertical 7 duct, and the other section - in the form of a module 8 located in a wall of a horizontal duct bounding the vertical gas duct from below. An additional wall-screen 11 is installed along the axis of the horizontal gas duct with the formation of variable cross-section channels with the walls of the gas duct with a narrowing in the direction of flue gases in a ratio of 0.8-0.5. 1 hp f-ly, 2 ill. with (/)

Description

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FIELD OF THE INVENTION The invention relates to metal strips, namely, to the heating of a metal in heating wells before rolling on the pressing mills. The purpose of the invention is to increase the duration of the overhaul period by eliminating the second heat exchanger over the heat exchanger's radiant shade from the lining of the flue duct, heating the air temperature in the second section of the jet recuperator, as well as the recuperator second in the course of the smoke.

Figure 1 shows the device, a longitudinal section; Fig.2 is a section A-L in Fig.1.

The device consists of a tubular heat exchanger 1, connected by air ducts 2 and 3, having independently acting chokes 4 and 5 with two vertically and horizontally installed sections of the jet recuperator. The first section, in turn, consists of a module 6 installed in the axis of the vertical gas flue 7, and a module 8 located on the lining of the horizontal gas flue 9, bounding the vertical gas flue 7 from the bottom. The modules 10 of the second section of the heat exchanger are installed in a horizontal duct 9 in two opposite walls, and between them there is a further refractory wall-screen 11, Modules 6, 8 and 10 are connected to the burner 12 of the working chamber of the well 13 by the air duct 14.

The heating well works as follows.

The cold air from the fan is supplied to a metal heat exchanger 1, for example a looped tubular, where it is heated to 400 ° C, and supplied through separate parallel-connected air ducts 2 and 3 to both sections of the jet heat exchanger, where it is heated to 700 C. The favorable conditions of operation of the tubular heat exchanger provide shielding of lining of gas ducts with jet recuperator modules.

Module 6 of the first section, installed vertically, excludes direct radiation of the end wall to the tubular recuperator, and modules 10 of the second section installed in the walls of the horizontal gas duct 9 significantly reduce its radiation from the wall section of the gas duct located between the first section of the jet recuperator and tubular recuperator. Intensive heating of the air in the radiation jet recuperator is ensured by the fact that the modules 8 of the first section are located horizontally in the horizontal lining area

the duct 9, limiting the vertical duct 7 below, receive heat by radiation from a column of high-temperature gases in the vertical duct and from its lining.

The modules 6 and 8 of the first section operate in more severe temperature conditions than the subsequent modules 10, as they come into contact with hot combustion products at the outlet of the working

chambers of well 13. In connection with this, heat transfer therein must be maintained at a higher level for reliable operation. This is ensured by parallel connection of two sections of the jet recuperator with independent regulating throttles 4 and

5, with the help of which an optimum distribution of air flow is performed for the first and second sections.

 Hot air after exiting the modules 6 and 8 of the first section and modules 10 of the second section is fed through a common air duct 14 to the burner 12. Combustion products in the working chamber of the well release heat to the ingots and enter through a window into a vertical gas; stroke 7, then goes down to the vertical 1-1 6 and horizontal 8 modules of the first section of the jet recuperator and enters the horizontal gas flue 9.

In order to reduce the length of the horizon of the duct 9 and thereby reduce heat loss through its lining, modules 10 of the second section of the jet heat exchanger are installed in two opposite walls of the duct. In order not to impair the radiation heat transfer from the gases to the surface of the jet heat exchanger, an additional refractory wall-screen 11 is installed between them. The temperature of the flue gases decreases as they move along the horizontal section.

duct 9. Duct ducts 9 formed by an additional refractory wall and modules of the second section of the jet heat exchanger are reduced along the duct in the direction of flue gases by increasing the width of the additional wall in a ratio of 0.8: 0.5. Further, the flue gases pass through the channels between the modules 10 of the second section and the additional refractory wall 11, flow to the second tubular heat exchanger 1 along the smoke, and from there to the chimney. In addition, the wide end of the wall serves as protection against direct radiation of gases to the first rows of pipes of the heat exchanger 1.

Installing a two-section jet heat exchanger will allow using high pressure air to increase the efficiency of the metal tubular heat exchanger by reducing the overheating of the first row pipes, which will increase the interrepair period of the well operation by 1.5 times.

The device will allow to increase fuel consumption by 5% due to the replacement of a ceramic heat exchanger with a two-section jet, which normalizes the mode of fuel combustion.

Claims (2)

Invention Formula I. A recuperative heating well containing a working chamber, vertical and horizontal ducts, two successively installed air heat exchangers, characterized in that (- Yu 15 0 five 0 five increasing the time between overhauls of ways to eliminate overheating of the second heat exchanger with smoke by radiant heat flux from the lining of the duct; the first heat exchanger along the smoke is a two-section jet recuperator, sections of which are connected in parallel with the second one along the heat exchanger and are made of modules installed in the first section vertically in the wall bounding the horizontal gas flue from the end, and horizontally on y4actKe of the horizontal gas flue bounding the vertical gas flue from below , and in the second section - in the walls of the horizontal gas duct in the area from the first section of the jet recuperator to the second one along the smoke path of the recuperator. 2. POP.1 well, characterized in that, in order to increase the temperature of air preheating in the second section of the jet recuperator and increase the resistance of the second recuperator along the smoke, an additional wall is installed along the axis of the horizontal duct, the cross section of the ducts of the horizontal duct formed between the additional duct wall and walls of the duct, made with a narrowing in the direction of movement of flue gases in the ratio of 0.8: 0.5.