SU971883A1 - Device for addmiting hot blast to blast furnace - Google Patents

Description

The invention relates to metallurgy, and more particularly to the equipment of blast furnaces.

A device for introducing grief ··· is known, which means blasting into a blast furnace, consisting of direct and circular air ducts, tuyere devices containing fixed and movable elbows, nozzles, fittings and tuyeres £ 1 3.

The known device does not ensure uniform distribution of air blast over the tuyeres when it is fed into the blast furnace, since the flow rate of the blast increases in the direction from the place of injection of the blast into the annular air duct to the diametrically opposite section of the annular air duct. In addition, an increased ₂ o blast consumption is observed for tuyeres, which are located above the notch. Moreover, the indicated unevenness is stable in nature.

The closest in technical essence and the achieved results to the invention is a device for introducing hot blast into a blast furnace, consisting of direct and circular air ducts, tuyere devices containing elbows, nozzles and tuyeres of various diameters ζ 3].

The disadvantage of this device is the complexity of the operation of the blast control system, as well as the low resistance of butterfly valves? working at high temperatures. Due to the low resistance of throttle valves, the systems controlling the flow of blows by tuyeres practically do not work, and the blast is distributed unequally among the tuyeres, which reduces the technical and economic performance of the blast furnace.

The purpose of the invention is to increase the reliability, stability of the distribution of blast by tuyeres and improve technology3

У71 »83 co-economic indicators of the blast furnace.

This goal is achieved by the fact that in the device for introducing hot blast, consisting of a direct and annular air ducts, tuyere devices containing knees and tuyeres, according to the invention, the diameters of the tuyeres are made decreasing in the direction from the junction of the direct and ring air ducts to the diametrically opposite section of the ring air duct, the ratio of the maximum diameter of the tuyeres to the minimum is within 1, 061.28.

An embodiment of the invention is also possible when the diameter of the nozzles of the tuyere devices is made similar to decreasing tuyeres.

The ratio between the maximum and minimum tuyere diameters in the range of 1.06–1.28 is due to the conditions for the uniform distribution of blast over tuyeres, ensuring an even run of the blast furnace.

Deviation in the direction of increasing or decreasing will lead to an uneven distribution of blast by tuyeres and, as a result, disruption of the furnace course and a decrease in its technical and economic indicators.

The drawing shows a device plan.

The device comprises a direct air duct 1 of hot blast connected to the annular air duct 2 of the blast furnace 3. Lance devices containing knees 4, nozzles 5, lances 6 are connected to the annular air duct. Lances 6 are made with different diameters, while in the direction from the direct air duct 1 with an annular air duct 2 and a diametrically opposite section of the annular air duct 2.

When making a nozzle 5 with a variable passage section, the latter are installed with similar tuyeres, a decreasing section in the direction from the joint of the direct air pipe 1 with the ring air pipe 2 to the diametrically opposite section of the ring air pipe 2. The required size of the cross section of each nozzle is selected based on the conditions of equal blast flow rates through each lance at the beginning of the furnace campaign or with existing changes in the conditions of its operation.

The device operates as follows.

The hot blast from the heaters through the direct air duct 1 enters the annular air duct 2, from which it is distributed through the tuyere devices and through the elbows, 50 nozzles 5 and the tuyeres 6 is fed to the furnace of the blast furnace 3. The diameters of the tuyeres 6 are made at the beginning of the furnace campaign or, if necessary a significant improvement in the flatness of the surface, let it lie down, and in the future the distribution pattern of the blast by tuyeres remains constant.

When installing nozzles with a variable flow cross-section, if it is detected that a much larger quantity of blast is constantly passing through a tuyere device than through the others, a nozzle of a smaller 25th section is installed in this tuyere device so that the blast consumption decreases to a predetermined value . At lower flow rates, a nozzle with a large passage cross section is installed. A variant is possible, when the cross section of the elements ₃₀ and above the notches can be smaller than that located behind them in the direction from the junction of the direct and circular air ducts to the diametrically opposite section of the circular air duct.

The proposed device will improve the stability of the distribution of blast by tuyeres of a blast furnace, simplify maintenance and, as a result of this 40th, increase the productivity of blast furnaces by about 1% and reduce coke consumption by 1.5%.

Claims (3)

The invention relates to metallurgy, and more specifically to the equipment of blast furnaces. It is known to introduce a mountain-to-device, which is blown into a blast furnace consisting of direct and annular air ducts, tuyeres containing stationary and movable elbows, nozzles, fittings and tuyeres. The well-known device does not ensure an even distribution of air blowing over tuyeres when supplying it to the blast furnace, since the flow rate to blow increases in the direction from the point of entry to blow into the annular air duct to the diametrically opposite section of the annular air duct. In addition, an increased consumption of blowing is observed in the tuyeres, which are located above the tap-holes. Moreover, this non-uniformity has a stable character 2 J. The closest in technical essence and achieved results to the invention is an injection device for hot blowing into a blast furnace consisting of direct and annular air ducts, tuyere instruments containing elbows, nozzles and tuyeres of various diameter t 3. The disadvantage of this device is the complexity of operating the control system for blowing, as well as the low resistance of throttle valves operating in high temperature conditions. Due to the low resistance of the throttle valves of the flow control system, blowing tuyeres practically do not work, and the blast is distributed unevenly over the tuyeres, which reduces the technical and economic performance of the blast furnace. The purpose of the invention is to increase the reliability, stability of the distribution of blowing over tuyeres and improving the technical performance of the blast furnace. The goal is achieved by the fact that in the inlet device there is a hot blow consisting of direct and circular air ducts, tuyere tools containing elbows and tuyeres, according to the invention, the diameters of the tuyeres are made decreasing from the articulated straight and circular ducts to the diametrically opposite one the section of the annular air duct, while the ratio of the maximum diameter of the tuyeres to the minimum is within 1.061, 28. An embodiment of the invention is also possible when the diameter of the nozzles of the tuyere assemblies is made of similarly decreasing tuyeres. The ratio between the maximum and minimum diameter of tuyeres within the range of 1.06-1.28 is determined by the conditions of uniform distribution of blowing through the tuyeres ensuring an even course of the blast furnace. Deviation to the side of increasing or decreasing will result in uneven distribution of blowing along the tuyere and, as a result, violation the progress of the furnace and reduce its technical and economic indicators. The drawing shows the device. The device contains a direct air duct 1, a hot blowing connected to an annular air duct 2 of a blast furnace 3. The annular air duct is connected to tuyere instruments containing knee h, nozzles 5, tuyeres 6c. Tuyeres 6 are made with different diameters, while in the direction from the articulation of the direct air duct 1 with the annular air duct 2 and diametrically opposite to the section of the annular air duct 2. When performing the nozzle | j with a variable flow section, the latter are installed with a similar tuyeres decreasing by section from articulated straight air duct 1 with annular air duct 2 to diametrically opposite section of annular air duct 2. The required section size of each nozzle is chosen based on equal flow conditions through each tuyere at the beginning of the kiln campaign 34 or with existing changes conditions of its operation. The device operates as follows. Hot blast from air heaters through the direct air duct 1 enters the annular air duct 2, from which it is distributed through tuyere devices and through elbows k, nozzles 5 and tuyere 6 is fed into the hearth furnace 3. The diameters of the tuyeres 6 are made at the beginning of the kiln campaign. or, if necessary, a significant improvement in the evenness of the furnace course, and later on the nature of the distribution of blowing the tuyeres remains constant. When installing nozzles with a variable flow section, in the case of a discovery that a much larger amount of blow through the tuyere device continuously blows than the others, a nozzle of a smaller section is installed in this tuyere device so that the flow rate is reduced to a predetermined value . At lower flow rates, the blown-down nozzle with a large flow area is used. It is possible that the cross-section of the elements above the gates may be less than that of the elements located behind them from the junction of the straight and ring air ducts to the diametrically opposite part of the ring air duct. The proposed device will improve the stability of the distribution of blowing blast furnace tuyeres, simplify maintenance and, consequently, increase the productivity of blast furnaces by about 1S; and reduce coke consumption by 1.5%. Claim 1. Intake device is hot in a blast furnace consisting of direct and annular air ducts, tuyere devices containing elbows, nozzles and tuyeres of different diameters, characterized in that, in order to increase the stability of the uniform distribution, blowing tuyeres and As a result, the improvement of the technical and economic performance of the blast furnace, the diameters of the tuyeres are made with a decrease in the direction from the junction of the direct and ring air ducts to the diametrically opposite section of the ring an air duct, the ratio of the maximum diameter of the tuyere to the minimum is 1.06-1.28, 2. The device according to claim 1, about 1 liter and that the diameter of the nozzles of the tuyere devices is made similar to the tuyeres. 36 Sources of information taken into account in the examination 1, Zyuzin V, I. Mechanical and material handling equipment for blast furnaces. M., Metallurgizdat, 1962, p. 246-251. 2. To produce universities. Cherna metallurgists, № 12, 1978, 3. Belgium patent No., cl. From 21 to 7/16, published 1976