RU1786081C - Arrangement for hot blasting into blast furnace - Google Patents

Abstract

SUMMARY OF THE INVENTION: the device comprises a direct air duct, tuyere devices, and also a hot air supply unit for blowing to them, including an annular air duct and made in the form of two ring air ducts of the same cross section arranged one above the other. These air ducts are connected to the direct air duct at two diametrically opposite points. In this case, sequentially located tuyere devices are connected to different annular air ducts. In another embodiment, two annular air ducts are interconnected by a continuous axial overflow channel, and all tuyere devices are connected to the lower annular air duct. 6 ill. fe

Description

FIELD OF THE INVENTION This invention relates to ferrous metallurgy, in particular to devices for a hot blast furnace duct.

A ring hot air duct of a hot blast furnace is known, equipped with two clamps in a refractory lining located symmetrically with respect to the longitudinal axis of the insert of a straight air duct in a ring at a radial angle of 110-120 °.

However, the pinch in the refractory lining does not completely eliminate the uneven distribution of blowing over the tuyeres of the blast furnace, which leads to a decrease in furnace productivity and an increase in coke consumption.

A ring duct of hot blast is known, which distributes the hot blast over the tuyeres of a blast furnace.

A disadvantage of the known device is the uneven distribution of hot blowing over the tuyeres of a blast furnace, which leads to a decrease in furnace productivity and an increase in coke consumption.

The aim of the invention is to increase the productivity of furnaces and reduce the consumption of coke by reducing the uneven distribution of the blow across the diameter of the furnace.

This goal is achieved by the fact that, in the device for introducing hot air into a blast furnace containing a direct air duct, tuyere devices, as well as a hot air supply unit for them, into a ring air duct, the hot air supply unit is made in the form two, one above the other circular air ducts of the same cross section, VV 00 О О 00

which are connected to the direct air duct at two diametrically opposite points, while successive lance devices are connected to the lower annular air duct.

An analysis of the known technical solutions in the studied area allows us to conclude that there are no signs in them that are similar to the essential distinguishing features in the claimed device and to recognize significant differences for the claimed solution as being relevant.

In FIG. 1 - 3 shows the annular air duct of the blast furnace, made according to the 1st option; in FIG. 4 - 6 - the same, according to the 2nd option; in FIG. 1 shows a blast furnace on which successive tuyere devices are connected to different annular air ducts; in FIG. 2 and 3 - circular air ducts (upper and lower in horizontal section) of the blast furnace; figure 4 - blast furnace with annular air ducts provided with a transfer channel; in FIG. 5 - horizontal section of the furnace; in FIG. 6 is a cross-sectional view of an annular air duct with a transfer channel.

The first device for injecting hot air into the blast furnace according to the first embodiment includes a blast furnace 1, two circular air ducts 2 and 3 of the same cross section, one above the other. When approaching the ring air ducts 2 and 3, the direct air duct is divided into two branches 6 and 7: branch b cuts into the lower annular air duct 3, and branch 7 cuts into the upper annular air duct 2,

Moreover, the insets of branches 6 and 7 of the direct air duct of hot blowing in the annular air duct 2 and 3 are located diametrically opposed to each other. Sequentially located devices 4 and 5 are connected to different circular air ducts, i.e. half of them come from the upper annular air duct 2, and the other half come from the lower annular air duct 3.

The input device of which is to blow into the blast furnace operates as follows.

Hot blast is supplied through branches 6 and 7 of the direct air duct to the annular air ducts 2 and 3 and further to the tuyere devices 4 and 5.

Since in the upper annular air duct 2, the maximum pressure of hot air blowing is above the minimum of pressure of hot air in the lower ring air duct 3, and the maximum pressure of hot air is in the lower ring air duct

3 is at a minimum pressure in the upper annular duct 2, the pressure of hot blast entering the blast furnace 1 through tuyeres

4 and 5, located through one device 5, belongs to the upper ring air duct 2, device 4 to the lower ring air duct 3, device 5 again to the upper 2, etc.) over the entire cross section of the furnace

1 in the tuyere zone is almost the same.

Since the pressure is hot, it enters furnace 1 from a tuyere device leaving the point of maximum pressure

blowing in one ring air duct will be maximal, next to this tuyere device there will be tuyere devices coming out from the point of minimum pressure of hot blowing in

another ring duct and vice versa, therefore, in the tuyere zone along the cross section of the blast furnace 1, the pressure of hot blowing will be almost equal at all points.

The device for introducing hot air into the blast furnace, considered in the second embodiment, includes a blast furnace 1, two circular air ducts of hot air blowing 2 and 3 of the same cross section, located

one above the other. Both ring air ducts upper 2 and lower 3 are interconnected by a continuous axial transfer channel 8.

My air duct

when approaching the annular air ducts 2 and 3 it is divided into two parts, one of which 7 cuts into the upper annular air duct 2, the other 6 into the lower annular air duct 3.

Since all tuyere devices 4 connecting the annular hot air ducts with the blast furnace 1 are cut into the lower annular air duct 3, they can be used as standard.

The input device hot blow into the blast furnace, considered in the second embodiment, works as follows.

The hot blast is fed through branches m and 7 of the direct air duct to the annular air ducts 2 and 3 and then to the tuyeres 4. Since the upper annular air duct 2 has a maximum maximum hot air pressure

the minimum pressure of hot blowing the lower ring air duct 3, and the maximum pressure of hot blowing in the lower ring air duct 3 is under the minimum pressure of the upper ring air duct 2, the pressure of which is hot in both

ring air ducts, or rather, in the system of ring air ducts absolutely evenly at any point in the system of ring air ducts, since both ring air ducts 2 and 3 are interconnected by a continuous axial overflow channel 8, which makes it possible to equalize the hot pressure at any point in the ring air duct system. Where the pressure of hot blowing is less in the upper ring air duct 2, there it is greater in the lower ring air duct 3, by connecting the continuous annular air ducts 2 and 3, the continuous axial overflow channel 8, the pressure of hot blowing at this point will become equal in both ring air ducts 2 and 3, since from excess pressure to blow in the lower ring air duct 3 will fill the lack of pressure to blow in the upper ring air duct 2, and so at any point in the system of both ring air ducts 2 and 3.

Thus, an absolutely equal pressure of hot blowing is achieved throughout the entire system of annular hot air ducts. Since the pressure of blowing is the same throughout the annular air duct, therefore, hot blast enters the blast furnace 1 with the same pressure, which leads to the formation of identical equal in magnitude tuyeres

Claims (1)

foci and, consequently, to a more uniform descent of the charge in the furnace of the blast furnace, due to a more uniform heat and auxiliary gas treatment of the blast furnace charge. This helps to improve the technological performance of the blast furnace and allows to increase the furnace productivity by 1% and reduce the specific coke consumption by 1%. SUMMARY OF THE INVENTION A device for introducing hot air into a blast furnace containing a direct air duct, tuyere devices and a hot air supply unit having an annular air duct, characterized in that, in order to increase the productivity of the furnace and reduce the consumption of coke by reducing the uneven distribution of the blow according to the diameter of the hearth, the hot air supply unit is made in the form of two ring air ducts of the same cross section arranged one above the other, which are connected to a straight air duct in two diameters cial opposite points, wherein the sequentially arranged tuyere assemblies connected to different ring conduits or two annular air duct are interconnected by a continuous axial overflow channel, and all the tuyere assembly connected to the lower annular duct. Schia1 teJ G ------ 7 / g -4- (A I 1 / L. At fi g. 6