SU489348A3 - Airy lance - Google Patents

Description

(54) AIRFURMA

one

The invention relates to the recovery of materials in shaft furnaces and can be used in ferrous and non-ferrous metallurgy.

A known air tuyere with a longitudinal section in the form of a Laval nozzle, comprising a flange with tubes for supplying and discharging a cooler and a cone moving axially in a narrow part of the tuyere to adjust the critical section as the parameters change to blow.

The reliability of the known device is small due to the presence of moving parts operating in severe temperature conditions and at high pressure.

The proposed lance is characterized in that it is provided with an insert articulated with its flange, in which an annular cavity is connected in communication with the lance channel and the reagent supply pipe, the working surface of the insert being conical with the nozzle taper.

This provides a change in the cross section of the narrowest part of the Lawal nozzle at

changing the parameters of the blow mode and allows the maximum amount of reagent to be blown in, corresponding to the new parameters at the same flow rates.

The drawing shows the proposed lance.

The tuyere of the chambered furnace 1 is located in the extension of the nozzle 2. The internal profile of the tuyere is the profile of the rotation housing and contains mixing 3 and diverging 4 parts, in the zone of which there is a narrowing 5. The tuyere feed to support 6 connected to the blast furnace casing .

The lance is equipped with an insert T; made with the mixing part 3, passing into the narrow part 5 and the diverging part, which is the beginning of the diverging part 4 of the tuyere 8. The copper hollow body 9 of the nose is attached to the flange 1O, which has an external conical part 11, which interacts with the corresponding internal The part, which is made in support 6,. The inner shell 12, the housing JB 9, communicates through the water pipeline 13, which passes through the flange, with a source of coolant and with the inside of the housing 9 through holes shell. Coolant removes c through holes in the flange. The insert 7 has an outer centering portion 15 and a support face 16, which interacts respectively with the inner portion 17 of the flange and its outer face so that the closure and the toe can be located close to each other. The mixing part of the sock enters the continuation of the mixing part (part of the shutter. The shutter and the sock can be connected with screws 18, arranged at an angle of 120 °). additional fuel and communicating with the inside of the tuyere through pipelines 21 injecting fuel directed to the axis of the tuyere. The sealing compound 22 is located in the groove 23 formed on the outer edge of the flange, this connection is constricted when assembling the valve on the flange using an annular protrusion 24. The nozzle is pressed against the protrusion 25 of the valve by means of a clamping device 26 for quick disassembling of the nozzle. If there is a need to set different parameters for the blast furnace, for example, when the production of cast iron should be changed, the feed can be changed so that the profile of the tuyere will not provide More than a sound outflow in a lance. The tuyere allows quick fitting of the tuyere geometry to new working conditions. It is known that the consumption by weight of a supersonic tuyere is proportional to the pressure at the input of the tuyere and the narrow section. The discharge characteristics in the tuyere can be saved; the feed rate is set to a value different from the previous one, provided that the same pressure value at the inlet of the tuyere is maintained, and can be obtained by changing the size of the narrow section. To do this, proceed to dismantling the nozzle (the flow is blown into the lance), then dismantling the insert 7 of the tuyere and replacing it with another insert 7 so that the narrow section 5 is different from the previous section. The ratio of the plots is proportional to the ratio of the flow rate and a given temperature to blow. There is one common characteristic for different tuyere inserts, which is that the narrow section of the inserts consists of a section along the plane perpendicular to the tuyere axis of the conical surface of the tangent and the diverging part at the junction around the circumference of the first part of the diverging part and the second. parts of the expense of the common parts. The rotational surface is shown in the figure by a dotted line. The expendable part of the tuyere insert can be reduced to the limit so that the narrow section would correspond to the area bounded by the circumference of the connection of the insert with the toe of the tuyere. The lance can be used, in particular, in shaft furnaces to carry out the supply of fuel and its combustion under optimal conditions, providing. maintaining these conditions at different values of the supply of a combustion reagent that feeds the lance. The fuel used may be a carbon product, gaseous or liquid, and may contain solid fuel particles in suspension in any one of these media, as well as transfer any product that you want to enter into the shaft furnace in a manner compatible with the principle of injecting devices. A tuyere device consisting of two parts, one of which is a fuel injection device, also makes it possible to distinguish the characteristics of this injection device, depending on the nature of the fuel injected. The lance can be used to inject auxiliary fuel (fuel oil) through the blast furnace tuyeres to replace part of the coke used as this auxiliary fuel. The subject of the invention. An air lance with a longitudinal section in the form of a Laval nozzle containing a flange with tubes for supplying and discharging a cooler, characterized in that it is fitted with in which the collar cavity communicates with the channel