RU2165983C1 - Slide valve of blast-furnace air heaters - Google Patents

Abstract

FIELD: ferrous metallurgy, particularly, equipment of blast-furnace air heaters. SUBSTANCE: slide valve has cooled shutoff disc and lined body with circular stops forming channel between them for shutoff disc. Stop located on side of supplying air duct is made in the form of diffuser with lining applied to its internal diameter. Stop located on side of discharge air duct is fully made of refractory material with internal section in the form of diffuser whose minimum inner diameter equals 1.03-1.05 of minimum inner diameter of cooled circular stop equal to inner diameter of supplying air duct. Ratio between value H of channel depth on side of cooled stop and value h of channel depth on side of stop from refractory material is 1.2-1.3. Generating line of internal surface of diffuser of cooled stop is parallel to internal surface of stop from refractory material. EFFECT: prolonged service life of slide valves. 1 dwg

Description

 The invention relates to the field of ferrous metallurgy and for the equipment of air heaters of blast furnaces, and more specifically, the designs of slide valves of hot blast.

 There is a tendency to increase the productivity of blast furnaces and to intensify the process of smelting cast iron, in particular by increasing the temperature of the blast. The intensification of the blast furnace process leads to a decrease in the service life of the hot blast valves, since the high blast parameters create large thermal loads on the elements of the hot blast valves, primarily on the thrust rings. In the blast mode, a significant fraction of the heat load (up to 70-80%) is determined by forced convection, therefore, it is possible to reduce the thermal load on the valve elements in the blast mode by reducing the convective component, for example, by changing the geometry of the valve passage section and adjacent sections of the air duct.

A known hot blast valve comprising a cooled lined locking disk and connected by end flanges to the supply and exhaust air ducts is a lined cooled housing, the lining of which on the supply air duct side is made in the form of a diffuser, and the housing lining on the side of the exhaust air duct is made in the form of a cylinder whose diameter is larger than the diameter diffuser outlet (0.95D <D ₀ <0.97D) (see ed. certificate of the USSR N 1786083, class C 21 B 9/12, 01/07/93).

 This solution allows you to increase the speed of the material particles (dust and fragments of the lining) at the outlet of the diffuser, which eliminates the clogging of the channel between the ring stops. However, the thermal load increases, the intensity of the abrasive wear of the lining increases, and, as a result, the durability of the valve decreases.

 In addition, the presence of two cooled stops leads to an increased consumption of cooling medium.

 Also known is the gate valve of blast-furnace stoves containing a cooled lined locking disk, a lined cooled case, the lining of which on the supply air side is made in the form of a cylinder, the passage diameter of which is equal to the passage diameter of the air pipe, and the body lining on the side of the exhaust air pipe is made in the form of a confuser, the smallest passage the diameter of which is equal to the bore of the cylinder (see RF patent N 2105068, class C 21 B 9/12, op. 20.02.98). The depth of the annular stops to the channel width between them is equal to 1.0-1.2, and the ratio of the height of the ledge of the confuser to the bore of the cylinder is 0.2-0.3 channel width (h / B = 0.2-0.3) .

 Due to the step formed at the outlet, it is possible to smoothly, without disturbance, the output of the main stream of hot blast from the channel between the ring stops, which reduces the turbulence of the blast flow.

 The disadvantage is that there is increased abrasive wear of the lining of the annular stop on the supply side of the blast, having the shape of a cylinder with a diameter equal to the diameter of the air duct.

 The presence of two stops cooled by water leads to a large consumption of cooling water, and an increasing deficit of water, an increase in its cost and the cost of operating the water sector forces the use of air cooling or, instead of cooled ring stops, with a small layer of lining, use a refractory lining throughout the entire volume of the ring stop.

 Of the known gate valves of blast furnaces, the closest in technical essence is the gate valve described in European patent N 0171754 B 2 class. F 16 K 49/00, 02.19.1986.

 This damper valve of blast-furnace air heaters contains a cooled lined locking disk, a lined case with ring stops forming the channel for the disk between them, one of which located on the side of the supply air duct, cooled with a lining applied along its inner diameter in the form of a diffuser, and the second on the side of the outlet the air duct is made only of refractory material.

 To eliminate turbulence in the hot blast stream, the inner section of the lining on the inlet side of the blast is smaller than the section of the outlet side made in the form of a cylinder.

 A disadvantage of the known design of the slide valve of blast furnace air heaters is that the geometry of the passage section of the diffuser-cylinder valve does not provide a sufficient reduction in heat loads, and as a result, heat losses. In addition, the intensity of the abrasive wear of the lining increases. All this leads to a decrease in valve durability.

 The objective of the present invention is to provide a device that allows to increase the durability of the slide valve of the blast furnace air heaters while reducing the flow of cooling water.

 This goal is achieved by the fact that in the slide valve of the blast stoves, which includes a cooled locking disk, a lined body with ring stops forming between the channel for the locking disk between them, one of which is located on the side of the hot air blast supply duct, cooled with a lining applied over its inner diameter in in the form of a diffuser, and the second stop located on the side of the exhaust air duct is uncooled, made entirely of refractory material, according to the invention, inside The previous section of the annular stop made of refractory material is made in the form of a diffuser, while its smallest inner diameter is equal to 1.03-1.05 of the smallest inner diameter of the cooled annular stop, equal to the inner diameter of the supply air duct, the ratio of the channel depth from the cooled stop to the depth the channel from the stop side of the refractory material is 1.2-1.3, and the generatrix of the inner surface of the diffuser of the cooled stop is parallel to the generatrix of the inner surface of the stop of refractory different material.

 Such a design of the slide valve of the blast furnace heaters allows to increase the durability of the valve by increasing the service life of the lining of the housing.

 The presence of a step between the lining of the first downstream stop of the annular stop by the lining of the air duct allows, due to the formation of a secondary flow, which prevents the direct contact of the main flow of hot air with the surface of the lining of the ring, to compensate for the turbulent effect on the flow in the annular gap between the first valve ring and the lining of the air duct , reduce the level of convective heat transfer coefficients from the air flow to the valve ring. This, in turn, will reduce the amplitude of the lining temperature fluctuations during transitions from the blast mode to heating, which increases the service life of the lining and the entire valve, and also reduces the heat loss in the valve in the blast mode.

 Due to the smooth narrowing of the air flow after passing through the annulus, the degree of its turbulence decreases and a more uniform distribution of the convective heat transfer coefficient along the second ring is made, made only of refractory material, which reduces the longitudinal gradient of the temperature in it and increases its service life, as well as the valve itself .

 The heat exchange processes between the cooled elements of the valve and the hot air passing through it, as well as the lining of the air duct are very complex and therefore difficult to calculate. Because of this, the experiment is the main method for studying heat transfer in the elements of hot blast valves.

Research has established that if the smallest diameter D ₂ of the ring of refractory material is less than the smallest inner diameter of 1.03 cooled ring D ₁ equal to the internal diameter D ₀ of the supply air duct (D ₂ <1,03D _1, D ₁ = D ₀₎ there will be an increase in the angle of inclination of the lining profile of the ring, and this will lead to a change in the nature of the flow along the ring, a sharp increase in the convective heat transfer coefficient at the end of the ring, which is explained by the increasing dynamic effect of the flow on the surface of the ring, aspolozhennogo at a large angle.

If D ₂ > 1.05 D ₁ , then the flow smoothness at the valve outlet is disrupted, a significant non-uniformity of the convective heat transfer coefficient along the ring occurs and the longitudinal temperature gradient in it increases, its service life decreases.

 When the ratio H of the depth of the channel from the side of the cooled ring to the value of h of the depth of the channel from the side of the refractory ring is less than 1.2 (H / h <1.2), the flow sharply narrows at the exit from the annular space, which leads to its turbulization and an increase in convective heat transfer from the flow to the ring, as well as to intensive abrasive wear of the refractory ring.

 If H / h> 1.3, then there is an additional deceleration of the periphery of the flow at the exit from the annulus, which also leads to its turbulization, i.e. to the appearance of a significant number of turbulent vortices, which intensify the transfer of heat from the flow to the ring, as well as its abrasive wear.

 To illustrate the invention, a specific embodiment of the invention is given below with reference to the accompanying drawing, which schematically shows the enclosed slide valve of a blast furnace.

 The gate valve of the blast furnace air heaters contains a cooled lined locking disk 1, a lined housing 2, mounted between the connecting flanges of the supply 3 and the outlet 4 air ducts, with annular stops that form the channel 5 for the locking disk 1 between them.

 The ring stop 6, located on the side of the inlet air pipe 3, is made cooled with a lining applied along its inner diameter in the form of a diffuser.

The ring stop 7, located on the side of the exhaust air duct 4, is made of refractory material, for example, from high-alumina concrete, and its inner cross section has the shape of a diffuser, the smallest diameter D _{2 of} which is equal to 1.03-1.05 of the inner diameter D _{1 of the} cooled ring stop 6 equal to the diameter D _{0 of the} supply air duct 3 (D ₂ = (1,03-1,05) D ₁ ; D ₁ = D ₀ ).

 The ratio of the depth H of the channel 5 from the side of the cooled ring stop 6 to the depth h of the channel 5 from the side of the refractory ring stop is 1.2-1.3. The generatrix of the inner surface of the diffuser of the cooled stop 6 is parallel to the generatrix of the inner surface of the refractory ring stop 7.

 The gate valve operates as follows.

In the blast mode, the locking disk 1 is raised and the air heated in the air heater with a temperature of 1250-1300 ^o C and above moves through the valve. When this occurs, the heating elements of the housing and especially the annular stops 6 and 7 and the channel 5 between them.

 In heating mode, the locking disk 1 is lowered, overlaps the air duct 3. The heating of the valve body elements occurs mainly due to radiation from the lining. The thermal load is significantly reduced.

 The proposed gate valve for blast furnace air heaters has a longer service life compared to the known ones, while the cooling medium costs and heat losses in the valve are reduced.

Claims (1)

 The gate valve of the blast furnace air heaters, including a cooled locking disk, a lined body with ring stops forming between them for the locking disk channel, one of which is located on the side of the hot air supply duct, cooled with a lining applied along its inner diameter in the form of a diffuser, and the second stop located on the side of the exhaust air duct is made entirely of refractory material, characterized in that the inner cross section of the annular stop is made of refractory material made in the form of a diffuser, while its smallest inner diameter is equal to 1.03 - 1.05 of the smallest inner diameter of the cooled annular stop, equal to the inner diameter of the supply air duct, the ratio of the channel depth from the cooled stop and the channel depth from the stop from refractory material equal to 1.2 - 1.3, and the generatrix of the inner surface of the diffuser of the cooled stop is parallel to the generatrix of the inner surface of the stop of refractory material.