KR100460661B1 - An apparatus for adjusting the water level in a degassing tower of a blast furnace gas collecting line - Google Patents

Abstract

The degassing tower level control device of the blast furnace gas dust collecting line is provided.

The degassing tower water level control device 1 of the blast furnace gas dust collecting line 1 is a second inner cylinder sequentially installed below the inner cylinder 182 and the partition wall 182a of the degassing tower 180 of the blast furnace gas dust collecting line ( A first branch pipe 20 branched from a connection line 172 connected to the wet gas dust collector 160 and connected between the partition walls 182a and 22; And second branch pipes 30 connected to opposite sides of the first branch pipe 20 and upper portions of the partition wall 182a between the partition walls 182a and 22, respectively. It is configured to allow the head enlargement (H ').

According to the present invention, the pressure in the wet gas precipitator is increased in order to maintain the top pressure until completion of the scrubbing for the repair of the furnace wall, and the dust is discharged to the outside through the degassing tower together with the gas. By blocking, an improved effect of effectively preventing the surrounding equipment and environmental pollution by blast furnace gas and dust collection to the atmosphere can be obtained.

Description

Degassing tower water level control device of blast furnace gas dust collection line {AN APPARATUS FOR ADJUSTING THE WATER LEVEL IN A DEGASSING TOWER OF A BLAST FURNACE GAS COLLECTING LINE}

The present invention relates to a degassing tower water level control device of the blast furnace gas dust collecting line, more specifically, when the top pressure is maintained until the completion of the reduction for the repair of the furnace wall, the pressure in the wet gas dust collector is increased, the dust collecting gas In addition, by effectively preventing the outflow through the Degassing Tower, the blast furnace gas dusting line can be prevented in advance to prevent the environmental pollution caused by the gas and dust collected in the outside atmosphere. It relates to a degassing tower level control device.

As shown in FIG. 1, a blast furnace operation is usually carried out through an upper portion of a blast furnace 100, that is, a charging hole 106 is charged with iron ore 110, which is a raw material, and coke 120, which is a fuel, installed in a furnace. Blowing high temperature hot air through (Fig. 3) will produce a molten iron while reducing melting reaction occurs in the furnace.

By the way, the iron ore 110 and coke (120) charged in the blast furnace 100 during operation of the blast furnace is generated while falling into the furnace bottom according to the combustion of coke (Coke) and the reduction melting of iron ore from the bottom of the furnace. Because the blast furnace gas (G) generated during the friction action between the inner edge of the furnace body or the combustion of coke in the bottom of the blast furnace 100, the melt reduction process of iron ore rises to be discharged to the upper part of the blast furnace, Due to the chemical erosion reaction generated at this time, the refractory lead 102 installed inside the furnace body of the blast furnace 100 is burned out.

In addition, even when the number of operating years of the blast furnace 100 increases, the edge 102 of the furnace body is gradually thinner, and is connected to the shell 104 of the furnace outer wall to be mounted inside the furnace. Since the phenomenon of protruding into the furnace inside occurs, it is easily burned out from the heat load generated from the inside of the furnace.

Therefore, in the steel mill, a decompression operation to reduce the level (L) of the charges charged into the furnace at predetermined cycles is carried out, and when the air is closed, the surface of the duct 102 in the damaged furnace is cleaned ( Cleaning), spraying the irregular refractory (castable) to the damaged edge portion to perform the furnace wall repair work to reinforce the thickness of the thinner inner edge 120.

On the other hand, when looking at the wet blast furnace dust collection process during normal blast furnace operation, as shown in Figures 1 and 2, the hot air is supplied from the bottom of the furnace with the charges 110, 120 is filled in the furnace from the top of the furnace The high pressure operation is carried out so that the top pressure is applied, since the hot air supplied from the lower part of the blast furnace 100 passes through the charges 110 and 120 to produce molten iron through a reduction process, the blast furnace generated at this time The gas primarily removes dust from the dry dust collector 150 through the rising pipe 130 and the down pipe 140 installed on the blast furnace, including dust of many coke dusts.

Next, the blast furnace gas G, which has undergone the first dust collecting process in the dry dust collector 150, is secondary to the spray pump 162 and the recycle pump 164 in the wet dust collector 160. The water supplied from the dust is collected by the spray nozzle (Spray Nozzle) 166 installed in the wet dust collector 160, and collects the remaining dust of the untreated fine particle in the dry dust collector 150 included in the blast furnace gas.

At this time, the dust collected by the wet dust collector 160 is included in the sprayed water and flows into the degassing tower 180 through the water level control valve 170 and the connection line 172.

And, as shown in Figure 2, while overflowing (Over Flow) by the head (H) introduced into the degassing tower 180, the dust collecting through the inner cylinder 182 of the degassing tower 180 It flows through the passage 190 to the dust collecting pond 192.

However, as shown in FIGS. 1 and 2, in the blast furnace gas treatment process, the top pressure is a cone inner cylinder (Con) 168a under the wet dust collector 160 operated by hydraulic pressure. 168b) is adjusted to 70% level and the remaining 30% of the open pressure is adjusted through the air flow valve 202 and the air flow control valve 204 installed in the clean gas line 200. .

Therefore, during normal operation of the blast furnace, the inner cylinder 168b and the cone 168a inside the wet dust collector 160 maintain a constant interval D to control the top pressure, while the inside of the wet dust collector 160 is maintained. Adjust the water level properly.

By the way, the most important thing in the repair of the furnace wall is how quickly and in a short time to reduce the level (L) of the charges (110, 120) below a certain time, shown in the graph of FIG. As described above, many operations techniques such as a large amount of oxygen (O ₂ ) blowing, maintaining a high air volume, and maintaining a high top pressure (P) can be applied to finish the reduction to a target level in a short time.

However, if the blast furnace operation is applied, it is possible to reduce the target level L within a short time. However, as shown in FIG. In the case where the top pressure P is kept constant until the monitoring is completed, the air volume decreases step by step according to the target monitoring level L, and when a certain time is reached, oxygen (in order to prevent the increase of the oxygen concentration in the furnace) Stop the blowing of O ₂ ).

Therefore, if such a process continues, the charge level L in the furnace 100 is reduced and in order to maintain the set peak pressure P constant while expanding the empty space in which the charge is not filled, the blast furnace While keeping the cone 168a and the inner cylinder 168b of the inner bottom of the wet gas dust collector 160 of the gas dust collection line close to each other, the amount of gas exiting the gas line 200 is also provided with the air volume valve 202 and the air volume control valve 204. ) Is almost closed to maintain the set top pressure.

That is, as shown in Figure 5, even if the decompression is performed, the top pressure (P) is preferably maintained while the absence of the wind.

However, when the cone 168a of the wet gas dust collector 160, the air volume valve 202, and the air volume control valve 204 are closed in order to maintain such a stationary pressure P, a relatively wet gas dust collector ( 160, the gas pressure applied to the upper first stage water level plate 169 increases, making it difficult to control the internal water level of the wet gas dust collector 160, and at the same time, the first water level plate 169 of the wet gas dust collector 160. Blast furnace gas (G) included in the dust collector supplied to the inside of the degassing tower 180 through the control valve 170 and the connection line 172 connected to the first stage water level plate (169). 3 and 4, as shown in FIG. 3 and FIG. 4, the head H formed in the degassing tower 180 is destroyed, and the dust collecting power W is formed on the degassing tower 180. ) And the blast furnace gas (G) is ejected together, causing problems such as environmental pollution as well as environmental pollution. It was.

That is, as shown in Figure 4, when performing the deduction while maintaining the top pressure (P) during the repair of the blast furnace, collecting dust (W) that overflowed through the inner cylinder 182 in the degassing tower 180 When the head (H) of the increased gas is easily destroyed, the blast furnace gas (G) is ejected to the outside of the degassing tower 180, the dust collector (W) is also ejected with the surrounding equipment as well as the atmospheric environment It is polluting.

The present invention has been made in order to improve the conventional problems as described above, its purpose is to maintain the blast furnace top pressure during repair of the blast furnace furnace to expand the internal head of the degassing tower even if the internal pressure of the wet gas dust collector is increased. By degassing tower, the dust collecting dust and blast furnace gas are effectively blocked through degassing tower to prevent surrounding equipment and environmental pollution by dust collecting through degassing tower and external ejection of blast furnace gas. It is to provide the degassing tower level control device of the dust collection line.

1 is a schematic diagram showing a dust collecting process of blast furnace gas generated during blast furnace operation

Figure 2 is a schematic diagram showing the head condition of the degassing tower during blast furnace operation

Figure 3 is a schematic diagram showing the dust collecting process of the blast furnace gas when repairing the furnace wall of the conventional blast furnace

Figure 4 is a schematic diagram showing the state of the head destruction showing the dust collection and blast furnace gas ejection through the degassing tower during the repair of the furnace blast furnace in the prior art

5 is a graph showing the relationship between the oxygen injection amount, the degree of reduction level, the top pressure in the repair of the blast furnace furnace wall

Figure 6 is a perspective view showing the degassing tower level control device of the blast furnace gas dust collecting line according to the present invention

Figure 7 is a perspective view showing a state in which tower discharge of dust collecting and blast furnace gas by the head expansion by the present inventors degassing tower level control device is prevented

Explanation of symbols on the main parts of the drawings

1 .... leveling device of degassing tower 10 .... first branch pipe

12,32,172a .... 20,182 .... inner tube

22,182a .... bulkhead 30 .... second branch

100 .... blast furnace 130 .... riser

140 .... Downcomer 150 .... Dry Dust Collector

160 .... Wet Gas Dust Collector 180 .... Degassing Tower

190 .... Dust collection drain line G .... Blast furnace gas

H, H '.... Chicken pox at Degassing Tower W ....

In the present invention as a technical configuration for achieving the above object, in the degassing tower level control device is connected through a wet gas dust collector and a connection line of the blast furnace gas dust collecting line and the inner cylinder and the partition is installed therein, A second inner cylinder and a partition wall sequentially installed below the partition wall of the degassing tower and configured to communicate with the inner cylinder; and,

A first branch pipe branched from the connection line and connected between the partition walls; And,

And a second branch pipe connected to an opposite side of the first branch pipe and the upper portion of the partition wall between the partition walls. The water level control device for degassing tower of the blast furnace gas dust collection line configured to enlarge the head of the degassing tower. By provision.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure 6 is a perspective view showing a degassing tower level control device of the blast furnace gas dust collecting line according to the present invention, Figure 7 is a tower of the dust collecting and blast furnace gas by the head expansion by the inventors degassing tower level control apparatus It is a perspective view which shows the state in which ejection is prevented.

First, as shown in Figures 3 and 4, the degassing tower level control device 1 of the present blast furnace gas dust collecting line through the wet gas dust collector 160 and the connection line 172 in the blast furnace gas dust collecting line. It is connected to the device that enables to adjust the internal water level of the degassing tower 180, the degassing tower 180, the reverse flow of the dust collection (W) flowing into the lower side of the connection portion of the connection line 172 The diaphragm 182a for discharge | emission is provided, The inner cylinder 182 is fixed to the center perpendicular to the diaphragm 182a, and the opening between the inner cylinder 182 and the diaphragm 182a is opened.

Therefore, as shown in FIG. 6, the dust collector W introduced through the connection line 172 is installed to flow toward the lower drain line 190 through the inner cylinder 182.

6 and 7, the degassing tower level control device 1 of the blast furnace gas dust collecting line of the present invention is sequentially below the partition wall 182a of the degassing tower 180. It is provided with the 2nd inner cylinder 10 and the 2nd partition 12 which were provided and made to communicate with the said inner cylinder 182. As shown in FIG.

That is, as shown in FIGS. 6 and 7, when the initial one partition 182a and the inner cylinder 182 are installed, the head width of the degassing tower 180 is H, but the second partition 12 ) And the second inner cylinder 10 is installed, the head width of the degassing tower 180 is increased to H ', and as the head width is increased, even if the top pressure is increased for rapid reduction of the furnace wall repair machine. Through the degassing tower 180 is to prevent the blast furnace gas (G) and the dust collecting (W) to be ejected to the outside as shown in FIG.

At this time, of course, the inner cylinder 182 and the second inner cylinder 10 are connected to pass through the dust collection, the second partition 12 is installed to block the flow of the dust collection.

Next, the degassing tower level control device 1 of the present invention is branched from the connection line 172, the first branch pipe 20 is connected to the tower side between the partition wall 182a and the second partition wall 12 And a second end connected between the partitions 182a and 12 at an opposite side of the first branch pipe 20 and connected to the degassing tower 180 at an upper side of the partition 182a. The engine 30 is provided.

6 and 7, the first branch pipe 20 is bent in a c-shape, the second branch pipe 30 is bent in a c-shape, and the dust collector is first. To flow through the inner cylinder 182 and the second inner cylinder 10 with the head width widened to H 'between the branch pipe 20 and the partition walls 182a and 12 and through the second branch pipe 30. Consists of.

And, the degassing tower water level control device 1 of the present invention is installed in the connection line 172 and the first and second branch pipes 20, 30, respectively, to flow the water of the aggregates (W) flowing therein. Electronically actuated on / off valves 172a, 12, 32 are provided.

Therefore, in order to flow the dust collection (W) to enlarge the head width in the degassing tower 180 described above to H ', the valve 172a of the connection line 172 is closed, the first and second The valves 22 and 32 of the branch pipes 20 and 30 may be opened, respectively.

On the other hand, as shown in Figure 6 and 7, each of the connecting line 172 and the first and second branch pipes 20, 30, each of the electromagnetically operated on-off valves (172a) (22) (32) The pressure sensor (S1) installed on the dry gas dust collector 150 of the blast furnace gas dust collecting line, the carbon monoxide gas sensor (S2) installed on the degassing tower 180, and although not shown in the figure, It is electrically connected to the control unit (C) which is electrically connected to exchange a signal with the gas concentration meter to measure the gas concentration of the dust collection, each of the open and close valves are wet gas dust collector (160) for maintaining the top pressure during the repair of the furnace wall Upon closing the cone 168a and the gas flow valves 202 and 204, the operation is controlled if the gas is included in the dust collector while the gas pressure in the wet gas precipitator 160 increases.

Although not shown in the drawings, at least one or more of the first and second branch pipes 20 and 30 are installed below the connection line 172, so that the head width H 'of the dust collector W is fixed. It may be possible to further increase, in this case, a third inner cylinder and a third partition wall are installed below the second partition wall 12, and a third branch pipe is connected between the second and third partition walls in the connection line 172. If the fourth branch pipe is connected to the uppermost partition wall 182a, and each of the pipes are provided with the electrically operated valves electrically connected to the control unit C, the head width of the degassing tower 180, that is, the dust collection Corresponding to the amount of gas included in the degassing tower 180 due to the blast furnace gas is made of a configuration to stably prevent the destruction of the head.

Referring to the operation of the present invention made of the above configuration as follows.

As shown in FIGS. 6 and 7, even when the top pressure P is maintained high until the completion of the scrubbing for the repair of the furnace wall, the dust collected in the wet gas dust collector 160 is degassing tower together with the gas. Degassing tower water level control device (1) of the blast furnace gas dust collecting line of the present invention to block the blasting to the outside through the outside, to effectively prevent the surrounding equipment and environmental pollution by the blast furnace gas and dust collection to the atmosphere As follows.

First, Figure 6 shows the operating state of the degassing tower 180 during normal blast furnace operation, the water level control of the wet gas dust collector 160 during normal blast furnace operation is the water sprayed into the dust collector 160 Dust contained in the gas is collected and supplied to the inside of the dust collecting degassing tower 180 through the first stage water level control valve 170 and the connection line 172.

At this time, the valves 22 and 32 of the first and second branch pipes 20 and 30 are closed through the control unit C so that the dust collector W overflows through the partition wall 182a and the inner cylinder 182. While being gathered into the drain line 190 and the dust collector Pond 192 at the lower side, the first stage water level of the wet gas dust collector 160 can be adjusted.

Next, in FIG. 7, when the top pressure P is increased during repair of the furnace wall, when the dust collecting W and the blast furnace gas G are ejected through the degassing tower 180, the apparatus of the present invention ( 1) to operate, when the reduction work for the repair of the furnace wall, that is, when reducing the level of the charge (110, 120), the weight of the empty space in the blast furnace generated by that is set to increase Cone and inner cylinders 168a and 168b of the wet gas precipitator 160 are closed to control the pressure of the top, and the amount of gas exiting the gas line 200 is also controlled by the air volume valve 202 and the air volume control valve 204. ) And the flow is restricted.

Therefore, if such a process continues, the blast furnace gas pressure on the first stage water level plate 169 in the wet gas dust collector 160 becomes excessive, and the degassing tower through the dust collecting connection line 172. (180) Since the dust collector is supplied with a large amount of blast furnace gas (G) is included, it is necessary to increase the head (H) therein, as the head is destroyed by the increased gas This is because the gas G and the dust collector W are ejected to the outside through the degassing tower 180.

Accordingly, in order to prevent such equipment and environmental pollution caused by external blowout, as shown in FIGS. 3 and 7, the gas pressure measured by the pressure sensor S1 installed on the first dry dust collector 150 is preliminary. If the gas concentration is higher than the pressure set in the second, or the second concentration (W) of the gas concentration is 50PPM or more, or the gas sensor (S2) installed on the third degassing tower 180 (that is, the gas is ejected and If present), the control unit C, which is electrically connected to exchange signals with each of the sensors S1 and S2, operates the device 1 of the present invention.

That is, as shown in FIG. 7, the electromagnetically actuated on / off valve 172a of the connection line 172 is closed and the electromagnetically actuated on / off valves 22 and 32 of the first and second branch pipes 20 and 30 are closed. ) Is opened and the dust collector (W) flows into the drain line (190) and the pond (192) while overflowing through the inner cylinder (182) and the second inner cylinder (10) while forming an enlarged head H '.

Therefore, it is necessary to maintain the constant pressure until the completion of the reduction during the maintenance of the furnace wall, in which the wet gas dust collector 160 and the gas flow valves 202 and 204 are closed to maintain the constant pressure. The pressure in the gas precipitator 160 is increased so that the external ejection of gas and dust collection through the degassing tower 180 causes the internal level of the degassing tower 180 as the apparatus 1 of the present invention, i. By effectively expanding to ', which contributes to the prevention of plant and environmental pollution.

As described above, according to the degassing tower water level control device of the blast furnace gas dust collecting line, the water level control of the wet gas dust collector generated in the process of maintaining and operating the top pressure high for efficient reduction of the blast furnace wall repair process. By preventing this difficult collection of dust and blast furnace gas to the upper part of the degassing tower, it provides an excellent effect to effectively block the environmental pollution, in particular, to prevent damage and pollution of the equipment by the dust and the blast furnace gas emitted. do.

In addition, it is possible to prevent workers' accidents of gas poisoning due to the release of blast furnace gas into the air in advance, and to maintain the high pressure for monitoring when the furnace wall is repaired. This is significantly shortened, providing the effect of improving the blast furnace's operating productivity.

While the invention has been shown and described with respect to specific embodiments thereof, it will be apparent to those skilled in the art that various changes and modifications can be made without departing from the spirit or scope of the invention as set forth in the claims below. I would like to know that those who have knowledge of this can easily know.

Claims (3)

To the water level control device 1 of the degassing tower 180 is connected through the wet gas dust collector 160 and the connection line 172 of the blast furnace gas dust collecting line and the inner cylinder 182 and the partition wall 182a is installed therein. In A second inner cylinder 10 and a partition wall 12 sequentially installed below the partition wall 182a of the degassing tower 180 and communicating with the inner cylinder 182; and A first branch pipe 20 branched from the connection line 172 and connected between the partition walls 182a and 22; And, It is possible to enlarge the head within the degassing tower, including; the second branch pipe 30 connected to the upper side of the partition wall 182a and the opposite side of the first branch pipe 20 between the partition wall (182a, 22), respectively. Degassing tower level control device for blast furnace gas dust collecting line, characterized in that configured so According to claim 1, The connection line 172 and the first and second branch pipes (20, 30) of the electromagnetically actuated on-off valves (172a) (22) (32) for adjusting the flow of the internal dust (W) ) Are installed separately, The electronically actuated on / off valves 172a, 22 and 32 are pressure sensors S1 installed on the dry dust collector 150 of the blast furnace gas dust collection line and gas sensors S2 installed on the degassing tower 180. Degassing tower level control device of the blast furnace gas dust collecting line, characterized in that the control unit (C) connected to the gas concentration meter and its operation is electrically connected to control. The degassing tower 180 of claim 1, wherein the second partition wall 10 and the first and second branch pipes 20 and 30 are provided in the degassing tower 180 at regular intervals below the connection line 172. Degassing tower level control device of the blast furnace gas dust collecting line, characterized in that installed