KR890003661B1 - Exhaust-gas treatement system for a sealed type converter - Google Patents

Abstract

A system includes a hood (3) and skirt sealingly fitted to the top of the converter for conducting combustible CO gas from the converter chamber to the gas treating line, and an emergency valve (14) incorporated in the hood and including a vertically movable valve member (19) which drops and opens to admit air to the hood when a power cylinder is released by an emergency signal.

Description

Hermetic converter flue gas treatment unit with emergency air inlet valve

1 and 2 is an embodiment of the present invention,

1 is a schematic diagram showing the entirety of a converter flue gas treatment system.

2 is a longitudinal sectional view of an emergency air intake valve.

3 is a plan view of a portion of FIG.

* Explanation of symbols for main parts of the drawings

3: hood 14: emergency air intake valve

15: air inlet port 16: valve box

17: opening 18: guide rod

19: valve body 21: blocking member

22: locking member

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a converter flue gas treatment device equipped with an emergency air suction valve in order to prevent abnormal negative pressure during an emergency stop in a closed converter flue gas treatment device which operates in a closed state or near a closed state.

When the outline of the converter flue-gas treatment apparatus is described by FIG. 1, pure oxygen is blown in from the oxygen injection lance (only the lance insertion hole 13 is shown) in the molten iron injected into the converter 1. Refine. In this blowdown, carbon in the molten iron and oxygen blown from the lance react with each other to generate a large amount of hot CO gas.

Gases having a low CO concentration at the beginning and the end of the blow are attracted into the hood 3 by the induction blower 7 and cooled by the hood 3 and the cooler 4 to be damped to the vibration suppressors 5 and 6. It is burned in his government through the tower (8), and is discharged in the atmosphere.

The gas having a high CO concentration in the blowing peak period is a gas arc not shown through the water seal valve 11, the duct 9b, and the duct 12 by switching the damper 10 connected to the duct 9a. The oil is recovered as oil gas.

In addition, CO gas is not only very dangerous because it causes CO poisoning when exposed to the outside, there is also a risk of rapid combustion in response to outdoor air. Accordingly, a skid 2 that can be lifted and lowered is provided between the furnace port of the converter 1 and the hood 3, and the skid 2 is lowered to lower the furnace ball and the skirt 2 of the converter 1. ) To prevent external leakage of CO gas and infiltration of outside air into the skirt (2).

In this converter exhaust gas treatment apparatus, converter operation is performed in the following three steps. In other words, the repair process of injecting molten iron produced in the blast furnace (not shown) into the converter 1 and the smelting process of refining by injecting pure oxygen into the molten iron injected into the converter 1 and the refined molten steel (1). ) Is taken out in three steps of the tapping step.

In the above three hollow works, the repair process and the tapping process are carried out by tilting the converter 1, so that the skirt 12 is raised, and in the blowing process, the skirt 2 is lowered, and the furnace ball and the skirt of the converter 1 are lowered. Occlusion between the att 2 prevents external leakage and intrusion of CO gas.

However, slag was deposited on the furnace port of the converter 1 so that it was not necessarily a flat surface, so that the contact between the skirt and the furnace was impossible, and the occlusion was carried out with a gap. Therefore, some outside air invaded from the said gap and the fall of CO concentration was inevitable.

On the other hand, at present, recovery of gas having a high CO concentration (purity) is required, so that the furnace port of the converter 1 and the skirt 2 are completely sealed or completely closed. In such a completely closed converter flue gas treatment device, there is a new technical problem when an emergency stop is made.

As a normal emergency stop method, oxygen injection is stopped. Therefore, the amount of gas generated from the converter 1 is drastically reduced.

In the conventional open type, the amount of gas corresponding to the amount of gas attracted by the induction blower 7 is secured by sucking outside air from the gap between the furnace port of the converter 1 and the skirt 2 only for the amount corresponding to the amount of generated gas. Although the pressure in the flue gas treatment device is maintained, there is a problem that the sealed type has no outside air suction or is extremely small, if any, so that the pressure in the flue gas treatment device becomes negative in an instant and the flue gas treatment device is damaged by this negative pressure.

For example, when it is negative pressure in a short time, when the outside air intrudes or breaks in the sealed part, a big accident called explosion occurs. (In the high temperature part of CO gas, CO gas and O ₂ in the outside air are gradually burned and explosion It is not caused, but in the low temperature part after being cooled by the cooler, if there is an ignition source, it will burn and explode in an instant).

In the case of the conventional open type, the outside air is sucked from the gap between the furnace port of the converter 1 and the skirt 2, and the hot CO gas and O ₂ in the outside air sucked react (combustion of the CO gas). generating a _second gas and CO ₂ gas layer between the outside air and coming is drawn back and the cooled CO gas is drawn before (this inner Saba (inert) says gas layer), the outside air coming is subsequently and the cooled CO gas absorbed by sandwiching There is no risk of explosion because contact with is prevented, but in the case of closed type, even if there is no invasion of outside air, there is a problem that there is no generation of sufficient inner air gas layer and the risk of explosion is large. In addition, since the amount of gas generated from the converter 1 is low and the CO concentration is low at the beginning or the end of the blow, it is not recovered and is burned by the government through the chimney to be discharged. In addition, there is a risk that the gas flow rate in the chimney is lowered and outside air enters the chimney and backfires, causing combustion or explosion in the chimney.

As such, the instantaneous negative pressure caused by the sealed type includes a number of unexpected technical problems, and therefore, it is rushing to develop a flue gas treatment device having high purity and high stability to cope with CO gas recovery.

This invention is made | formed in view of the said situation, Comprising: It aims at providing the closed converter flue gas processing apparatus provided with the emergency air valve so that it may not become an abnormal negative pressure at the time of an emergency stop.

In the closed converter exhaust gas treatment apparatus of the present invention, an air inlet is installed in a hood, which is a high temperature part of CO gas, a valve box having an upper portion opened to the air inlet is connected, and the upper opening of the valve box is closed, and the valve box is vertical in the valve box. An air inlet is opened by a valve body which is guided by a guide installed therein and falls so as to suck outside air to prevent abnormal negative pressure.

One embodiment of the hermetic converter flue gas treatment system of the present invention will be described with reference to the drawings.

In FIG. 1, 14 is an emergency air intake valve attached to the hood 3. 2 is a longitudinal sectional view showing the details of this emergency air intake valve 14, and 15 is an air intake attached to the hood 3; The air box 15 is connected to a valve box 16 having an opening 17 thereon. 19 is a valve body which closes the said opening part 17, is guided by the hollow guide rod 18, and is moved up and down. In other words, the valve body 19 has a truncated cone-shaped outer surface, and a hollow valve rod 23 is attached upward to the valve body 23 from the bottom of the valve box 16. It is fitted so that it can slide freely up and down on the outer side of the said guide rod 18 integrally protruding upwards.

着)된 실린더(20)의 피스톤로드의 선단에 핀(29)에 의해 원추형 접합되어 있다.A locking member 22 protrudes near the upper end of the valve rod 23, and a jersey lever 21 is engaged with the lower side of the valve rod 23 to prevent the valve rod 23 and the valve body 19 from dropping. A sieve restraint device is constructed. As shown in FIG. 3, the jersey lever 21 is provided with one pair on both sides of the valve rod 23, and the bosses 25 connecting the proximal ends thereof are rotatable by the fixed shaft 24. Supported. An arm 26 is integrally protruded from the boss 25, and the tip of the arm 26 is conically connected to the bracket 28 of the frame 27 fixed to the upper part of the valve box 16.

The pin 29 is conical joined to the tip of the piston rod of the worn cylinder 20.

A pair of guide pieces 30 are projected on the upper end of the valve rod 23 in the vertical direction, and each guide piece 30 has a pair of opposing guide members 31 as shown in FIG. Guided by the gap. The guide member 31 is fixed to the frame 27.

The return member 32 on the rod from below is inserted in the guide rod 18. The return member 32 is moved upward from the position shown by a driving device (not shown).

In addition, in this embodiment, although the valve body 19 is caught by the cylinder 20 via the engaging member 22, the valve body restraint apparatus is made to adhere | attach the valve body 19 to the opening part 17 by magnets, for example. What is necessary is just to comprise, and what is necessary is just to comprise so that the valve body 19 may fall.

Next, the operation of the present embodiment configured as described above will be described.

In the state of FIG. 2, the stopper member 22 is prevented from dropping by the stop lever 21, and the valve body 19 is kept in the raised position which seals the upper opening 17. As shown in FIG. In this state, when an emergency situation occurs in which the manned blower 7 or other control system is stopped (for example, the blower blower does not stop suddenly due to inertia) due to a power failure, oxygen injection is stopped by the signal and a signal detection device is provided. (33) (FIG. 2) and via the switching valve device 34, the cylinder 20 is also instructed, and the piston rod of the cylinder 20 extends as indicated by the broken line, and the blocking lever 21 engages the locking member 22. ), The locking state is released, and the valve body 19 falls to its own weight.

In this case, it becomes negative pressure to some extent when oxygen injection stops, but this negative pressure acts as a force which attracts the valve body 19, and drops from the release | release of release by quickening the initial speed which the valve body 19 starts to drop from release. The time until starting to shorten is shortened and opening 17 is opened in a short time, and the outside air is sucked in the hood 3. The valve body 19 falls on the buffer 35.

The outside air sucked in this way flows into the high temperature CO gas and combusts the CO gas by O ₂ in the air to generate an inner gas layer, and at the same time, the amount of gas suitable for the induction blower 7 and the amount of suction gas is obtained. Abnormal negative pressure does not occur. Moreover, the return member 32 is raised to return the valve body 19 to the raised position. In normal operation, the valve body 19 is brought into close contact with the opening 17 so as to recover high-purity CO gas.

As described above, the sealed converter exhaust gas treatment apparatus according to the present invention has an air inlet port installed in the hood and an air inlet valve installed to open the inlet port by dropping the valve body on the air inlet port. Can be satisfactorily opened to suck outside air and prevent abnormal underpressure in the exhaust gas treating apparatus.

Therefore, there is no risk of explosion due to equipment damage, insufficient inner gas generation, and backfire in the chimney, and it is possible to use a closed-type converter flue gas treatment device with high stability and to recover high-purity CO gas. Excellent effect.

Claims (6)

Between the air inlet provided in the hood for converter exhaust gas guide, the valve box connected to this air inlet, and opening the upper part, the ascending position which seals the upper opening of this valve box, and the falling position which opens this upper opening. Valve body movable up and down, a guide for guiding the valve body up and down, and a valve body restraint which normally allows the valve body to be held in the ascending position and frees the valve body in an emergency to allow it to fall toward the descending position. Closed converter flue gas treatment device equipped with an emergency air intake valve, characterized in that consisting of a device. 2. The valve body according to claim 1, wherein the valve body integrally has a hollow valve rod in the vertical direction, and the guide is formed of a guide rod and is inserted into the hollow valve rod to slide freely up and down on the outer side of the guide rod. Enclosed converter flue gas treatment device. 3. The locking member 22 according to claim 2, wherein the valve body restraint device protrudes from an outer surface of the valve rod, and a position where the valve body restrains contact with the lower side of the locking member to prevent the drop of the valve rod and the valve body from the lower side of the locking member. A closed converter flue gas treatment device, characterized in that it has a blocking member (21) free from displacement between the valve rod and the position allowing the valve body to fall. 4. The closed converter exhaust gas treatment system according to claim 3, wherein the blocking member is made of a blocking lever which can be rotated by a driving device. 3. The hermetic converter exhaust gas treatment apparatus according to claim 2, wherein the hollow valve rod has a guide piece in a vertical direction on its outer surface, and a guide member for guiding the guide piece up and down in accordance with the trajectory of vertical movement of the hollow valve rod is provided. . The closed converter exhaust gas treatment apparatus according to claim 2, wherein the guide rod is hollow, and an ascending return member is inserted in the inside thereof so as to return the valve body dropped in the lowered position to the elevated position.

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