KR20080050852A - Sprinkler system for steelmaking ladle and method - Google Patents

Abstract

A dust reduction system for a charging ladle is provided to create a clean operation environment by effectively reducing visible dust generated from the charging ladle after charging hot metal into a converter, and a dust reduction method using the dust reduction system for the charging ladle is provided. A dust reduction system for a charging ladle comprises: a liquid supply part; a gas supply part; and a spray part for mixing liquid and gas supplied, in the pressurized state, from the liquid supply part and the gas supply part to spray the mixture of liquid and gas into the ladle right after discharging hot metal from the ladle. The spray part includes a housing(110) in which a liquid channel(112a) and a gas channel(114a) are formed to separately move the liquid and gas; a diffuser(120) which is installed in the liquid channel to diffuse discharge of liquid, and in which a plurality of discharge holes(122) are formed; and nozzles(130) formed in a front face of the housing to spray a mixture of the liquid and gas in a state that liquid that has passed through the diffuser is mixed with gas. The housing has a liquid supply port(112) and a gas supply port(114) formed on one end thereof and connected to the liquid channel and the gas channel respectively to supply liquid and gas into the housing. The gas channel has a plurality of ejection holes(116) formed in an end portion thereof to supply gas from the gas channel to the liquid channel by connecting the gas channel to the liquid channel.

Description

Dust reduction device for charging ladle and dust reduction method using same {SPRINKLER SYSTEM FOR STEELMAKING LADLE AND METHOD}

1 is a schematic diagram showing the flow of a general providing process.

2 is a schematic view showing a dust reduction apparatus of a charging ladle according to the present invention.

3 is an exploded perspective view showing a spray unit of the dust reduction device according to the present invention.

4 is a cross-sectional perspective view of the spray unit according to the present invention.

5 is a flowchart illustrating a dust reduction method of a charging ladle according to the present invention.

<Description of Symbols for Main Parts of Drawing>

100: spraying unit 110: housing

112: liquid supply port 112a: liquid flow path

114 gas supply port 114a gas path

116: blowout hole 120: diffuser

122: discharge hole 130: nozzle

140: bracket 150: gas supply unit

152: compressor 154, 164: conduit

156, 166: solenoid valve 160: gas supply unit

162: liquid storage unit 170: control unit

The present invention relates to a dust reduction apparatus and a dust reduction method using the same, and more particularly, to reduce the dust generated when charging the molten iron of the charging ladle into the converter, the charging ladle that can create a clean operating environment The present invention relates to a dust reduction apparatus and method.

1 is a schematic diagram showing the flow of a general providing process. Referring to the drawings, the molten iron produced in the blast furnace 10 of the steelmaking process is transferred to the converter 40 because it contains a large amount of carbon and contains impurities such as phosphorus (P) and sulfur (S). Will be processed. The molten iron tapping in the blast furnace 10 is moved to a pretreatment plant after being embarked into a torpedo car (TLC) Torpedo Ladle Car (TLC) 20 or is pretreated in the mixed car 20 to remove sulfur contained in the molten iron.

The molten iron treated as described above is transferred to the charging ladle 30 in the crossroad car 20 and moved to the converter 40. At this time, the charging ladle 30 is moved to the top of the converter 40 in the state of being hoisted on the ceiling crane 50 and then charged to the converter 40 by tilting the charging ladle 30. In the converter 40 into which the molten iron is charged, a blowing treatment is performed to blow pure oxygen to remove impurities such as phosphorus, sulfur, and carbon components. The molten iron that has been blown is in a state in which impurities are mostly removed, and the molten iron is continuously refined or supplied to a continuous casting apparatus to continuously produce cast steel having a predetermined size.

On the other hand, the molten iron received in the charging ladle 30 is maintained in a high temperature state, it is hoisted on the overhead crane 50 for guiding the charging ladle 30 to the converter 40 in this state to the upper direction of the converter. Will move. The charging ladle 30 located above the converter is charged with the molten iron taken into the converter 40 while the lower end is inclined by being lifted up by the auxiliary crane 52 while being supported by the ceiling crane 50.

In particular, after the molten iron is charged into the converter 40, the molten iron remains on the inner wall or the bottom of the charging ladle 30. The molten iron remaining in the charging ladle 30 reacts with oxygen in the atmosphere. Visible dust is generated and, in this state, the visible ladle 30 diffuses the visible dust into the atmosphere while moving to the original position for continuous operation.

And to be visible particulates as described above the hot metal remaining in the ladle inside of the wall or floor finishing the tapping molten iron produced by reaction with oxygen in the air is mostly spherical in shape with an average particle diameter of 31.4㎛, the main component is Fe ₃ O ₄ , Fe ₂ O ₃ and kish graphite. In particular, the visible dust increases the duration of visible dust generation as the internal temperature rise of the charging ladle and the molten iron storage time increases in the charging ladle.

Visible dust generated from the charging ladle that has completed the charter charge, such as spreading to the atmosphere during the charging ladle has a problem that pollutes the operating environment and adversely affects the health of the worker.

The present invention is to solve the above problems, and the dust reduction device for charging ladle that can effectively create a clean operating environment by reducing the visible dust generated in the charging ladle after charging the molten iron in the converter and the same The purpose is to provide a method for reducing dust used.

According to the technical idea of the present invention for achieving the above object, the liquid supply unit, the gas supply unit, the liquid and gas supplied in a pressurized state in the liquid supply unit and the gas supply unit is mixed in the ladle immediately after the tapping It is achieved by a dust reduction device of the charging ladle comprising a spraying portion for spraying on.

Here, the liquid supplied from the liquid supply part to the spray part is preferably supplied at a pressure of 5 kg / cm 2 or more.

The liquid supply unit may include a liquid storage unit provided with a pump, a conduit connecting the liquid storage unit and the spray unit, and a solenoid valve installed in the conduit to control the supply of liquid according to a race state of the ladle. desirable.

And it is preferable that the gas supplied from a gas supply part to a spray part is supplied at the pressure of 6 kg / cm <2> or more.

The gas supply unit preferably includes a compressor for compressing outside air, a conduit connecting the compressor and the spray unit, and a solenoid valve installed in the conduit to control gas supply according to a race state of the ladle.

The spraying unit includes a housing having a liquid flow path and a gas flow path formed therein to move the liquid and the gas separately, a diffuser installed on the liquid flow path to diffuse the discharge of the liquid, and a liquid passing through the diffuser to the gas; It is preferable to include a nozzle installed in the front of the housing to be sprayed in a mixed state.

On the other hand, in another technical idea of the present invention for achieving the above object, the step of moving the ladle of the molten iron is taken above the converter, the step of laminating the molten iron to the converter by the race, and the tapping It is achieved by the dust reduction method of the charging ladle comprising the step of spraying the mixed particles of the liquid and gas inside the ladle.

Here, in the spraying step, it is preferable to spray the fine particles mixed with the liquid and gas until the temperature inside the ladle is less than 760 ℃.

In addition, the spraying step, it is preferable to spray the fine particles mixed with the liquid and gas until the temperature of the molten iron remaining in the ladle is 1130 ℃ or less.

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

2 is a schematic view showing a dust reduction apparatus of a charging ladle according to the present invention. Referring to the drawings, the dust reduction device of the charging ladle of the present invention is such that the molten iron remaining in the charging ladle 30 after the charging of the molten iron in the converter reacts with the oxygen in the atmosphere so that visible dust is not generated. The ladle 30 is cooled quickly and precipitated so that the generated visible dust does not diffuse into the atmosphere.

To this end, the dust reduction device of the charging ladle is sprayed by spraying a mixture of liquid and gas to the empty charging ladle 30 is completed by the lifting of the molten iron that is hoisted on the ceiling crane 50 and returned to the crossroad car and the It is composed of a liquid supply unit 150 for supplying a liquid to the spray unit 100 and a gas supply unit 160 for supplying a gas to the spray unit 100.

The liquid supply unit 160 supplying the liquid to the spray unit 100 may include a non-reactive liquid (eg, non-reactive liquid that does not react with the composition contained in the refractory brick (not shown) inside the molten iron or the charging ladle 30). And a liquid storage unit 162, such as pure water, and a conduit 164 connecting the liquid storage unit 162 and the spray unit 100.

The conduit 164 includes a solenoid valve 166 that controls the supply of liquid in accordance with the race condition of the charging ladle 30. In addition, a pump (not shown) is installed in the liquid storage unit so that the liquid supplied from the liquid supply unit 160 to the spray unit 100 may be supplied at a pressure of 5 kg / cm 2 or more.

In addition, the gas supply unit 150 supplying the gas to the spray unit 100 is a non-reactive gas that does not react with the composition contained in the refractory brick (not shown) inside the molten iron or the loading ladle 30 (eg For example, it is composed of a compressor 152 for compressing (such as an inert gas containing argon gas and nitrogen gas), and a conduit 154 connecting the compressor 152 and the spray unit 100.

The conduit 154 includes a solenoid valve 156 that controls the supply of gas in accordance with the race condition of the charging ladle 30. In addition, the gas supplied from the gas supply unit 150 to the spray unit 100 is preferably pressurized by the compressor 162 to be supplied at a pressure of 6kg / ㎠ or more.

Here, the conduits 154 and 164 respectively provided in the liquid supply unit 160 and the gas supply unit 150 may be made of a material that does not corrode or react with the liquid and gas to be moved. In addition, the conduits 154 and 164 may be used. ) Includes a flexible conduit (such as a corrugated pipe) to facilitate piping depending on the location of the liquid supply 160 and the gas supply 150.

In addition, the solenoid valves 156 and 166 respectively installed in the conduit 164 of the liquid supply unit 160 and the conduit 154 of the gas supply unit 150 control and manage the operation of the charging ladle 30 having completed the molten iron charging. Is electrically connected to the control unit 170. Accordingly, the solenoid valves 156 and 166 are sprayed into the charging ladle 30 by controlling the degree of opening or closing of the solenoid valves 156 and 166 according to a signal from the control unit 170 that controls and manages the operation of the charging ladle 30. The spray amount of the fine particles mixed with the liquid and the gas can be adjusted.

3 is an exploded perspective view of the spray unit of the dust reduction device according to the present invention, Figure 4 is a cross-sectional perspective view of the spray unit according to the present invention. Referring to the drawings, the spray unit is to mix the liquid and gas supplied from the liquid supply unit and the gas supply unit therein to spray the inside of the ladle in the form of fine particles such as mist (Mist) housing 110 And a diffuser 120 and a nozzle 130.

The housing 110 has a substantially hollow cylindrical shape, and at one end thereof, a liquid supply port 112 and a gas supply port 114 are formed to supply liquid and gas, and the liquid supply unit 112 and the gas are provided. Each of the liquid supply port 112 and the gas supply port 114 is connected to the liquid channel 112a and the gas channel 114a so that the liquid and gas supplied from the supply unit 114 are not mixed.

That is, the gas flow passage 114a and the gas supply port 114 are formed in the axial direction inside the housing 110, and the liquid flow passage 112a is formed around the gas flow passage 114a. In addition, on the gas flow passage 114a, the liquid supplied to the inside of the housing 110 through the liquid supply port 112 is prevented from flowing back, and the liquid flowing inside the housing through the liquid supply port is biased in the direction of gravity action. The diffuser 120 having a shape of a thin plate and having a plurality of discharge holes 122 is installed in order to prevent it.

In addition, the nozzle 130 is formed at the other end of the housing 110 so that the liquid passing through the diffuser 120 is sprayed toward the inside of the charging ladle 30 while being mixed with the gas. At the end of), a plurality of blow holes 116 connected to the liquid flow path 112a are formed in the gas flow path 114a so that the gas flowing along the gas flow path 114a can be supplied to the liquid flow path 112a.

In addition, the nozzle 130 preferably forms an orifice such that the nozzle 130 can be diffused and sprayed into the charging ladle 30 in a state where the liquid and gas are mixed. Here, the mixing of the liquid and gas sprayed into the charging ladle 30 through the orifice is preferably in a particulate state having a size that can be immediately evaporated by the temperature inside the charging ladle 30.

Spray unit 100 having the above configuration is preferably installed in the dog house (W) closest to the charging ladle 30 is finished tapping, the housing of the spray unit 100 ( 110 is installed in the bracket 140 having a structure that can be rotated according to the race state of the charging ladle 30, the bracket 140 is fixed to the dog house (W).

The operation of the dust reduction apparatus of the charging ladle of the present invention having the configuration as described above will be described based on FIG. 5. 5 is a flowchart illustrating a dust reduction method of a charging ladle according to the present invention.

Referring to the drawings, the molten iron produced in the blast furnace will be pretreated to remove the sulfur contained in the molten iron after moving to the crossroad car. Then, the molten iron that has been deflowed is moved to the charging ladle 30 and then moved upwardly of the converter in a state of being hoisted by the overhead crane 50 (S10).

The charging ladle 30 located above the converter 40 by the overhead crane 50 is inclined toward the converter 40 by lifting the lower end of the auxiliary crane 52, and the converter is also a rotating unit (not shown). The molten iron of the charging ladle 30 is charged (S20) by inclining toward the charging ladle 30 by the time.

When all the molten iron taken in the charging ladle 30 is charged into the converter (S30), the charging crane ladle 30 is operated to move the charging ladle 30 away from the converter to dog the charging ladle 30. The house (W) is moved (S40), and the converter is subjected to a blow treatment in which pure oxygen is blown to remove impurities such as phosphorus, sulfur, and carbon contained in the molten iron.

In addition, the spray unit 100 installed in the dog house (W) sprays the fine particles mixed with the liquid and gas toward the interior of the charging ladle 30 (S50) to the visible dust to the outside of the charging ladle 30 It prevents spreading and lowers the internal temperature of the charging ladle 30. In particular, the fine particles in which the liquid and the gas sprayed from the spraying part 100 are mixed are evaporated immediately upon being sprayed by the heat dissipated in the charging ladle 30.

In other words, since the internal temperature of the charging ladle 30 that has completed charging the molten iron is a high temperature (approximately 1200 to 1300 ° C.), it reacts with the molten iron remaining in the charging ladle 30 and oxygen in the atmosphere to generate visible dust. Done. At this time, when the fine particles mixed with the liquid and gas is sprayed into the charging ladle 30 is vaporized by the temperature inside the charging ladle 30, the heat inside the charging ladle 30 to take away the visible dust Occurrence is suppressed.

As described above, the fine particles in which the liquid and gas sprayed into the charging ladle 30 are mixed to prevent the diffusion of the visible dust and suppress the generation of the visible dust have an internal temperature of 760 ° C. or less. Sprayed (S60) until it is lowered to, or sprayed (S70) until the temperature of the molten iron remaining in the charging ladle 30 is lowered to 1130 ° C or less.

When the internal temperature of the charging ladle 30 is lowered to 760 ° C. or lower or the temperature of the molten iron remaining inside the charging ladle 30 is lowered to 1130 ° C. or lower, spraying of the fine particles mixed with liquid and gas is stopped. In the race state, the charging ladle 30 is established to return to the crossroad (S80).

By spraying the fine particle mixed with liquid and gas in the charging ladle after the molten steel tapping as described above, it is possible to suppress the generation of visible dust to create a clean operating environment.

On the other hand, the present invention is not limited only to the embodiments described above, but can be modified and modified within the scope not departing from the gist of the present invention, it should be seen that such modifications and variations are included in the technical idea of the present invention. do.

For example, the spray unit is not limited to the housing, the diffuser, and the nozzle described above, and the liquid and gas supplied from the liquid supply unit and the gas supply unit may be mixed and sprayed into the charging ladle in a particulate state. Can be satisfied.

In addition, the spray of the fine particles mixed with the liquid and the gas is sprayed until either the temperature inside the charging ladle is lowered below 760 ℃, or the temperature of the molten iron remaining inside the charging ladle is lowered below 1130 ℃ Spraying may be performed until a temperature is reached that satisfies.

The apparatus for reducing dust of a charging ladle according to the present invention and a method for reducing dust using the same suppress spraying visible dust by spraying particulates mixed with a liquid and gas onto a charging ladle that has been molten. Sedimentation has the effect of creating a clean operating environment.

Claims (9)

With liquid supply, A gas supply unit, And a spraying unit for mixing the liquid and gas supplied in a pressurized state from the liquid supplying unit and the gas supplying unit and spraying the sprayed inside the ladle immediately after the molten iron tapping. The dust reduction apparatus according to claim 1, wherein the liquid supplied from the liquid supply part to the spray part is supplied at a pressure of 5 kg / cm 2 or more. The liquid supply unit of claim 1 or 2, A liquid storage unit equipped with a pump, A conduit connecting the liquid storage unit and the spray unit; And a solenoid valve installed in the conduit to control the supply of liquid according to the race state of the ladle. The dust reduction apparatus according to claim 1, wherein the gas supplied from the gas supply part to the spray part is supplied at a pressure of 6 kg / cm 2 or more. The gas supply unit according to claim 1 or 3, Compressor to compress the outside air, A conduit connecting the compressor and the spray unit; And a solenoid valve installed in the conduit to control a gas supply according to a race state of the ladle. The method according to claim 1, The spray unit, A housing in which a liquid flow path and a gas flow path are formed therein to separate and move the liquid and gas, A diffuser installed on the liquid passage to diffuse the discharge of the liquid; And a nozzle installed at the front of the housing to spray the liquid passing through the diffuser in a mixed state with gas. The chartered ladle moves above the converter, Racing the ladle to descend the chartered vessel into the converter; And spraying fine particles mixed with a liquid and a gas into the ladle after the tapping. The method of claim 7, wherein the spraying step, And spraying particulates mixed with liquid and gas until the temperature inside the ladle is less than or equal to 760 ° C. The method of claim 7, wherein the spraying step, And spraying fine particles mixed with liquid and gas until the temperature of the molten iron remaining in the ladle is 1130 ° C. or less.

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