KR101443084B1 - Treating apparatus for waste gas in sintering machine and treating method thereof - Google Patents

Abstract

According to the present invention, there is provided a sintering apparatus for a sintering machine, comprising: a heat exchanging unit for lowering the temperature of the exhaust gas discharged from the regenerating tower for a sintering unit to a set temperature or lower; a water purifying unit for spraying washing water to the exhaust gas passed through the heat exchanging unit; A cleaner for spraying caustic soda into the exhaust gas that has passed through the cooling unit to remove the SOx component, a dust removing unit for removing dust by providing an electric field to the exhaust gas passing through the cooling unit, A purifier for removing the SOx component contained in the exhaust gas when the SOx component contained in the exhaust gas passing through the blower is less than a set value and discharging the SOx component to the atmosphere; And a sulfuric acid production unit for producing sulfuric acid by using the exhaust gas when the SOx component contained in the exhaust gas passing through the exhaust gas is higher than a set value.

Description

TECHNICAL FIELD [0001] The present invention relates to an exhaust gas treatment apparatus for a sintering machine,

The present invention relates to an exhaust gas treatment apparatus for a sintering machine and a treatment method thereof, and more particularly to an exhaust gas treatment apparatus for a sintering machine capable of preventing air pollution and producing sulfuric acid by varying the purification method according to the concentration difference of SOx, ≪ / RTI >

Typical steelmaking consists of a steelmaking process to produce molten iron, a steelmaking process to remove impurities from molten iron, a casting process to solidify the liquid iron, and a rolling process to make iron steel or wire.

The casting process is a process in which liquid molten steel is injected into a mold and then cooled and solidified while passing through a continuous casting machine to continuously produce an intermediate material such as a slab or a bloom.

In this process, the bloom is transformed into a billet through a steel billet mill and processed into a wire billet through a wire mill.

Further, the slab is produced as a heavy plate through a plate rolling mill or as a hot rolled coil or a hot rolled steel plate while passing through a hot rolling mill.

The sintering process for producing molten iron can be performed by a furnace for producing molten iron from iron ore. The sintering process is carried out by charging the coke and sinter raw material, which have been dried in the coke oven, into a sintering furnace.

The exhaust gas generated in the sintering machine passes through the exhaust gas treatment device for sintering to remove the SOx component and the NOx component and is discharged. The activated carbon which removes the SOx component and the NOx component is regenerated and recycled while passing through the regeneration tower.

BACKGROUND ART [0002] The background art of the present invention is disclosed in Korean Patent Laid-Open Publication No. 10-2011-0022306 (published on Mar. 7, 2011, entitled "Regeneration method using flue gas in sintering process").

An object of the present invention is to provide an apparatus for treating exhaust gas for a sintering machine capable of preventing air pollution and producing sulfuric acid by changing the purification method according to the concentration difference of SOx, and a method for treating the same.

The present invention relates to a sintering machine for a sintering machine, comprising: a heat exchanger for lowering a temperature of an exhaust gas discharged from a regenerator for a sintering machine to a set temperature or lower; A dehumidifying portion for spraying washing water to the exhaust gas passed through the heat exchanging portion; A cooling unit for spraying caustic soda into the exhaust gas passing through the dehumidifier to remove the SOx component; A cleaner for removing SOx components by spraying caustic soda into the exhaust gas passing through the cooling unit; A dust removing unit for removing dust by providing an electric field to an exhaust gas passing through the cooling unit; A blower for feeding the exhaust gas passed through the dust removing unit by pressure; A purifier for removing the SOx component contained in the exhaust gas and discharging the SOx component to the atmosphere when the SOx component contained in the exhaust gas passing through the blower is less than a set value; And a sulfuric acid production unit for producing sulfuric acid by using the exhaust gas when the SOx component contained in the exhaust gas passing through the blower is higher than a set value.

The heat exchanger of the present invention may further include: a first heat exchanger through which the exhaust gas discharged from the regenerator passes and through which exhaust gas pumped to the purifier is passed by the blower; And a second heat exchanger through which the exhaust gas passing through the first heat exchanger and supplied to the dehumidifier is passed.

(A) cooling the regeneration tower exhaust gas through a heat exchange unit to a temperature below the set temperature; (b) removing the SOx component contained in the exhaust gas when the exhaust gas is cooled to a set temperature or lower; (c) removing dust contained in the exhaust gas after removing the SOx component contained in the exhaust gas; (d) after the dust contained in the exhaust gas is removed, determining whether the concentration of the SOx component contained in the exhaust gas is equal to or higher than a set value; (e) if the concentration of the SOx component contained in the exhaust gas is equal to or higher than the set value, producing sulfuric acid using the exhaust gas; And (f) when the sulfuric acid is produced, discharging the exhaust gas through the stack.

The step (b) of the present invention is characterized in that the caustic soda supplied from the wastewater treatment device is injected into the exhaust gas to neutralize the SOx component.

The apparatus for treating exhaust gas for a sintering machine and the method for treating exhaust gas according to the present invention are characterized in that sulfuric acid is produced by using an exhaust gas having a high concentration of SOx by varying the treatment method according to the difference in concentration of SOx contained in the exhaust gas of the regeneration tower, Since the exhaust gas having low concentration is purified and discharged to the atmosphere, there is an advantage that sulfuric acid is easily produced and air pollution can be prevented.

1 is a configuration diagram illustrating an apparatus for treating exhaust gas for a sintering machine according to an embodiment of the present invention.
2 is a flow chart illustrating a method for treating exhaust gas for a sintering machine according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an embodiment of an apparatus for treating exhaust gas for a sintering machine and a method for treating exhaust gas according to the present invention will be described with reference to the accompanying drawings.

In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation.

In addition, the terms described below are terms defined in consideration of the functions of the present invention, which may vary depending on the intention or custom of the user, the operator.

Therefore, definitions of these terms should be made based on the contents throughout this specification.

1 is a configuration diagram illustrating an apparatus for treating exhaust gas for a sintering machine according to an embodiment of the present invention.

Referring to FIG. 1, the apparatus for treating an exhaust gas for a sintering machine according to an embodiment of the present invention includes heat exchangers 12 and 14 for lowering the temperature of exhaust gas discharged from the regenerator 10 for sintering to a set temperature or lower And a cooling unit 34 for removing the SOx component by spraying caustic soda into the exhaust gas that has passed through the dehumidifying unit 32. The cooling unit 34 includes a heat exchanging unit 12, A cleaning part 36 for spraying caustic soda into the exhaust gas that has passed through the cooling part 34 to remove the SOx component, and a cleaning part 34 for removing dust by providing an electric field to the exhaust gas that has passed through the cooling part 34 A blower 50 for pressurizing the exhaust gas that has passed through the dust removing units 38a and 38b and a blower 50 for blowing the SOx component contained in the exhaust gas passing through the blower 50 A purifier 90 for removing the SOx component contained in the exhaust gas and discharging the SOx component to the atmosphere, If the SOX component is more than the set value included in the utilization of the exhaust gas to include a sulfuric acid production unit (70) for producing sulfuric acid.

The exhaust gas discharged from the sintering unit passes through the trapping portion where the activated carbon is supplied, and the SOX component and the NOx component are removed and discharged.

The activated carbon adsorbed on the SOx component and the NOx component is regenerated while being heated in the regeneration tower 10 and supplied to the regeneration section. The exhaust gas discharged from the regeneration tower 10 passes through the heat exchange sections 12, 14, The cooling section 34, the cleaning section 36 and the dust removing sections 38a and 38b, and the SOx component is removed and pressure-fed by the blower 50. [

When the concentration of the SOx component contained in the exhaust gas passing through the blower 50 is equal to or higher than the set value, the exhaust gas is fed to the sulfuric acid producing unit 70 side. After the sulfuric acid is produced using the exhaust gas, 80 to exhaust the exhaust gas to the atmosphere.

When the concentration of the SOx component contained in the exhaust gas passing through the blower 50 is lower than the set value, the exhaust gas is sent to the air through the stack 80 after the SOx component is removed by being fed to the purifier 90.

Therefore, regardless of the concentration difference of the SOx component, the exhaust gas having the SOx component lower than the environmental standard value is discharged to the atmosphere.

Further, when the concentration of the SOx component is higher than the set value, it is purified and discharged after being utilized in the production of sulfuric acid, so that the cost for manufacturing sulfuric acid can be reduced.

The heat exchanging units 12 and 14 of the present embodiment are arranged in such a manner that the exhaust gas discharged from the regeneration tower 10 passes through and passes through a first heat exchanger (not shown) through which the exhaust gas pumped to the purifying unit 90 by the blower 50 passes 12), and a second heat exchanger (14) through which exhaust gas supplied to the multiplication portion (32) passes through the first heat exchanger (12).

Since the exhaust gas discharged from the regeneration tower 10 is cooled while passing through the first heat exchanger 12 and the second heat exchanger 14, the exhaust gas for removing the SOx component is formed.

Further, since the exhaust gas pumped from the blower 50 to the purifier 90 passes through the first heat exchanger 12, the exhaust gas discharged to the atmosphere is cooled again.

Accordingly, since the exhaust gas discharged through the stack 80 is sufficiently cooled and discharged, it is possible to prevent safety accidents due to the temperature of the exhaust gas being higher than necessary.

The dust removing units 38a and 38b of the present embodiment are formed by continuously providing the first dust removing unit 38a and the second dust removing unit 38b.

A method of treating exhaust gas for a sintering machine according to an embodiment of the present invention will now be described.

2 is a flow chart illustrating a method for treating exhaust gas for a sintering machine according to an embodiment of the present invention.

1 and 2, a method for treating exhaust gas for a sintering machine according to an embodiment of the present invention includes the steps of passing exhaust gas from a regenerator 10 through a heat exchanger 12, (S20) of removing the SOx component contained in the exhaust gas when the exhaust gas is cooled to a set temperature or lower, removing the SOx component contained in the exhaust gas, and removing the dust contained in the exhaust gas (S30) of judging whether the concentration of the SOx component contained in the exhaust gas is equal to or higher than the set value after removing the dust contained in the exhaust gas, and if the concentration of the SOx component contained in the exhaust gas is equal to or higher than the set value, (S50), and discharging the exhaust gas through the stack (80) when sulfuric acid is produced (S60).

The exhaust gas generated when the activated carbon generated by the sintering process is heated and regenerated in the regeneration tower 10 is cooled while passing through the first heat exchanger 12 and the second heat exchanger 14, .

When the exhaust gas passes through the multiplication portion 32, foreign substances contained in the exhaust gas are removed by the washing water injected into the moisture multiplication portion 32.

The exhaust gas that has passed through the moisture increasing portion 32 passes through the cooling portion 34 and the cleaner portion 36 to remove the SOx component and passes through the dust removing portions 38a and 38b to remove dust contained in the exhaust gas And is then fed by the blower 50.

When the concentration of the SOx component contained in the exhaust gas pumped by the blower 50 is equal to or higher than the set value, it is sent to the sulfuric acid producing section 70 side. If the concentration of the SOx component contained in the exhaust gas is lower than the set value, the first heat exchanger 12 And the purifying section 90 side.

When the concentration of the SOx component contained in the exhaust gas is less than the set value, the step (S70) of cooling the regeneration tower exhaust gas passing through the first heat exchanger (12) The SOx component contained in the exhaust gas discharged into the atmosphere can be kept below the environmental standard value.

When the concentration of the SOx component contained in the exhaust gas is equal to or higher than the set value, the exhaust gas is fed to the sulfuric acid production unit 70 so that the exhaust gas is purified and discharged after being utilized for sulfuric acid production. The SOx concentration of the exhaust gas becomes lower than the environmental standard value.

The step (S20) of removing the SOx component contained in the exhaust gas is performed by injecting the caustic soda supplied from the wastewater treatment apparatus into the exhaust gas to neutralize the SOx component.

The caustic soda injected from the cooling unit 34 injects about 1 ton of caustic soda per hour to cool the exhaust gas and remove the SOx component contained in the exhaust gas.

Caustic soda injected from the washing section 36 injects about 0.5 ton of caustic soda per hour to remove the SOx component contained in the exhaust gas.

The caustic soda injected from the cooling unit 34 and the cleaning unit 36 is used by recycling the caustic soda discharged from the wastewater treatment apparatus, thereby reducing the cost of removing the SOx component.

As described above, the treatment method is changed according to the difference in concentration of SOx contained in the exhaust gas of the regeneration tower 10 to produce sulfuric acid utilizing the exhaust gas having a high concentration of SOx. The exhaust gas having a low SOx concentration is purified, So that sulfuric acid can be easily produced and air pollution can be prevented.

Thus, it is possible to provide an apparatus for treating exhaust gas for a sintering machine capable of preventing air pollution and producing sulfuric acid by changing the purification method according to the concentration difference of SOX, and a treatment method thereof.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. .

The apparatus for treating exhaust gas for a sintering machine and the method for treating exhaust gas of the sintering machine have been described by way of example. However, the present invention is not limited to the exhaust gas treating apparatus for the sintering machine, Method can be used.

Accordingly, the true scope of the present invention should be determined by the following claims.

10: regeneration tower 12: first heat exchanger
14: second heat exchanger 32:
34: cooling section 36:
38a: First dust removing unit 38b: Second dust removing unit
50: blower 70: sulfuric acid production part
80: Stack 90: Purification section

Claims (4)

A heat exchanger for lowering the temperature of the exhaust gas discharged from the regeneration tower for sintering to a set temperature or less;
A dehumidifying portion for spraying washing water to the exhaust gas passed through the heat exchanging portion;
A cooling unit for spraying caustic soda into the exhaust gas passing through the dehumidifier to remove the SOx component;
A cleaner for removing SOx components by spraying caustic soda into the exhaust gas passing through the cooling unit;
A dust removing unit for removing dust by providing an electric field to an exhaust gas passing through the cooling unit;
A blower for feeding the exhaust gas passed through the dust removing unit by pressure;
A purifier for removing the SOx component contained in the exhaust gas and discharging the SOx component to the atmosphere when the SOx component contained in the exhaust gas passing through the blower is less than a set value; And
And a sulfuric acid production unit for producing sulfuric acid by utilizing the exhaust gas when the SOx component contained in the exhaust gas passing through the blower is higher than a set value,
The heat-
A first heat exchanger through which exhaust gas discharged from the regeneration tower passes; And
And a second heat exchanger through which the exhaust gas passing through the first heat exchanger and supplied to the dehumidifying portion passes,
Wherein the exhaust gas pumped from the blower to the purifier is passed through the first heat exchanger and re-cooled.
delete (a) passing the regeneration tower exhaust gas through a heat exchange unit to cool it to a set temperature or lower;
(b) removing the SOx component contained in the exhaust gas when the exhaust gas is cooled to a set temperature or lower;
(c) removing dust contained in the exhaust gas after removing the SOx component contained in the exhaust gas;
(d) after the dust contained in the exhaust gas is removed, determining whether the concentration of the SOx component contained in the exhaust gas is equal to or higher than a set value;
(e) if the concentration of the SOx component contained in the exhaust gas is equal to or higher than the set value, producing sulfuric acid using the exhaust gas;
(f) discharging the exhaust gas through the stack when sulfuric acid is produced;
(g) re-cooling the regeneration tower exhaust gas through the first heat exchanger of the heat exchange unit when the concentration of the SOx component contained in the exhaust gas is less than the set value; And
(h) discharging the re-cooled exhaust gas through the stack.
The method of claim 3,
Wherein the step (b) injects the caustic soda supplied from the wastewater treatment device into the exhaust gas to neutralize the SOx component.

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