KR101096055B1 - Apparatus and system for purifying exhaust gas using powder lime - Google Patents

Abstract

The present invention relates to an exhaust gas purifying apparatus and an exhaust gas purifying system using slaked lime, and the exhaust gas purifying apparatus of the present invention uses slaked lime to neutralize the acid gas contained in the exhaust gas, and discharges dust to the lower part. A discharge port is installed, the housing is installed the pipe for supplying the purified exhaust gas in a subsequent process; An exhaust gas suction unit installed at an upper portion of the housing and configured to allow external exhaust gas to flow into the housing; A pair of water discharge pipes installed in the exhaust gas suction part and spraying water into the exhaust gas suction part and spaced apart in an arc direction; And a pair of slaked lime discharge pipes installed in the exhaust gas suction part and spraying the slaked lime into the exhaust gas suction part and spaced apart in an arc direction.

Description

Exhaust gas purification system using slaked lime and exhaust gas purification system {APPARATUS AND SYSTEM FOR PURIFYING EXHAUST GAS USING POWDER LIME}

The present invention relates to an exhaust gas purifying apparatus and an exhaust gas purifying system using slaked lime, and more particularly, to an exhaust gas purifying apparatus for removing acid gas in exhaust gas, and to optimize reaction conditions of slaked lime and water having a large specific surface area and small particle size. It relates to a technique for maximizing the reaction efficiency.

In order to remove acid gas in the exhaust gas generated from a heating device such as a boiler or an incinerator, slaked lime is sprayed on the exhaust gas so that the slaked lime reacts with the acid gas to minimize the emission of acid gas.

As a device for spraying such slaked lime to remove acid gas in the exhaust gas, the dry purifying apparatus described in Utility Model Registration Publication No. 1996-9099 (designated name: Noxious Gas and Dust Treatment Dry Dust Collector Using Neutralizer (Slaked Lime)) And a semi-dry purifier such as Patent Registration Publication No. 10-0807199 (name of the invention: semi-dry purifier using centrifugal force).

Semi-dry purifier is a device that injects a mixture of slaked lime powder and water into the exhaust gas, and has the advantage of increasing the reaction effect by lowering the heat generated during the reaction of slaked lime powder and exhaust gas. The liquid slaked lime mixed with slaked lime powder and water cannot be mixed in the usual way in the field because it must be accompanied by an impurity treatment process to maintain high purity. Therefore, it is accompanied by a high logistics cost because it is transported after being purified into a pure liquid mixture in a place that undergoes the impurity treatment process of the mixture. In addition, the semi-dry purifier frequently causes the nozzle for spraying the liquid mixture to be clogged by slaked lime mixed with water.

In addition, in the semi-dry purifier, a hunting phenomenon occurs in which the acid gas concentration suddenly rises in an unexpected state depending on the type of waste.In this case, when the acid gas concentration suddenly increases, the liquid slaked lime input increases the concentration of the acid gas. Should be reduced. However, excessively increasing the amount of liquid calcined lime causes a problem that the internal temperature of the rear bag filter falls below the dew point, resulting in corrosion and shortening of the life of the bag filter.

On the other hand, the dry purifier has a low logistics cost, but the reaction chamber is installed up and down to secure the reaction length in the purifier, and the slaked lime powder is injected from the upper part of the reaction chamber, but the slag lime powder does not react with the exhaust gas due to its own weight. The reaction slaked lime may accumulate in the lower part of the chamber, and the exhaust gas may be discharged unpurified due to the reaction failure.

Accordingly, an object of the present invention is to solve such a conventional problem, and by supplying powdered slaked lime with a large pore volume and a large specific surface area and small particles separately from water, it is possible to react quickly with the exhaust gas inside the housing. And an exhaust gas purification device capable of preventing the end of the water discharge pipe and the end of the slaked lime discharge pipe from being blocked by arranging the slaked lime and the end of the water discharge pipe and the end of the slaked lime discharge pipe spaced apart from each other. In providing.

delete

In order to achieve the above object, in the exhaust gas purifying apparatus of the present invention, calcined lime is used to neutralize the acid gas contained in the exhaust gas, and an outlet for discharging dust is provided at a lower portion of the exhaust gas purifying apparatus. A housing in which a pipe for supplying the process is installed; A plurality of exhaust gas suction parts installed at an upper portion of the housing and introducing external exhaust gas into the housing; A plurality of water discharge pipes disposed through each of the exhaust gas intakes, and an end thereof is disposed at substantially the same height as an end of the exhaust gas intakes, and injects water into the housing; And a slaked lime discharge pipe disposed to be surrounded by the plurality of exhaust gas suction parts, the end of which is disposed at substantially the same height as the end of the exhaust gas suction part and injects the slaked lime into the housing. do.

In order to achieve the above object, the exhaust gas purifying apparatus of the present invention, the slaked lime for neutralizing the acid gas contained in the exhaust gas is used, the exhaust gas flows therein; A slaked lime discharge pipe which is installed inside the pipe along a longitudinal direction of the pipe and discharges the slaked lime from an end thereof; And a water discharge pipe installed inside the slaked lime discharge pipe along a longitudinal direction of the pipe and in which water particles are diffused and sprayed from an end thereof.

In the exhaust gas purifying apparatus according to the present invention, preferably, the end of the water discharge pipe is formed to protrude from the end of the slaked lime discharge pipe.

In the exhaust gas purifying apparatus according to the present invention, in order to prevent contact with the water discharged from the water discharge pipe and the slaked lime discharged from the slaked lime discharge pipe, it is provided between the water discharge pipe and the slaked lime discharge pipe. It further includes a conical media member that the diameter of the increasingly smaller.

In order to achieve the above object, in the exhaust gas purifying apparatus of the present invention, calcined lime is used to neutralize the acid gas contained in the exhaust gas, and an outlet for discharging dust is provided at a lower portion of the exhaust gas purifying apparatus. A housing in which a pipe for supplying the process is installed; An exhaust gas suction unit installed at an upper portion of the housing and introducing external exhaust gas into the housing; A water discharge pipe installed in the exhaust gas suction part and spraying water into the exhaust gas suction part; And a pair of slaked lime discharge pipes installed in the exhaust gas suction part and spraying the slaked lime into the exhaust gas suction part and spaced apart in an arc direction.

In the exhaust gas purifying apparatus according to the present invention, preferably, the water discharge pipe is provided with a pair, and the pair of water discharge pipes are arranged to be spaced apart in an arc direction from the exhaust gas suction unit.

In the exhaust gas purifying apparatus according to the present invention, preferably, the slaked lime discharge pipes are spaced one by one between the pair of water discharge pipes in the arc direction of the exhaust gas suction unit.

In the exhaust gas purifying apparatus according to the present invention, preferably, the slaked lime discharge pipe is installed in a horizontal direction so that the height at which the water is discharged from the water discharge pipe is lower than the height at which the slaked lime is discharged from the slaked lime discharge pipe. The discharge pipe includes a first pipe part extending in a horizontal direction at substantially the same height as the slaked lime discharge pipe, and a second pipe part which is bent downward from the first pipe part and has an opening downward.

In the exhaust gas purifying apparatus according to the present invention, preferably, the slaked lime discharge pipe includes a cylindrical horizontal portion formed in a horizontal direction, a right extension portion extending from a right portion of an end portion of the horizontal portion, and the right extension portion. It is formed to face and includes a left extension extending from a left portion of the end of the horizontal portion, and a half-moon-shaped plate portion coupled to the right extension and the left extension.

In the exhaust gas purifying apparatus according to the present invention, preferably, the slaked lime discharge pipe includes a cylindrical horizontal portion formed in a horizontal direction, a right extension portion extending from a right portion of an end portion of the horizontal portion, and the right extension portion. It is formed to face and extends from the left portion extending from the left portion of the end of the horizontal portion, and includes a circular plate portion inclined coupled to the right extension and the left extension.

In order to achieve the above object, the exhaust gas purification system of the present invention comprises: an exhaust gas purification apparatus according to claim 6; A slaked lime supply device for supplying slaked lime into the exhaust gas purifying apparatus; A water supply device for supplying water into the exhaust gas purification device; A bag filter in which unreacted slaked lime is collected in the exhaust gas purifier; And a circulation device for resupplying unreacted slaked lime collected in the bag filter to the slaked lime feeding device.

According to the hydrated lime of the present invention, by supplying hydrated lime in the form of a powder with a large specific surface area, a large pore volume, and a small particle size separately from water, the amount of water impregnated in the hydrated lime is increased to activate a forward reaction in which the slaked lime and oxygen gas react and a reverse reaction. It is possible to restrain and increase the reaction rate and the reaction efficiency with the exhaust gas in the housing to increase the collection rate of the acid gas in the exhaust gas.

According to the exhaust gas purifying apparatus of the present invention, the end of the water discharge pipe and the end of the slaked lime discharge pipe can be spaced apart to prevent the phenomenon of the end of the slaked lime discharge pipe is blocked by the water particles and the end of the water discharge pipe blocked by the slaked lime. have.

In addition, according to the exhaust gas purifying apparatus of the present invention, since the purified by using the powdered slaked lime instead of the conventional liquid slaked lime can significantly reduce the logistics cost.

1 is a schematic configuration diagram of an exhaust gas purification system according to an embodiment of the present invention,
2 is a perspective view of an essential part of an exhaust gas purifying apparatus according to a first embodiment of the present invention;
3 is a cross-sectional view taken along line III-III 'of FIG. 2,
4 is a cross-sectional view of an exhaust gas purifying apparatus according to a second embodiment of the present invention,
5 is a front sectional view of an exhaust gas purifying apparatus according to a third embodiment of the present invention,
6 is a cross-sectional plan view of the exhaust gas purification device of FIG. 5,
7 is a view showing a first embodiment of the slaked lime discharge pipe of the exhaust gas purification device of FIG.
8 is a view showing a second embodiment of the slaked lime discharge pipe of the exhaust gas purification device of FIG.

Hereinafter, embodiments of the exhaust gas purification apparatus and the exhaust gas purification system according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a schematic configuration diagram of an exhaust gas purification system according to an embodiment of the present invention, FIG. 2 is a perspective view of an essential part of an exhaust gas purification apparatus according to a first embodiment of the present invention, and FIG. 3 is III in FIG. 2. It is sectional drawing of the -III 'line | wire.

Referring to FIG. 1, in the exhaust gas purification system of the present embodiment, the exhaust gas containing the acid gas discharged from the boiler 10 is introduced into the exhaust gas purification apparatus 100 through a pipe, and the slaked lime supply device 30 is provided. The slaked lime quantitatively controlled by the control valve 31 is supplied into the exhaust gas purification device 100 in powder form, and the water quantitatively controlled by the control valve 41 from the water supply device 40 is exhaust gas. It is injected into the purification device 100.

The acid gas in the exhaust gas is mostly purified by the exhaust gas purifier 100, and the unreacted slaked lime in the exhaust gas purifier 100 includes a bag filter 60 having a mesh-shaped filter through a pipe 50. It is supplied to the) side and collected by the bag filter (60). Exhaust gas excluding the acid gas component is discharged to the outside through the bag filter 60 and the chimney 70.

The circulator 80 connects the bag filter 60 and the exhaust gas purifier 100. The unreacted hydrated lime collected in the bag filter 60 is supplied back into the exhaust gas purification device 100 by the circulation device 80 and recycled to the reaction with the exhaust gas.

On the other hand, the slaked lime which is quantitatively controlled by the control valve 32 is injected from the slaked lime supply apparatus 30 into the piping 50 in powder form. Slaked lime directly supplied to the pipe 50 is used as an auxiliary means when the concentration of the acidic gas discharged from the boiler 10 is increased and is optionally applied as necessary.

The exhaust gas purification system of this embodiment, which separately supplies powdered lime and water, has advantages in several respects to the system for supplying liquid lime. First of all, in the liquid slaked lime system, a slurry pump and a liquid nozzle must be used for supplying and transporting the liquid slaked lime. However, the exhaust gas purifying system of the present embodiment uses a general water pump and a normal water nozzle, so that the liquid slaked lime is economical even in the period of use. 2 to 3 times larger than systems In addition, the exhaust gas purification system of the present embodiment may increase the amount of incineration since the neutralization reaction in the system is increased and the differential pressure of the bag filter 60 may be kept low.

2 and 3, the exhaust gas purifying apparatus 100 according to the present embodiment purifies an acid gas in the exhaust gas by using high-reaction calcined lime, and includes a housing 110 and an exhaust gas intake unit ( 120, a water discharge pipe 130, and a slaked lime discharge pipe 140.

The housing 110 is provided with a discharge port for discharging dust at a lower portion thereof, and a pipe 50 for supplying the purified exhaust gas to a subsequent process, for example, the bag filter 60, is installed.

The exhaust gas inlet 120 is installed on the upper portion of the housing 110 and introduces exhaust gas from the outside into the housing 110 and diffuses inside the housing 110.

In this embodiment, the pipes through which the exhaust gas discharged from the boiler 10 is transferred are divided into three pipes and introduced into the exhaust gas purification apparatus 100, and ends of each pipe are sucked in three exhaust gases installed in the housing 110. It is connected to the unit 120, respectively.

The three exhaust gas inlet 120 is installed inside the upper portion of the housing 110, the hydrated lime discharge pipe 140 to be described later is installed in the central portion of the virtual triangle formed by the three exhaust gas inlet 120 do.

Exhaust gas inlet 120 is the upper surface is a portion of the cylinder except the portion connected to the pipe to which the exhaust gas discharged from the boiler 10 is transported and made of a cylindrical shape with the lower surface is opened, the exhaust gas exhaust gas The gas is introduced into the exhaust gas suction unit 120 through the central portion of the upper surface of the suction unit 120 and discharged into the housing 110 through the lower surface as shown in the solid line of FIG. 3.

The water discharge pipe 130 is disposed through each of the exhaust gas inlet 120, and sprays water into the housing 110.

In this embodiment, the water discharge pipe 130 is also provided with the same quantity of the exhaust gas suction unit 120, three corresponding to each exhaust gas suction unit 120, the same as the lower end of the exhaust gas suction unit 120 The injection nozzle is installed at the end of the water discharge pipe 130 to the height is positioned to inject water as shown in the dotted line shown in FIG.

The slaked lime discharge pipe 140 is disposed so as to be surrounded by a plurality of exhaust gas intake unit 120, and injects the slaked lime into the housing 110.

An end portion of the slaked lime discharge pipe 140 is also disposed at substantially the same height as the lower end of the exhaust gas inlet 120, and discharges the slaked lime in powder form to the inside of the housing 110 as shown in FIG. 3.

Since the end portion of the water discharge pipe 130 and the end portion of the slaked lime discharge pipe 140 are spaced apart, the powdered slaked lime is not attached to the end of the water discharge pipe 130 to prevent clogging at the end of the water discharge pipe 130. In the same manner, water particles do not adhere to the end of the slaked lime discharge pipe 140, thereby preventing the clogging of the end of the slaked lime discharge pipe 140.

In addition, the slaked lime in the form of powder discharged from the slaked lime discharge pipe 140 and moved downwards in the interior of the housing 110 may be formed by the housing 110 by water particles sprayed in the same direction from a nozzle provided at the end of the water discharge pipe 130. ) And the hydrated lime is precipitated to the lower side of the housing 110 while reacting with the acidic gas of the exhaust gas.

The slaked lime in powder form supplied by the slaked lime supply device 30 has a large amount of water to be moistened relative to the weight of the slaked lime, and has a low dropping rate in the wetted powder state. Therefore, the slaked lime of this embodiment has a large surface area with a surface area ratio of 25 m 2 / g or more and 45 m 2 / g or less, and has a large pore volume within the range of 0.10 cm 3 / g to 0.22 cm 3 / g. Moreover, the particle size of particle exists in the range of 3 micrometers or more and 8 micrometers or less.

In general industrial calcined lime, the surface area ratio is 12 m2 / g or more and 16 m2 / g or less, and the specific surface area is small compared to the calcined lime of this embodiment, and the pore volume is about 0.06 cm3 / g. Compared with the slaked lime of the present Example, it is small compared with the particle size of a particle | grain in the range of 9 micrometers-10 micrometers.

In this specification, the specific surface area is defined as the sum of the surface areas of the slaked lime particles contained in 1 g, the pore volume is defined as the sum of the volume of pores formed in the slaked lime particles contained in 1 g, and the particle size (D50) is less than or equal to the reference size. It is defined as the case that more than 50% of the particles are in the sample. The larger the specific surface area, the more advantageous the removal of HCl component from the acid gas in the exhaust gas. The larger the pore volume, the better the removal of SOx component from the acid gas in the exhaust gas, and the smaller the particle size, the greater the water content.

When the slaked lime powder which does not satisfy the specific surface area, pore volume condition and particle size condition is supplied to the exhaust gas purifying apparatus, the settling speed of the slaked lime inside the housing is increased to achieve the desired purpose of effective removal of acid gas in the exhaust gas. Can not.

The exhaust gas purifier 100 is provided with a discharge port for drawing out the dust of the slaked lime reacted with the acidic gas of the exhaust gas to the outside, which will not be described in detail as a structure of a conventional exhaust gas purifier.

In addition, the exhaust gas purification device 100 is provided with a pipe 50 for supplying the purified exhaust gas to the bag filter 60, and powdered slaked lime supplied from the slaked lime supply device 30 into the pipe 50. By re-extracting to further purify the exhaust gas discharged from the exhaust gas purification apparatus 100.

4 is a cross-sectional view of an exhaust gas purifying apparatus according to a second embodiment of the present invention.

In a small boiler installation, the exhaust gas purification device 100 of the first embodiment is not installed between the boiler 10 and the bag filter 60, and exhaust gas is directly discharged from the boiler 10 to the bag filter 60. . In this case, a large load is generated in the bag filter 60, and it is preferable to inject the slaked lime powder directly into the exhaust gas pipe, because the bag filter 60 is frequently replaced, and the reaction between the slaked lime powder and the exhaust gas is enhanced. It is more preferable to spray together with water.

Referring to FIG. 4, the exhaust gas purifying apparatus 200 according to the present embodiment includes a pipe 50, a slaked lime discharge pipe 240, a water discharge pipe 230, and an intermediate member 250. In FIG. 4, members referred to by the same reference numerals as the members shown in FIGS. 1 to 3 have the same configuration and function, and detailed descriptions thereof will be omitted.

The exhaust gas discharged from the boiler 10 flows into the pipe 50 connecting the boiler 10 and the bag filter 60.

The slaked lime discharge pipe 240 is connected to the slaked lime supply device 30 and is installed inside the pipe 50 along the longitudinal direction of the pipe 50. The slaked lime discharge pipe 240 has a horizontal portion of a predetermined length installed in parallel with the center of the pipe 50 in the pipe 50, the powdered slaked lime discharged from the end of the horizontal portion along the longitudinal direction of the pipe 50 As shown in FIG. 4, the pipe 50 is diffused and discharged inside the pipe 50.

The water discharge pipe 230 is installed inside the slaked lime discharge pipe 240 along the longitudinal direction of the pipe (50). An end portion of the water discharge pipe 230 protrudes more than an end portion of the slaked lime discharge pipe 240, and at the end, the nozzle 231 to allow water particles discharged from the water discharge pipe 230 to gradually diffuse in the pipe 50 and then converge again. This is installed.

The intermediate member 250 is to prevent the contact of the water discharged from the water discharge pipe 230 and the slaked lime discharged from the slaked lime discharge pipe 240, the water discharge pipe 230 and the water discharge pipe 230 and the slaked lime discharge pipe ( Installed between 240). The intermediate member 250 has a conical shape in which the diameter of the cross section of the intermediate member 250 gradually decreases along the longitudinal direction of the pipe 50. A discharge path of the slaked lime is formed between the intermediate member 250 and the slaked lime discharge pipe 240, and the slaked lime passed through the intermediate member 250 spreads in a radial direction and is located in the center of the pipe 50. Contact with the water discharged from the slaked lime discharged from the slaked lime discharge pipe 240 is prevented.

Further, powdered slaked lime is discharged from the horizontal portion of the slaked lime discharge pipe 240 to the pipe 50 through which the exhaust gas flows, and exhaust gas is discharged from the nozzle 231 of the water discharge pipe 230 provided to protrude from the slaked lime discharge pipe 240. When the water particles are injected in the flowing direction, since the water particles do not contact the ends of the slaked lime discharge pipe 240, the slaked lime is smoothly discharged from the slaked lime discharge pipe 240.

Thus, the slaked lime discharged from the slaked lime discharge pipe 240 reacts with the acid particles of the water particles and the exhaust gas injected from the water discharge pipe 230 at a position spaced a predetermined distance from the end.

The exhaust gas purification device 200 of this embodiment is installed in a pipe such as a boiler 10 in which the exhaust gas purification device 100 of the first embodiment shown in FIG. 2 is not installed, so that the temperature of the bag filter 60 is increased. It is possible to increase the removal efficiency of acidic gas by supplying moisture to the powdered slaked lime without falling below the dew point.

5 is a front sectional view of an exhaust gas purification device according to a third embodiment of the present invention, FIG. 6 is a sectional plan view of the exhaust gas purification device of FIG. 5, and FIG. 7 is a view of the slaked lime discharge pipe of the exhaust gas purification device of FIG. 5. Fig. 1 shows a first embodiment.

5 to 7, the exhaust gas purifying apparatus 300 according to the present embodiment includes a housing 110, an exhaust gas suction unit 320, a water discharge pipe 330, and a slaked lime discharge pipe 340. do. 5 and 6, members referred to by the same reference numerals as the members shown in Figures 1 to 3 have the same configuration and function, detailed description of each of them will be omitted.

The exhaust gas suction unit 320 is installed on the upper portion of the housing 110, and the external exhaust gas is introduced into the housing 110, and the exhaust gas is discharged from the upper side to the lower side in the housing 110. do.

The water discharge pipe 330 is installed in the exhaust gas inlet 320, water discharged from the water discharge pipe 330 is injected into the housing 110. In this embodiment, a pair of water discharge pipes 330 are disposed spaced about 180 degrees in the arc direction.

The slaked lime discharge pipe 340 is installed in the exhaust gas suction unit 320, the slaked lime discharged from the slaked lime discharge pipe 340 is injected into the housing 110. In the present embodiment, a pair of slaked lime discharge pipes 340 are disposed to be spaced about 180 degrees in the arc direction, and the slaked lime discharge pipes 340 are disposed between the pair of water discharge pipes 330, respectively. That is, in this embodiment, the water discharge pipe 330 and the slaked lime discharge pipe 340 are alternately spaced at intervals of about 90 degrees in the arc direction.

In general, the exhaust gas is slowed while passing through the exhaust gas suction unit 320 (3 m / s or less), so that the exhaust gas, the slaked lime and the water have sufficient time to react, and an optimal condition is formed. do.

The water discharge pipes 330 and the slaked lime discharge pipes 340 are installed such that the height of the water discharged from the water discharge pipe 330 is lower than the height of the discharged lime from the lime discharge pipe 340. Water particles do not come into contact with the end of the slaked lime discharge pipe 340 to smoothly discharge the slaked lime from the slaked lime discharge pipe 340 and smoothly discharge the water particles from the water discharge pipe 330 because the slaked lime does not contact the ends of the water discharge pipe 330. To discharge.

To this end, the slaked lime discharge pipe 340 is installed in the horizontal direction. The water discharge pipe 330 extends in a downward direction from the first pipe part 331 and the first pipe part 331 extending in the horizontal direction at substantially the same height as the slaked lime discharge pipe 340 and the opening toward the lower side. It is configured to have a second pipe portion 332 formed.

The slaked lime discharge pipe 340 may include a cylindrical horizontal portion 341 formed in a horizontal direction, a right extension portion 342 extending from a right portion of an end portion of the horizontal portion 341, and a right extension portion 342. It is formed to face and includes a left extension 343 extending from a portion of the left side of the horizontal portion 341, and a half-moon-shaped plate portion 344 coupled to the right extension 342 and the left extension 343 do.

The end portion of the slaked lime discharge pipe 340 is covered by the right extension part 342 and the left extension part 343 in the left and right directions, and has an open shape in the vertical direction. The plate portion 344 is coupled almost perpendicularly to the right extension portion 342 and the left extension portion 343, and the half moon plate portion 344 covers the lower portion of the cross section of the slaked lime discharge pipe 340.

The slaked lime transported along the horizontal portion 341 is in contact with the exhaust gas through an open portion in the up and down direction, and collides with the plate portion 344 to increase the diffusion effect of the slaked lime and form a movement path downward. .

The slaked lime of the present invention configured as described above has a large specific surface area, a large pore volume, and supplies a powdered slaked lime with a small particle size separately from water to increase the amount of water in the slaked lime so that the slaked lime reacts with oxygen gas. It is possible to suppress the reverse reaction, and to increase the reaction rate and the reaction efficiency with the exhaust gas in the housing to obtain the effect of increasing the capture rate of the acid gas in the exhaust gas.

In the exhaust gas purifying apparatus of the present invention configured as described above, the end of the water discharge pipe and the end of the slaked lime discharge pipe are spaced apart so that the end of the slaked lime discharge pipe is blocked by water particles, and the end of the water discharge pipe is blocked by the slaked lime. The effect to prevent this can be obtained.

In addition, since the exhaust gas purification device of the present invention configured as described above is purified by directly using the powdered slaked lime instead of the existing liquid slaked lime in the exhaust gas purification device, it is possible to obtain an effect of significantly reducing the logistics cost. .

8 is a view showing a second embodiment of the slaked lime discharge pipe of the exhaust gas purification device of FIG.

The slaked lime discharge pipe 440 of this embodiment includes a cylindrical horizontal portion 441 formed in the horizontal direction, a right extension portion 442 extending from a right part of the ends of the horizontal portion 441, and a right extension portion 442. ) And a circular plate portion 444 inclinedly coupled to the left extension portion 443 and the right extension portion 442 and the left extension portion 443 which are formed to face each other and extend from a left portion of the ends of the horizontal portion 441. ).

The end portion of the slaked lime discharge pipe 440 is covered by the right extension part 442 and the left extension part 443 in the left and right directions, and has an open shape in the vertical direction. The plate portion 444 is inclined about 45 degrees to the right extension portion 442 and the left extension portion 443, and the circular plate portion 444 covers the entire cross section of the slaked lime discharge pipe 440.

The slaked lime transported along the horizontal portion 441 is in contact with the exhaust gas through an open portion in the vertical direction and collides with the plate portion 444 to increase the diffusion effect of the slaked lime and to form a movement path downward. .

The scope of the present invention is not limited to the above-described embodiments and modifications, but may be embodied in various forms of embodiments within the scope of the appended claims. Without departing from the gist of the invention claimed in the claims, it is intended that any person skilled in the art to which the present invention pertains falls within the scope of the claims described in the present invention to various extents which can be modified.

10: boiler 30: slaked lime feeder
40: water supply 50: piping
60: bag filter 80: circulator
100: exhaust gas purification device 110: housing
120: exhaust gas suction unit 130: water discharge pipe
140: slaked lime discharge pipe

Claims (12)

delete Slaked lime is used to neutralize the acid gas contained in the exhaust gas,
A housing having a discharge port for discharging dust at a lower portion thereof and a pipe for supplying purified exhaust gas to a subsequent process;
A plurality of exhaust gas suction parts installed at an upper portion of the housing and introducing external exhaust gas into the housing;
A plurality of water discharge pipes disposed through each of the exhaust gas intakes, and an end thereof is disposed at substantially the same height as an end of the exhaust gas intakes, and injects water into the housing; And
It is disposed so as to be surrounded by the plurality of exhaust gas intake, the end portion is disposed at substantially the same height as the end of the exhaust gas intake, the slaked lime discharge pipe for injecting the slaked lime into the housing; Exhaust gas purification system. Slaked lime is used to neutralize the acid gas contained in the exhaust gas,
A pipe through which exhaust gas flows;
A slaked lime discharge pipe which is installed inside the pipe along a longitudinal direction of the pipe and discharges the slaked lime from an end thereof; And
And a water discharge pipe installed inside the slaked lime discharge pipe along a lengthwise direction of the pipe, in which water particles are diffused and sprayed from an end thereof. The method of claim 3,
The end of the water discharge pipe is characterized in that the exhaust gas purification device is formed so as to protrude from the end of the slaked lime discharge pipe. The method of claim 3,
In order to prevent contact of the water discharged from the water discharge pipe and the slaked lime discharged from the slaked lime discharge pipe, it is provided between the water discharge pipe and the slaked lime discharge pipe, and further comprises a conical media member whose diameter of the cross section becomes smaller and smaller. Exhaust gas purifying apparatus. Slaked lime is used to neutralize the acid gas contained in the exhaust gas,
A housing having a discharge port for discharging dust at a lower portion thereof and a pipe for supplying purified exhaust gas to a subsequent process;
An exhaust gas suction unit installed at an upper portion of the housing and introducing external exhaust gas into the housing;
A water discharge pipe installed in the exhaust gas suction part and spraying water into the exhaust gas suction part; And
And a pair of slaked lime discharge pipes installed in the exhaust gas suction part and injecting the slaked lime into the exhaust gas suction part and spaced apart in an arc direction. The method of claim 6,
The water discharge pipe is provided with a pair, a pair of water discharge pipe exhaust gas purification device, characterized in that spaced apart in the arc direction from the exhaust gas suction. The method of claim 7, wherein
The slaked lime discharge pipes, the exhaust gas purification device, characterized in that spaced one by one between the pair of water discharge pipe in the arc direction of the exhaust gas suction. The method of claim 6,
So that the height of the discharged water from the water discharge pipe is lower than the height of the discharged lime from the slaked lime discharge pipe,
The slaked lime discharge pipe is installed in the horizontal direction,
The water discharge pipe may include a first pipe part extending in a horizontal direction at substantially the same height as the slaked lime discharge pipe, and a second pipe part bent downward from the first pipe part and having an opening toward the bottom thereof. An exhaust gas purification device characterized in that. The method of claim 6,
The slaked lime discharge pipe has a cylindrical horizontal portion formed in a horizontal direction, a right extension portion extending from a right side portion of an end portion of the horizontal portion, and formed to face the right extension portion and extending from a left portion of an end portion of the horizontal portion. An exhaust gas purification apparatus comprising a left extension part and a half moon plate portion coupled to the right extension part and the left extension part. The method of claim 6,
The slaked lime discharge pipe has a cylindrical horizontal portion formed in a horizontal direction, a right extension portion extending from a right side portion of an end portion of the horizontal portion, and formed to face the right extension portion and extending from a left portion of an end portion of the horizontal portion. And a circular plate portion which is inclinedly coupled to the left extension portion and the right extension portion and the left extension portion. An exhaust gas purifying apparatus according to claim 6;
A slaked lime supply device for supplying slaked lime into the exhaust gas purifying apparatus;
A water supply device for supplying water into the exhaust gas purification device;
A bag filter in which unreacted slaked lime is collected in the exhaust gas purifier;
And a circulation device for resupplying the unreacted slaked lime collected in the bag filter to the slaked lime feeder.

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