KR102053365B1 - White smoke and fine dust eliminating structure - Google Patents

Abstract

According to the present invention, a structure for removing white smoke and fine dust is provided. The structure comprises: a space structure having a space provided to the outside of an exhaust port through walls provided on upper surfaces of a white smoke generation structure at a predetermined height while surrounding the exhaust port and through a cover body installed while covering upper ends of the walls; an outdoor air introduction body formed on the walls to introduce outdoor air containing fine dust into the space; an exhaust passage structure allowing water vapor containing white smoke to be cooled while being mixed with low-temperature outdoor air in the space such that the white smoke exhausted from the exhaust port is evenly diffused while being vertically guided toward the space in a zigzag pattern through an induction cylinder extending to a predetermined height along the inner circumference of the exhaust port of the white smoke generation structure and through an induction cover which has a larger diameter or area than the induction cylinder, and is installed covering the induction cylinder while being spaced from an upper portion of the induction cylinder by a predetermined distance; a white smoke and fine dust filtering means installed in the walls while covering an upper portion of the exhaust passage structure, and allowing the particles of white smoke and fine dust in air (a mixture of outdoor air and water vapor) moved in a cooled state to be settled and removed while being condensed; a discharge port formed in the cover body such that the air from which the white smoke and the fine dust are removed by the white smoke and fine dust filtering means is discharged to the outside of the cover body; and an air discharge means allowing for a process by which the water vapor including the white smoke and outdoor air including the fine dust are introduced, mixed, filtered, and discharged in the space between the exhaust port and the discharge port through a stack extending from the discharge port at a predetermined height and through a discharge fan formed in the stack.

Description

White smoke and fine dust eliminating structure

The present invention relates to a white smoke and fine dust removal structure, and more particularly, installed in the upper side of the white smoke generating structure, such as a cooling tower and cooled by the outside air including fine dust from which the white smoke particles generated from the white smoke generating structure are induced from the outside. It is related to white smoke and fine dust removal structure that can be precipitated by condensation or condensation by white smoke fine dust filter means to remove white smoke and fine dust.

In general, systems such as air conditioning and heating systems are installed in large structures such as industrial buildings such as assembly buildings or buildings and power plants, and at this time, cooling towers are installed outside the large structures.

Here, the white smoke generating structure 10, such as a cooling tower, as shown in Figure 1, the air discharge means 160, including the stack 161 and the discharge fan 162 disposed on the top, to inject the circulating water It is provided with a spray nozzle, a heat dissipation unit disposed in the middle of the inside to exchange heat with the circulating water sprayed through the spray nozzle, and an eliminator for removing water droplets contained in the air discharged after heat exchange. .

However, in the conventional white smoke generating structure 10, the discharged air discharged to the outside by the discharge fan 162 of the air discharge means 160 has a high temperature and high humidity by the heat exchanger, and thus, outside air as in winter When the temperature is low and the temperature difference between the discharge air and the large, there is a problem that white lead is generated by the moisture contained in the discharge air.

In addition, the structure in which the white smoke particles are precipitated by simply spraying water on the discharged air is discharged as white gas color to the outside without the white smoke particles completely removed when the discharge air rises or discharge speed is high. There is a problem of feeling a visual burden.

(Patent Document 0001) Registered Patent 10-1713145

Therefore, an object of the present invention is installed on the upper side of the white smoke generating structure and the white smoke particles generated from the white smoke generating structure is cooled by outside air including fine dust derived from the outside and then settled by condensation or condensation by the white smoke fine dust filter means. It is to provide a white smoke and fine dust removal structure that can be removed so that white smoke and fine dust.

On the other hand, the object of the present invention is not limited to the above-mentioned object, other objects that are not mentioned will be clearly understood by those skilled in the art from the following description.

According to the present invention, the space structure surrounding the exhaust port on the upper side of the white smoke generating structure and the space structure is provided to the outside of the exhaust port through the cover configured to be installed while covering the upper end of the wall and configured to be installed at a constant height; An outdoor air inlet configured to be configured on a wall to allow external air to be introduced into the space, including fine dust; An induction cover which is installed while covering the induction cylinder with a larger diameter or area than the induction cylinder and formed at a predetermined distance apart from the induction cylinder extending to a predetermined height along the inner circumference of the exhaust port of the white smoke generating structure. The exhaust path structure which provides the exhaust path structure which the white smoke exhausted from the exhaust port is led to the up and down zigzag in the space and spreads evenly, so that the water vapor containing the white smoke is mixed with the low temperature outside air and cooled in the space. ; A white smoke fine dust filter means configured to cover the upper portion of the exhaust passage structure inside the wall and to settle and remove white smoke and fine dust particles in the air (mixed state of outside air and steam) which are moved to a cooling state while condensing or condensing; A discharge port formed in the cover body to discharge the white lead and the fine dust removed by the white smoke fine dust filter means to the outside of the cover body; And the process of introducing, mixing, filtering, and discharging the outdoor air including steam and fine dust into the space between the exhaust port and the exhaust port through a stack extending to a predetermined height in the exhaust port and an exhaust fan configured inside the stack. A white smoke and fine dust removing structure including an air discharge means is provided.

Here, it is preferable that the external air inflow body is installed while having a downward incidence angle at a portion corresponding to the height from the exhaust port of the white smoke generating structure to the induction cover of the wall panel of the wall.

Further, the induction cover preferably has an induction plate having a larger diameter or area than the induction cylinder and an inverted bowl shape in which the flange extends downward from the edge of the induction plate.

In addition, the induction cover preferably has a height lower than the height of the upper end of the induction cylinder from the position of the exhaust port.

In addition, the white smoke fine dust filter means, the plate of the metal material having an area covering the upper portion of the space structure; It is preferable to include a plurality of vent holes perforated on the plate.

Therefore, according to the present invention, the white lead particles generated from the white lead generating structure are cooled by outside air including fine dust induced from the outside, and then settled by condensation or condensation by the white lead fine dust filter means to remove white lead and fine dust. can do.

On the other hand, the effects of the present invention is not limited to the effects mentioned above, other effects that are not mentioned will be clearly understood by those skilled in the art from the description of the claims.

1 is a view schematically showing an embodiment of a conventional cooling tower;
2 is a view showing a state in which white lead and fine dust removing structures are applied to a white lead generating structure according to a preferred embodiment of the present invention;
3 is a cross-sectional view showing the configuration of the white smoke and fine dust removing structure of FIG.
4 is a view showing an embodiment of the white smoke fine dust filter means in the white smoke and fine dust removing structure of FIG. And
5 is a view showing another embodiment of the white smoke fine dust filter means in the white smoke and fine dust removing structure of FIG.

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

2 to 5, the white smoke and fine dust removing structure 100 according to the preferred embodiment of the present invention includes a white smoke generating structure 10 such as a cooling tower having an exhaust port 11 through which white smoke is discharged to the outside. It is fixed to the outside of the exhaust port 11 through the cover 111 configured to cover the upper end of the wall 111 and the wall 111 is installed to a certain height while surrounding the exhaust port 11 on the upper side of the Space structure 110 to provide a volume of space (S), the external air inlet 120 is configured in the wall 111 to allow the outside air, including fine dust in the space (S), smoke generating structure (10) In the induction cylinder 131 and the induction cylinder 131 which is formed to extend to a predetermined height along the inner circumference of the exhaust port 11 of the () is spaced a predetermined distance above the induction cylinder 131 Cover the induction cylinder (131) The white smoke exhausted from the exhaust port 11 through the induction cover 132 installed thereon is not diffused immediately in the space S but is provided in the upper and lower zigzag to provide an exhaust path structure so that the white smoke is spread evenly. While covering the upper part of the exhaust path structure 130 in the exhaust path structure 130 and the wall 111 to allow water vapor to be cooled to a temperature below the dew point while mixing in a relatively low temperature outside air and the space S. The white smoke and fine dust filter means 140 and the exhaust port 11 coincide with each other so that the white smoke and fine dust particles in the air which is installed and moved to the cooling state (mixed state of the air and water vapor) are sedimented and removed by condensation or condensation. Is formed in the corresponding portion of the cover body 112 to be discharged to the air outlet 150 to remove the white smoke and fine dust by the white smoke fine dust filter means 140 to the outside of the cover body 112 and White lead in the space S between the exhaust port 11 and the exhaust port 150 through the stack 161 extending to a predetermined height in the discharge port 150 and the discharge fan 162 formed inside the stack 161. It includes air discharge means 160 and the like so that the process of the inlet, mixing, filtering and exhausting the outdoor air including the steam and fine dust.

Here, the white smoke generating structure 10 is a structure such as a cooling tower, which is configured at the rear end of an industrial facility such as a power plant and has an exhaust port 11 through which white smoke is discharged to the outside, and has a stack 161 and a discharge fan disposed at the top thereof. Air discharge means 160 including a (162), the injection nozzle for injecting the circulating water, the heat exchanger is disposed in the inner middle and the heat exchanger and the outside air to be exchanged through the injection nozzle and the heat is discharged after heat exchange It has a component part containing the eliminator etc. which remove the water droplet contained in air.

Here, the white smoke generating structure 10, as disclosed in Patent No. 10-1713145, etc., may have a known configuration, and thus detailed description thereof will be omitted.

The space structure 110 covers the exhaust port 11 on the upper surface of the white smoke generating structure 10 through the wall 111 and the cover 112 to provide a predetermined volume of space S so as to provide water vapor described below. It is a means for providing a space portion for mixing the outside air.

The wall 111 is to provide a wall surface function to the space structure 110, a plurality of steel columns that are installed at a predetermined interval and a predetermined height on the upper surface of the white smoke generating structure 10, and installed between the steel column Wall panels and the like that are constructed.

The cover body 112 provides a ceiling function to the space structure 110, and includes a cover panel for covering the upper end of the steel column and the wall panel.

Therefore, according to the space structure 110, while providing the space (S) having a predetermined volume while covering the exhaust port 11 on the upper surface of the smoke generating structure 10, through which the water vapor and the outside air before being discharged to the outside By mixing and allowing the water vapor to cool, white smoke and fine dust removal efficiency through the white smoke fine dust filter means 140 may be improved.

In addition, through the structure that is separately installed on the upper side of the white smoke generating structure 10 can be easily applied to the existing white smoke generating structure (10), thus, white lead and fine dust easily through the conventional white smoke generating structure (10) It can have a configuration that is removed.

The outdoor air inflow unit 120 is configured in the wall 111 and as a means for introducing external air including fine dust from the outside into the space S, and may have a known damper structure.

Here, it is preferable that the outside air supplied into the space S of the space structure 110 by the damper has an amount of at least less than the amount of water vapor exhausted through the exhaust port 11 of the white smoke generating structure 10.

To this end, the damper is configured to be installed only on a part of the wall panel of the wall 111, for example, induction from the exhaust port 11 of the white smoke generating structure 10 of the wall panel of the wall 111 having a constant height Installed and configured to have a downward incidence angle at a portion corresponding to the height up to the cover 132, so that the outside air containing fine dust is sucked toward the lower side of the space (S), guided by the exhaust path structure 130 It is desirable that the mixing time with the water vapor be delayed as much as possible to maximize the cooling efficiency of the water vapor and to maximize the adsorption efficiency where the fine dust in the outside air is adsorbed by the water vapor.

Therefore, according to the outdoor air inlet 120, the air supplied to the space S of the space structure 110 and the water vapor exhausted from the smoke generating structure 10 are mixed with each other, and the water vapor is cooled to a low temperature and fine dust It can be made to have a state to be adsorbed to water vapor.

The exhaust path structure 130 allows the water vapor including the white smoke exhausted from the white smoke generating structure 10 through the induction cylinder 131 and the induction cover 132 to be uniformly diffused into the space S of the space structure 110. It is a means for providing the exhaust passage to maximize the low temperature and fine dust adsorption function by mixing with the outside air.

The induction cylinder 131 is formed to extend at a predetermined height along the inner circumference of the exhaust port 11 of the smoke generating structure 10 so that water vapor exhausted through the exhaust port 11 is space S of the space structure 110. Do not diffuse immediately below the exhaust.

The induction cover 132 has an induction plate 132a having a larger diameter or area than the induction cylinder 131 and an inverted bowl shape in which the flange 132b extends downward from the edge of the induction plate 132a. Water vapor including white lead which is installed while covering the induction cylinder 131 in a state spaced apart from the upper portion of the induction cylinder 131 and moved upwardly above the space S of the space structure 110 along the induction cylinder 131. After being moved downward again to the space (S) to spread toward the outside air.

Here, the upper end height of the induction cylinder 131 preferably has a position higher than the lower end of the flange 132b of the induction cover 132, through which the steam exhausted through the exhaust port 11 is zigzag up and down space It is preferable to spread evenly in the space S of the structure 110.

Accordingly, according to the exhaust path structure 130, the exhaust path including the white smoke is not diffused immediately in the space (S) of the space structure 110, but is induced in the vertical zigzag and evenly spread in the space (S). The structure is provided so that the water vapor containing white smoke is cooled to a temperature below the dew point while being mixed with a relatively low temperature outside air, and the scum fine dust filter means described below through a scrubber function in which fine dust in the outside air is adsorbed ( The white smoke and fine dust removal efficiency of 140 may be improved.

The white smoke fine dust filter means 140 is installed while covering the upper part of the exhaust passage structure 130 inside the wall 111, and the white smoke and fine dust in the air (mixed state of air and water vapor) moved to a cooling state. As a means for allowing the particles to settle and remove as condensation or condensation, the demister filter 141 is included.

The demister filter 141 has an area covering the upper portion of the space S of the space structure 110 and has a metal plate 141a that condenses water vapor containing fine dust and white smoke particles upon contact with the air. And a vent hole 141b finely perforated in the plate 141a to allow movement of the air.

Here, the size of the vent 141b may have a known size through which air having white lead and fine dust particles passes without clogging.

Therefore, according to the white smoke fine dust filter means 140, while the air containing the fine dust and the water vapor containing the white smoke particles are mixed with each other in the space (S) of the space structure 110 to ensure that the water vapor is cooled by the low temperature outdoor air In addition, the fine dust of the outside air is adsorbed to the moisture of the water vapor, in this state so that the air condensation and condensation by the plate 141a when passing through the ventilation hole (141b) to settle and remove the white smoke and fine dust particles can do.

On the other hand, the white smoke fine dust filter means 140 of the present invention, it is preferable to have a temperature lower than the temperature of the steam or corresponding to the temperature of the outside air so as to maximize the condensation and condensation of the air.

Accordingly, the cooling pipe 141c for maintaining the low temperature of the plate 141a may be installed in a zigzag structure on at least one surface of the upper surface or the lower surface of the plate 141a of the particulate smoke filter means 140.

The cooling pipe 141c may have a structure in which a refrigerant is cooled by a known heat exchanger, but more preferably, an end portion of the pipe extends from the white fine particulate filter means 140 to the outside of the space structure 110. It may have a structure in which the refrigerant is heat exchanged by the outside air. In this case, the refrigerant is preferably provided by platinum powder having a high thermal conductivity having 5 to 10 parts by weight based on 100 parts by weight of the cooling water together with a known cooling water such as R-22.

Here, the refrigerant is provided through the platinum powder having 5 to 10 parts by weight based on 100 parts by weight of the cooling water, when the platinum powder is less than the weight part, the synergistic effect of the thermal conductivity is insufficient, the platinum powder is the weight In the case of exceeding the portion, the thermal conductivity is high, but since the platinum powder having a particle structure is precipitated according to the phase change state of the coolant, or the moving speed is lowered, compared to the refrigerant having a phase change, the critical value as described above is critical. It is good to have meaning.

In addition, the white smoke fine dust filter means 140 of the present invention, the plurality of demister filters (141-1, 141-2) may be installed in a state spaced apart a predetermined interval to maximize the condensation and condensation of the air, At this time, the size of the vent hole 141b-2 of the demister filter 141-2 positioned in the upper portion is larger than the vent hole 141b-1 of the demister filter 141-1 disposed in the lower portion. It is desirable to be.

Thus, the lower portion of the demister filter 141-1 positioned in the lower portion by the air discharge unit 160 described below has a positive pressure (+ pressure) state and is disposed in the upper portion of the demister filter 141-2. The upper portion of the upper portion has a negative pressure (−pressure) state, and the white smoke and fine dust particles in the air are rapidly moved from the lower portion of the lower demister filter 141-1 into the space between the upper demister filter 141-2. The lower portion of the demister filter 141-1 is cooled to a predetermined temperature so that the air is condensed or condensed on the lower portion of the demister filter 141-1 and then settles.

Here, in the space S of the space structure 110, it is preferable that a collection tank or the like is further configured to allow the liquid precipitated by the white smoke fine dust filter means 140 to flow along the exhaust passage structure 130. Do.

In addition, when the plurality of demister filters 141-1 and 141-2 are installed while being spaced apart at predetermined intervals as described above, the demister filters 141-1 and 141-2 may be predetermined to move the air in the space between the demister filters 141-1 and 141-2. It is preferred that a liquefied body (not shown) be filled to provide sufficient resistance to allow the air to liquefy in contact with the air.

Here, the liquefied body has a ball type that has a high thermal conductivity and has a light platinum or aluminum material and provides a space for allowing gas movement, and increases a contact area with air through a plurality of through holes. It is good to improve the mobility of air.

On the other hand, the white smoke fine dust filter means 140 of the present invention, it is preferable to include both the structure of the plurality of demister filters (141-1, 141-2) and the configuration of the cooling pipe (141c), through which, It is possible to maximize the efficiency of removing white smoke and fine dust particles in the air.

On the other hand, according to a preferred embodiment of the present invention, the outside air is introduced to the lower portion of the space (S) of the space structure 110 by the air inlet 120, a plurality of fine particulate filter means as described above When the 140 is stacked at a predetermined interval, the air is introduced into the space between the demister filters and the uppermost part of the demister filter, so that the demister filters are heat-exchanged by the outside air, thereby causing a low temperature. At the same time, it is preferable that the outside and water vapor are mixed more quickly in the space S of the space structure 110 and then discharged quickly so that white smoke and fine dust are removed quickly.

The outlet 150 is formed in a corresponding portion of the cover body 112 that is linearly aligned with the exhaust port 11 so that the air whose white smoke and fine dust has been removed by the white smoke fine dust filter means 140 is covered with the cover body 112. As a means for discharging to the outside of the), it is preferable to have the same opening area as the exhaust port (11).

Therefore, the outlet 150 has the same opening area as the exhaust port 11, so that the air discharge means 160 described later installed in the exhaust port 11 of the existing smoke generating structure 10 is applied as it is. In this way, it is possible to reduce the manufacturing cost.

The air discharge means 160 includes an exhaust port 11 and an exhaust port 150 through a stack 161 extending to a predetermined height in the discharge port 150 and a discharge fan 162 formed inside the stack 161. As a means for the process of the inflow, mixing, filtering and discharge of the water vapor including white lead and fine dust in the space (S) between the, may have a known configuration, a detailed description thereof will be omitted.

Hereinafter, the installation and operation of the white lead and fine dust removal structure 100 having the above configuration will be described.

First, the stack 161 and the discharge fan 162 of the air discharge means 160 installed in the exhaust port 11 of the white smoke generating structure 10 such as a cooling tower are removed.

Subsequently, an induction cylinder 131 of the exhaust passage structure 130 is installed at a predetermined height at an inner circumference of the exhaust port 11, and at the same time, providing a space S of a predetermined volume while surrounding the induction cylinder 131. Space structure for the 110 is installed.

Thereafter, a part of the wall 111 of the space structure 110 is provided with an outside air inlet 120 for installing outside air including fine dust from the outside into the space S, and the cover body of the space structure 110. A discharge port 150 is formed at the center of the discharge port 150, and the stack 161 and the discharge fan 162 of the air discharge means 160 are installed at the discharge port 150.

Subsequently, the induction cover 132 is installed while covering the induction cylinder 131 on the upper side of the induction cylinder 131 in the space S of the space structure 110, and the white smoke fine portion is formed on the upper side of the induction cover 132. Dust filter means 140 is installed.

On the other hand, as described above, the white smoke and fine dust removal structure 100 is installed on the white smoke generating structure 10 and the exhaust fan 162 of the air discharge means 160 from the smoke generating structure 10 in the state When the water vapor containing the white smoke particles is exhausted toward the exhaust port 11, outside air including fine dust flows into the space S of the space structure 110 from outside, and at this time, the water vapor exhausted from the exhaust port 11 is induction cylinder. The 131 and the induction cover 132 are zigzag up and down toward the space S of the space structure 110 and are evenly spread inside the space S. FIG.

Thus, in the space S of the space structure 110, the air containing the fine dust and the water vapor including the white lead particles are mixed with each other, so that the water vapor is cooled below a predetermined temperature and the fine dust is adsorbed by the moisture of the water vapor. do.

Thereafter, the air containing the white lead cooled as described above and the fine dust adsorbed to the water moves upward toward the discharge port 150. At this time, the white smoke fine dust filter means 140 is condensed and condensed to white lead and fine dust. The particles are settled out.

Subsequently, the purified air from which white smoke and fine dust particles are removed by the white smoke fine dust filter means 140 is discharged through the discharge port 150.

Therefore, according to the white lead and fine dust removal structure 100 of the present invention, the white smoke is installed on the upper side of the white smoke generating structure 10, such as a cooling tower, and the white lead particles after cooling by outside air including fine dust derived from the outside By dust filter means 140 to be settled while condensation or condensation it may be to remove white smoke and fine dust.

In the above-described invention, specific embodiments have been described, but various modifications may be made without departing from the scope of the invention. Therefore, the scope of the invention should not be defined by the described embodiments, but should be defined by the claims and their equivalents.

Claims (9)

The exhaust port 11 is formed on the upper surface of the white smoke generating structure 10 by surrounding the exhaust port 11 and covering the upper end of the wall 111 and the upper wall of the wall 111. A space structure 110 to provide a space S to the outside;
An external air inlet body 120 formed in the wall 111 to allow external air including fine dust to flow into the space S;
The induction cylinder 131 and the induction cylinder 131 which are formed to extend at a predetermined height along the inner circumference of the exhaust port 11 of the white smoke generating structure 10 have a diameter or area larger than that of the induction cylinder 131. Exhaust path is provided so that the white smoke exhausted from the exhaust port 11 is guided up and down zigzag in the space S through the induction cover 132 installed while covering the induction cylinder 131 at a distance from each other. An exhaust path structure 130 which provides a rou structure to allow the water vapor including white lead to cool while being mixed in the low temperature outside air and the space S;
It is installed while covering the upper part of the exhaust passage structure 130 inside the wall 111, and the white smoke and fine dust particles in the air (mixed state of the outside air and water vapor) moved to the cooling state is settled and removed as condensation or condensation. White smoke fine dust filter means 140;
A discharge port 150 formed in the cover body 112 to allow the white smoke and fine dust removed by the white smoke fine dust filter unit 140 to be discharged to the outside of the cover body 112; And
White lead in the space S between the exhaust port 11 and the exhaust port 150 through the stack 161 extending to a predetermined height in the discharge port 150 and the discharge fan 162 configured in the stack 161. Including the air discharge means 160 so that the process of the inlet, mixing, filtering and discharge the outside air, including water vapor and fine dust, including,
Induction cover 132,
The induction plate 132a having a larger diameter or area than the induction cylinder 131 has an inverted bowl shape in which the flange 132b extends downward from the edge of the induction plate 132a.
White smoke and fine dust removing structure, characterized in that the height of the lower end of the flange (132b) from the position of the exhaust port 11 is lower than the height of the upper end of the induction cylinder (131). According to claim 1, The outdoor air inlet 120,
White lead and fine particles having a downward incidence angle at a portion corresponding to the height from the exhaust port 11 of the white smoke generating structure 10 to the induction cover 132 of the wall 111 of the wall 111. Dust removal structure. delete delete The method of claim 1, wherein the white fine dust filter means 140,
A metal plate 141a having an area covering an upper portion of the space S of the space structure 110;
White smoke and fine dust removal structure, characterized in that it comprises a plurality of vent holes (141b) perforated in the plate (141a). The method of claim 5, wherein the white fine dust filter means 140,
The cooling pipe 141c is configured on at least one of the upper and lower surfaces of the plate 141a,
White smoke and fine dust removing structure, characterized in that having a structure in which the refrigerant is heat-exchanged by the outside air. The method of claim 6, wherein the refrigerant,
White smoke and fine dust removing structure comprising a platinum powder having 5 to 10 parts by weight based on 100 parts by weight of the cooling water together with the cooling water. The method of claim 1, wherein the white fine dust filter means 140,
A plurality of plates are configured while covering the upper portion of the space (S) of the space structure 110 in a predetermined spaced apart state,
White smoke and fine dust removing structure, characterized in that the vent hole located in the lower portion is formed larger than the vent hole located in the upper portion. According to claim 8, The outdoor air inlet 120,
White smoke and fine dust removing structure, characterized in that the air between the space between the demister filter and the uppermost part of the demister filter has a structure that the outside air flows.

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