KR20090029512A - Cooling tower, and method for treating plume with the same - Google Patents

Abstract

A cooling tower and a plume processing method thereof are provided to reduce plume effectively by discharging the exhaust air in which the plume particles has grown. A cooling tower(100) comprises a plume particle growing unit(120) spraying processing liquid to the exhaust air in order to make the plume particles included in the exhaust air grow, a moisture removal unit which is arranged on the top of the plume particle growing unit and collects the grown plume particles, and a cooling unit(110) cooling the moisture of the exhaust air before the exhaust air is moved to the plume particle growing unit.

Description

Cooling tower and white smoke treatment method of the cooling tower {COOLING TOWER, AND METHOD FOR TREATING PLUME WITH THE SAME}

The present invention relates to a cooling tower and a method for treating white smoke of the cooling tower, and more particularly, to a cooling tower and a method for treating white smoke generated in the factory.

Generally incinerators, metal melting furnaces, wet desulfurization plants, and other equipment industries that discharge air pollutants are equipped with air conditioning equipment for the treatment of exhaust air generated during plant operation. For example, a semiconductor and flat display manufacturing plant (Fab: Fabrication) is provided with a plurality of large-capacity cooling towers for the treatment of exhaust air generated during plant operation.

Cooling tower is a device that reduces the plume by cooling the cooling water to cool the refrigerant of the refrigerator. White smoke is a phenomenon in which when the exhaust air discharged through the stack comes into contact with a low temperature atmosphere, water vapor in the exhaust air falls below a dew point, resulting in fine droplets of white smoke. Such white smoke does not generally contain harmful ingredients, but it may appear to contain aesthetically harmful ingredients, which may interfere with the surrounding field of vision, thus requiring effective removal of white lead. As a cooling tower, an open cooling tower is usually used, which cools the cooling water by exchanging heat with external air.

However, general cooling towers have limitations in the effective removal of white lead. For example, it is impossible to completely remove white lead by the widely used exhaust air reheating method, the exhaust air water cooling method, the exhaust air air cooling method, and the demister removal method. In particular, in the case where the difference between the temperature of the exhaust air and the temperature of the atmosphere is severe (that is, the temperature of the atmosphere is low), effective removal of the white lead is not possible by the general method. Therefore, there is a need for whitening of the cooling tower for effective removal of white smoke.

An object of the present invention is to provide a cooling tower that effectively reduces white smoke and a white smoke treatment method of the cooling tower.

The cooling tower according to the present invention for achieving the above object is a white smoke particle growth unit for growing the white smoke particles in the discharge air by injecting the treatment liquid into the discharge air and the white smoke particles are disposed on the top of the white particles growing and collecting the grown white particles It includes a water removing unit.

According to an embodiment of the present invention, the cooling tower is disposed below the white lead particle growth unit, and further comprising a cooling unit for cooling the moisture in the discharge air before the discharge air is moved to the white lead particle growth unit, the white lead The temperature of the processing liquid sprayed by the particle growth unit is lower than the temperature of the processing liquid sprayed by the cooling unit.

According to an embodiment of the present invention, the water removal unit is disposed on the first water removal unit and the first water removal unit to collect the white smoke particles grown in the exhaust air primarily and the white smoke grown in the exhaust air And a second water removal unit for collecting the particles secondaryly.

According to an embodiment of the present invention, the first water removing unit includes a demister and the second water removing unit includes a filter.

According to an embodiment of the present invention, the cooling tower further includes an upward airflow providing unit disposed between the white lead particle growth unit and the moisture removing unit and providing an upward airflow to the discharged air.

According to an embodiment of the present invention, the upward airflow providing unit is a fan rotatable inside the cooling tower.

According to an embodiment of the present invention, the cooling tower is disposed between the rising air providing unit and the water removing unit, and further includes an external air inlet for introducing external air into the cooling tower internal space.

According to an embodiment of the present invention, the external air inlet includes an inlet line for introducing external air into the cooling tower and a blower installed on the inlet line.

The white smoke treatment method of the cooling tower according to the present invention for achieving the above object is by spraying the treatment liquid into the discharge air to grow the white smoke particles in the discharge air to collect the grown white particles, thereby removing the white smoke.

According to an embodiment of the present invention, the liquid growth of the white lead particles in the discharge air is performed by supplying the treatment liquid having a temperature lower than the temperature of the treatment liquid for cooling the moisture in the discharge air to the discharge air.

According to an embodiment of the present invention, the collection of the grown white particles includes collecting the grown white particles using a demister and collecting the grown white particles using a filter.

According to an embodiment of the present invention, the white lead treatment method further includes the step of forcibly raising the grown white particles and mixing them with outside air.

The white smoke treatment method of the cooling tower according to the present invention for solving the above problems is the step of spraying pure water into the discharge air to cool the moisture in the discharge air, by supplying the pure water of a higher temperature than the pure water to the discharge air to the discharge air Growing the size of the white smoke particles, forcibly increasing the discharge air having the grown white particles, mixing the raised discharge air with the outside air to lower the humidity and temperature of the discharge air, And filtering the grown white particles.

According to the present invention, the white smoke particles in the exhaust air is liquid-grown, the white smoke particles are collected, and the exhaust air is discharged, thereby effectively reducing the white smoke generated in the factory.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, the invention is not limited to the embodiments described herein but may be embodied in other forms. Rather, the embodiments introduced herein are provided so that the disclosure will be thorough and complete, and will fully convey the spirit of the invention to those skilled in the art.

(Example)

1 is a view showing a cooling tower according to the present invention. Referring to Figure 1, the cooling tower (cooling tower) 100 according to the present invention is a cooling unit 110, white smoke grain growth unit 120, rising air generating unit 130, external air inlet 140, minutes It includes a back 150, the primary moisture removing unit 160, and the secondary moisture removing unit 170.

The cooling unit 110 cools the moisture in the exhaust air. Moisture is cooling water used to cool the refrigerant in the freezer. The cooling unit 110 includes a first injection nozzle 112, a first processing liquid supply line 114, and a first pressing member 116. The first injection nozzle 112 injects the first treatment liquid into the discharged air that rises along the inside of the cooling tower 100. The first treatment liquid is a liquid for cooling the moisture in the exhaust air. In one embodiment, about 28 ° C. of pure water is used as the first treatment liquid. A plurality of nozzles 112a are installed in the injection nozzle 112, and each of the nozzles 112a sprays the first treatment liquid toward the discharged air that is raised. The first processing liquid supply line 114 supplies the first processing liquid from the first processing liquid supply source (not shown) to the injection nozzle 112. In addition, the first pressing member 116 is installed in the first processing liquid supply line 114 to provide a flow pressure to the first processing liquid in the first processing liquid supply line 114. A pump is used as the first pressing member 116.

The white lead particle growth unit 120 injects the second treatment liquid into the discharged air in which the water is cooled to grow the white lead particles in the discharge air. The growth of the white lead particles is for the first and second moisture removing units 160 and 170 to be described later to effectively collect the white lead particles in the exhaust air. The white lead particle growth unit 120 includes a second injection nozzle 122, a second processing liquid supply line 124, and a second pressing member 126. The second injection nozzle 122 injects the second treatment liquid into the discharged air that has passed through the cooling unit 110. At this time, the second injection nozzle 122 injects the second treatment liquid to effectively perform the liquid growth of the white smoke particles of the exhaust air. In one embodiment, about 16 ° C to 18 ° C of pure water is used as the second treatment liquid. The second processing liquid supply line 124 supplies the second processing liquid from the second processing liquid supply source (not shown) to the second injection nozzle 122, and the second pressing member 126 supplies the second processing liquid. Flow pressure is provided to the second treatment liquid in line 124.

The upward airflow providing unit 130 provides a strong upward airflow through the exhaust air passing through the white lead particle growth unit 120. The upward airflow providing unit 130 includes at least one fan 132 and a driver (not shown) for driving the same. The fan 132 is installed to be rotatable inside the cooling tower 100 so that the exhaust air is strongly raised toward the distribution unit 150 during the process.

The external air inlet 140 introduces external air into the cooling tower 100. The external air inlet 140 includes an inlet line 142 and a blower 144. The inlet line 142 introduces external air into the first mixing space b in the cooling tower 100. The first mixing space b is a space in which discharge air and external air are primarily mixed. Therefore, the outside air flowing into the first mixing space b through the inlet line 142 is forcibly raised by the rising air providing unit 130 and mixed with the discharged air moved to the first mixing space b. The external air flowing into the first mixing space b is raised toward the distribution unit 150 by the discharged air of the rising air. The blower 144 provides a flow pressure to the outside air in the inlet line 142.

The distribution unit 150 distributes the discharge air and the external air evenly so as to flow into the buffer space (c). That is, the distribution unit 150 allows the discharged air forced up by the rising air providing unit 130 and the external air introduced by the external air inlet 140 to be evenly distributed to the buffer space (c). The discharged air and the external air passing through the distribution unit 150 are mixed in the buffer space c in a secondary manner. Exhaust air and external air that are completely mixed by the buffer space c are moved to the first moisture removing unit 160.

The first water removal unit 160 primarily removes the white lead particles grown in the exhaust air. That is, the first water removing unit 160 filters the white smoke particles grown by the second treatment liquid to remove white smoke in the exhaust air. A demister is used as the first moisture removing unit 160. The first moisture remover 160 is provided to remove approximately 90% or more of the moisture in the exhaust air.

The second moisture remover 170 secondly removes moisture in the discharged air from which moisture is first removed by the first moisture remover 160. That is, the second moisture removing unit 170 finally removes moisture in the discharged air that is not removed by the first moisture removing unit 160. The second water removal unit 170 uses a predetermined filter provided to collect the liquid grown white particles in the exhaust air. The filter used for the second moisture removing unit 170 is provided so that white lead particles having a particle size of 50 μm to 100 μm are filtered.

Hereinafter, the white smoke treatment method of the cooling tower 100 according to the present invention will be described in detail. 2 is a flowchart showing a method of treating white smoke in a cooling tower according to the present invention, and FIG.

2 and 3, the cooling unit 110 cools the moisture in the exhaust air (S100). That is, the generated discharge air flows into the cooling tower 100, and the first treatment liquid injection nozzle 112 receives the first treatment liquid from the first treatment liquid supply line 114 to discharge the first treatment liquid into the discharge air. Spray. The injected first treatment liquid collects foreign matter in the discharged air and removes it from the discharged air. Here, since the cooling unit 110 cools the moisture in the discharged air by injecting the first treatment liquid into the high-temperature discharged air, the discharged air passing through the cooling unit 110 is in a humid state. Therefore, a large amount of plume is generated in the discharged air passing through the cooling unit 110 and introduced into the space a between the cooling unit 110 and the growth unit 120.

Exhaust air containing white lead is liquid growth of the white lead particles in the exhaust air by the white lead particle growth unit 120. That is, the second processing liquid injection nozzle 122 receives the second processing liquid from the second processing liquid supply line 124 and injects the second processing liquid into the discharged air. At this time, the second treatment liquid injection nozzle 122 injects the second treatment liquid so that the liquid growth of the discharged air particles is effectively performed. For example, the temperature of the second processing liquid sprayed through the second processing liquid spray nozzle 122 is sprayed at a temperature lower than the temperature of the first processing liquid. The relatively low temperature second treatment liquid grows the white lead particles in the discharged air to 50 μm to 100 μm, which are usually raised to a size of 10 μm to 50 μm by the first treatment liquid supply unit 110.

The discharged air passing through the white lead particle growth unit 120 is elevated by the rising air providing unit 130 (S150). That is, the fan 132 of the rising air providing unit 130 allows the liquid-grown exhaust air to be strongly raised toward the distribution unit 150.

The external air inlet unit 140 introduces external air into the discharged air raised by the rising air providing unit 130 (S140). The introduced external air is mixed with the discharged air in the mixing space (b) and the buffer space (c). That is, the external air inlet line 142a introduces external air into the mixing space b. The introduced external air is primarily mixed with the discharged air and then moved to the buffer space c through the distribution unit 150. At this time, the distribution unit 150 allows the external air and the discharged air to be uniformly distributed in the buffer space (c). Therefore, the outside air and the discharged air, which are primarily mixed in the mixing space b, are mixed secondarily in the buffer space c.

The discharged air, which is secondarily mixed in the buffer space c, is firstly dehydrated by the first moisture removing unit 160 (S160). That is, since the exhaust air passing through the second mixing space (c) includes white particles grown in liquid by the second treatment liquid, the white smoke particles in the exhaust air can be filtered by collecting moisture in the exhaust air. have. Therefore, the first water removing unit 160 collects moisture in the discharge air primarily, thereby preventing white smoke particles from being discharged from the cooling tower 100.

The discharged air from which water is first removed by the first water removal unit 160 is finally removed by the second water removal unit 170. That is, a small amount of water may be included in the exhaust air from which water is first removed by the first water removing unit 160 using a general demister. Accordingly, the second moisture removing unit 170 finally collects the white particles grown in the exhaust air, thereby completely removing the white particles in the exhaust air.

The exhaust air of the above-mentioned white smoke treatment is discharged to the atmosphere through the open top of the cooling tower (100). At this time, since the white smoke particles are completely removed in the discharged air, the white smoke does not occur in the discharged air discharged to the outside of the cooling tower 100.

The cooling tower to which the technology according to the present invention described above is applied significantly reduces the generation of white smoke compared to the conventional cooling tower. That is, the general measurement of the amount of white smoke generated by measuring the length from the top of the cooling tower to the top height of the white smoke. Referring to Figure 4, while the height of the white smoke generated in the cooling tower according to the prior art averages 58.5m, the height of the white smoke generated in the cooling tower to which the present invention is applied is an average of 9.5m. Therefore, the technique of the present invention can reduce the amount of white smoke generated by approximately 90% compared to the prior art.

As described above, the present invention grows white particles in the exhaust air after cooling of moisture, and collects the white particles grown in the exhaust air to the atmosphere under reduced temperature and humidity by mixing with the exhaust air. By discharging, the generation of white smoke is minimized.

The foregoing detailed description illustrates the present invention. In addition, the foregoing description shows and describes preferred embodiments of the present invention, and the present invention can be used in various other combinations, modifications, and environments. That is, changes or modifications may be made within the scope of the concept of the invention disclosed in this specification, the scope equivalent to the disclosed contents, and / or the skill or knowledge in the art. The foregoing embodiments illustrate the best state for implementing the technical idea of the present invention, the use of other inventions, such as the present invention, the implementation in other states known in the art, and the specific fields of application and uses of the invention. Many changes are also possible. Accordingly, the detailed description of the invention is not intended to limit the invention to the disclosed embodiments. Also, the appended claims should be construed to include other embodiments.

1 is a view showing a cooling tower according to the present invention.

Figure 2 is a flow chart showing a white smoke treatment method of the cooling tower according to the present invention.

3 is a view showing the appearance of white smoke treatment of the cooling tower according to the present invention during the process.

4 is a table for explaining the effect of the white smoke treatment method according to the present invention.

* Description of symbols on the main parts of the drawings *

100: cooling tower

110: cooling unit

120: white lead grain growth

130: rising air providing unit

140: outside air inlet

150: distribution unit

160: primary moisture removal unit

170: secondary moisture removal unit

Claims (13)

White smoke grain growth unit for growing the white smoke particles in the discharge air by spraying the treatment liquid into the discharge air, Cooling tower, characterized in that disposed on top of the white growth particles, the water removal unit for collecting the grown white particles. The method of claim 1, The cooling tower, Is disposed below the white lead particle growth portion, and further comprising a cooling unit for cooling the moisture in the discharge air before the discharge air is moved to the white lead particle growth portion, The temperature of the treatment liquid sprayed by the white lead particle growth unit is Cooling tower, characterized in that lower than the temperature of the processing liquid sprayed by the cooling unit. The method of claim 1, The water removal unit, A first water removing unit for collecting the white lead particles grown in the discharge air primarily; And a second water removal unit disposed on the first water removal unit and configured to collect secondly the white smoke particles in the exhaust air. The method of claim 3, wherein The first moisture removing unit, Including demister, The second moisture removing unit, Cooling tower comprising a filter. The method of claim 1, The cooling tower, The cooling tower further comprises an air flow providing unit disposed between the white lead particle growth unit and the water removing unit and providing an air flow to the exhaust air. The method of claim 5, wherein The rising air providing unit, Cooling tower, characterized in that a rotatable fan (fan) in the cooling tower. The method according to claim 5 or 6, The cooling tower, The cooling tower further comprises an external air inlet disposed between the rising air providing unit and the water removing unit and introducing external air into the cooling tower internal space. The method of claim 7, wherein The external air inlet, An inlet line for introducing external air into the cooling tower; Cooling tower comprising a blower installed on the inlet line. In the method of treating white lead, A process for treating white lead by removing the white lead by injecting the treatment liquid into the discharge air to grow the white lead particles in the discharge air and then collecting the grown white lead particles. The method of claim 9, Liquid growth of the white lead particles in the exhaust air, And a treatment liquid having a temperature lower than a temperature of the treatment liquid for cooling the moisture in the discharge air to the discharge air. The method of claim 9, Collection of the grown white particles is, Capturing the grown white particles using a demister; Collecting the grown white particles using a filter. The method according to any one of claims 9 to 11, The white smoke treatment method, And forcibly raising the grown white particles and mixing them with outside air. In the method of treating white lead, Cooling the moisture in the exhaust air by injecting pure water into the exhaust air; Supplying pure water having a higher temperature than the pure water to the discharge air to grow the size of the white lead particles in the discharge air; Forcibly raising exhaust air having the grown white particles; Mixing the elevated exhaust air with external air to lower the humidity and temperature of the exhaust air, and And filtering said grown white particles.

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