KR102099063B1 - White smoke removal device of cooling tower using Heated air transfer with air guide unit - Google Patents

Abstract

The present invention relates to a white smoke removal device of a cooling tower using a heating source direction switching unit. The white smoke removal device of a cooling tower decomposes wet steam into air and water by a plasma electrode bar by installing a plasma discharge part in a housing to discharge air and water to the outside, and comprises: a heating source direction switching unit installed on an upper portion of an eliminator to heat wet steam passing through the plasma discharge part to high temperature; and a guide member installed on an upper portion of the heating source direction switching unit to mix heated outside air entering through a side heater installed on both sides of the housing and wet steam. Water of wet steam is removed by the heating source direction switching unit installed on the upper portion of the eliminator, and the temperature of the wet steam can be increased to dry the wet steam.

Description

White smoke removal device of cooling tower using Heated air transfer with air guide unit

The present invention relates to a device for removing white smoke from a cooling tower using a heating source direction switching unit, and more specifically, heating to prevent white smoke from being discharged outside the cooling tower by eliminating blind spots where wet steam and hot air inside the cooling tower are not in contact. The present invention relates to an apparatus for removing white smoke from a cooling tower using a circular turning unit.

In general, heat exchangers such as refrigerators or air conditioning facilities (cooling towers, wet dust collection facilities, industrial drying facilities and boilers, generators, and incineration facilities) cool the high-temperature cooling water sent from the high-temperature condenser after heat exchange to make low-temperature cooling water and continuously Cooling towers are used to supply recirculation.

Various types of structures and methods are applied to the cooling tower to remove heat from the high-temperature cooling water, and a cooling method using air is often used.

As the cooling method using air as described above, a method of cooling the cooling water by forcibly blowing air by natural ventilation or a blower while spraying or dripping high-temperature cooling water to a heat exchange filler is used.

The cooling tower is classified into a cross flow type, a counter flow type, and a hybrid type according to the heat exchange method.

Here, the cross-flow type cools the cooling water by allowing heat exchange between the high-temperature cooling water and the flow of air flowing in from the outside so that the cooling water is cooled, and the cooling water is cooled by allowing the flow of the high-temperature cooling water to flow from the outside. The hybrid type is composed of a combination of a cross flow type and a counter flow type.

The cooling tower has a relatively simple structure, but since water used as a refrigerant mainly cools by using latent heat of evaporation caused by contact with air, it is inevitable to avoid contact with a large amount of water and high-speed air flow. The heat-exchanged air is released into the atmosphere, which is accompanied by a large amount of evaporated moisture.

The water evaporated from the cooling tower is mixed with the cooling air and discharged. As such, the air (gas) discharged from the cooling tower is close to saturation, so when it is mixed with contact with low ambient air, it easily becomes saturated water droplets and appears as white smoke. .

The white smoke generated from the cooling tower originates from evaporation and scattering of pure water, but also has environmental hazards due to air pollutant components, and indirect damages such as reduction in sunshine in surrounding areas and freezing on the ground have been confirmed and are often subject to complaints. As the main subject of cooling tower operation, the reduction of white smoke in cooling towers has emerged as an essential task to ensure stable operation of equipment and avoid friction with surrounding areas.

The conventional cooling tower has the following problems.

First, the air cooled by the cooling water in the heat exchange filling material contains a large amount of water vapor. As the air in this state is discharged to the outside, a white phenomenon occurs, and it is misunderstood that harmful substances are discharged when viewed from the outside. do.

On the other hand, as air pollution becomes serious due to fine dust and yellow dust, complaints from neighboring residents have been raised as white air emitted from the cooling tower as an air pollution facility. The damage that needs to be stopped is occurring.

 These white smoke harms the aesthetics of a city or a tourist attraction, and there is also a problem that a problem that causes traffic accidents in human life and public transportation occurs because wet steam flies on roads and makes the road an ice.

Second, as the air cooled by the cooling water in the heat exchange filling material contains a large amount of water vapor, various parts such as a blower fan or a blower fan that are in contact with the air as it moves may freeze in the winter, thereby deteriorating device performance.

Third, in the case of the cross-flow type, there is a problem in that the blind spot that does not prevent white smoke is generated in the central portion of the cooling tower, and the wet steam is discharged to the top by the fan.

Accordingly, there is an urgent need for the development of a white smoke prevention device that can effectively remove moisture vapor discharged after heat exchange, as well as more efficiently and economically.

1 is a schematic diagram of a conventional white smoke removal device for a cooling tower using plasma.

As illustrated in FIG. 1, a lower portion of the housing 110 is provided with an outdoor air suction unit 120 through which cold outdoor air flows, and cooling water for cooling hot water is injected at a predetermined height of the housing 110. A spray unit 130 is installed, and a plasma discharge unit 140 for decomposing wet steam heat-exchanged by cooling water into oxygen and hydrogen is installed above the spray unit 130.

In addition, an upper part of the plasma discharge unit 140 is provided with an eliminator 150 to prevent the water of the wet steam from leaking to the outside, and heating the outside air on the upper side of the eliminator 150 to house the housing 110. A side heater 160 for suctioning inside is installed, and an exhaust fan 170 for discharging air to the outside is installed at the top of the housing 110.

As shown in FIG. 2, the plasma discharge unit 140 is formed with a grid space 143 partitioned into a predetermined size by a first plate 141 and a second plate 142, and each grid space. Plasma electrode rods 144 that decompose the wet steam passing through the 143 into air and moisture are respectively installed.

The moisture vapor passing through the lattice space 143 is decomposed into air and moisture by the plasma electrode rod 144, and between the electrode rods 144 and the plates 141 and 142, a dead zone region 145 that does not decompose the moisture vapor. Is formed.

That is, as shown in FIG. 2, the plasma electrode rod 144 is installed at the center of the grid space 143, and the moisture vapor introduced into the grid space 143 is decomposed by moisture and air by the plasma electrode rod 144, At this time, a dead zone 145 in which wet steam is not decomposed by a predetermined area from the end of the lattice space 143 is formed.

In addition, when the amount of the wet steam is too large, the plasma electrode rod 144 has a problem of not being able to decompose the wet steam, and the moisture of the wet steam sticks to the plasma electrode 144 and water is coated.

Accordingly, the decomposition efficiency of the wet steam by the plasma electrode rod 144 rapidly falls, and there is a problem in that a white smoke phenomenon in which the wet steam is discharged to the outside of the cooling tower is generated.

In addition, the side heaters 160 are respectively installed on both sides of the housing 110 and heat and suck the outside air in opposite directions to dry the wet steam. At this time, the outside air does not reach the center of the housing 110 and the exhaust fan ( 170).

Accordingly, on the upper side of the side heaters 160 and the eliminator 150 on both sides, a blind spot 161 that does not mix the heat source heating the wet steam and the outside air is formed, and the wet steam exhaust fan 170 consisting of air and moisture ) Is discharged to the outside, and this causes a white smoke phenomenon in which wet steam is discharged to the outside.

Republic of Korea Patent Registration No. 10-1462153 Republic of Korea Patent Publication No. 10-2018-0032876

The object of the present invention is to solve the problems as described above, since it is difficult to remove the wet steam only by the plasma discharge unit, a pipe for heat exchange with high temperature heat exchange is installed in the lattice space, and a heating source direction conversion unit is installed. It is to provide an apparatus for removing white smoke from a cooling tower using a heating source direction changing unit that prevents white smoke by efficiently using both upper heating sources by converting air flow in the direction of the outside air heating coil installed on both sides of the upper part.

Another object of the present invention is to provide a device for removing white smoke from the cooling tower by removing blind spots in which heated air is not mixed with a heating source redirecting unit while introducing wet steam and external air to the upper portion of the eliminator.

In order to achieve the above object, the white smoke removal device of the cooling tower using the heating source direction switching unit according to the present invention is provided with a plasma discharge unit 140 inside the housing 110, the wet steam by the plasma electrode 144 As a white smoke removal device of a cooling tower that decomposes the air into moisture and discharges it to the outside, the direction of the heating source installed on the top of the eliminator 150 to heat the wet steam passing through the plasma discharge unit 140 to a high temperature. Switching unit 20; Guide member installed on the upper portion of the heating source direction changing unit 20 so that the heated outside air and wet steam introduced through the side heaters 160 installed on both sides of the housing 110 are mixed with each other. It characterized in that it includes (30).

The heating source direction switching unit 20 is a first plate 21 formed of a predetermined size; a second plate 22 is installed to be spaced a predetermined distance from the first plate 21; The first plate (21) and the second plate 22, a circulation pipe 23 which is continuously installed to each other, and includes, wherein the circulation pipe 23 is characterized by heating hot water while circulating hot water.

The guide member 30 is a first fixed plate 31 formed of a predetermined size; a second fixed plate 32 fixed to be spaced a predetermined distance from the first fixed plate 31; direction of movement of the wet steam It characterized in that it comprises a; a plurality of guide plates (33) that are installed to be inclined at a predetermined angle to the first fixed plate 31 and the second fixed plate 32 to guide to move toward the side heater (16); .

The guide plate 33 is characterized in that it is rotatably installed at different angles to guide the movement of the wet steam at different angles.

As described above, according to the apparatus for removing the white smoke of the cooling tower using the heating source redirection unit according to the present invention, the temperature of the humid steam is increased while removing moisture from the wet steam by the heating source redirection unit installed on the top of the eliminator. The effect that it can be dried is obtained.

According to the apparatus for removing white smoke from a cooling tower using a heating source redirection unit according to the present invention, a blind spot is not formed inside the housing by a redirection unit that adjusts the air flow direction in order to efficiently heat wet steam. As the wet steam moves toward the side heater where the outside air flows, mixing with the heated outside air is better and smoother. As the side heater that supplies high-temperature outside air removes and dries and removes moisture from the wet steam, it becomes white smoke. The effect that the phenomenon can be prevented is obtained.

In addition, when using high temperature water (60 ° C or more of the waste heat source for district cooling and heating) in the heat source redirection unit, plasma may not be used, and the size of both sides of the heating source may be reduced to be installed, thereby ensuring more efficiency.

1 is a schematic cross-sectional view schematically showing a white smoke removal device of a cooling tower using a conventional plasma,
Figure 2 is a bottom view showing a plasma discharge portion of the white smoke removal device of a conventional cooling tower using plasma,
Figure 3 is a cross-sectional view schematically showing a white smoke removal device of a cooling tower using a heating source direction switching unit according to a preferred embodiment of the present invention,
Figure 4 is a three-dimensional diagram showing a white smoke removal device of a cooling tower using a heating source direction switching unit according to a preferred embodiment of the present invention,
Figure 5 is a partial cross-sectional view showing a white smoke removal device of a cooling tower using a heating source direction switching unit according to a preferred embodiment of the present invention,
6 is a plan view showing a white smoke removal device of a cooling tower using a heating source direction switching unit according to a preferred embodiment of the present invention,
7 is a front view showing a heat exchange member and a guide member of the white smoke removal device of the cooling tower using a heating source direction switching unit according to a preferred embodiment of the present invention,
Figure 8 is a three-dimensional view showing the heat exchange member and the guide member of the white smoke removal device of the cooling tower using a heating source direction switching unit according to a preferred embodiment of the present invention,
9 is a cross-sectional view showing a white smoke removal device of a cooling tower using a heating source direction switching unit according to a preferred embodiment of the present invention.

Hereinafter, a device for removing white smoke from a cooling tower using a heating source direction changing unit (UNIT) according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

The apparatus for removing white smoke from a cooling tower using a heating source redirection unit (UNIT) according to a preferred embodiment of the present invention is provided with a plasma discharge unit 140 inside the housing 110, and the moisture vapor is supplied to the air by the plasma electrode 144. As a white smoke removal device of a cooling tower that decomposes into moisture and discharges it to the outside, a heating source redirection unit installed on the top of the eliminator 150 to heat the wet steam passing through the plasma discharge unit 140 to a high temperature ( 20); guide member 30 installed on the upper portion of the heating source direction changing unit 20 so that the heated outside air and moisture vapor introduced through the side heaters 160 installed on both sides of the housing 110 are mixed with each other It includes.

FIG. 3 is a schematic cross-sectional view schematically showing an apparatus for removing white smoke from a cooling tower using a heating source redirection unit according to a preferred embodiment of the present invention.

As illustrated in FIG. 3, the cooling tower discharges wet steam to the outside, and a housing 110 constituting the cooling tower is provided, and an outside air suction unit 120 through which outside air flows in the lower portion of the housing 110. Is installed.

In addition, a spray unit 130 is installed at the upper portion of the outside air suction unit 120 to cool the temperature of the wet steam by spraying water, and a plasma discharge unit 140 is first installed to decompose the wet steam into air and moisture.

The apparatus for removing white smoke from a cooling tower according to an embodiment of the present invention primarily decomposes moisture and air in a plasma discharger and primarily converts moisture vapor sucked into the housing 110 through the outside air suction unit 120. By directing the air heated by the heaters on both sides of the upper side through (20), it is possible to discharge air having a low saturated humidity to the outside of the cooling tower.

That is, the plasma discharge unit 140 lowers the temperature of the wet steam and, of course, decreases the relative humidity of the lattice space 143 of the plasma discharge unit 140 by the plasma electrode rod 144 so that the wet steam can be smoothly converted into moisture and air. Disassemble.

In addition, inside the housing 110, the humid steam passing through the heat source redirection unit 20 and the high-temperature outside air introduced from the outside through the side heater 160 are mixed evenly without the blind spot 161, so that the wet steam is housed. It is not discharged to the outside of (110).

4 is a stereoscopic view showing a white smoke removal device of a cooling tower using a heating source redirection unit according to a preferred embodiment of the present invention, and FIG. 5 is a cooling tower using a heating source redirection unit according to a preferred embodiment of the present invention. Some cross-sectional three-dimensional views of the white smoke removal device, and FIG. 6 is a plan view showing the white smoke removal device of the cooling tower using the heating source redirection unit according to a preferred embodiment of the present invention.

The plasma discharge unit 140 includes a first plate 141 formed in a predetermined length, a second plate 142 installed in a direction intersecting the first plate 171, and the first plate 141 ) And the grid space 143 formed by the second diaphragm 142 and the plasma electrode rod 144 installed in the grid space 143.

7 is a front view showing a heating source direction switching unit and a guide member of a white smoke removal apparatus of a cooling tower using plasma according to a preferred embodiment of the present invention, and FIG. 8 is white smoke of a cooling tower using plasma according to a preferred embodiment of the present invention It is a three-dimensional view showing the heating source direction switching unit and the guide member of the removal device.

7 and 8, a heating source direction conversion unit 20 for heating wet steam is installed on the upper portion of the eliminator 150. 4, the heating source direction switching unit 20 is installed at a central portion of the plasma discharge unit 140.

The heating source redirection unit 20 is to increase the moisture vapor to a predetermined temperature, the heating source redirection unit 20 is a first plate 21 and a first plate (21) formed of a predetermined size 21) and a second plate 22, which is installed to be spaced apart by a predetermined distance, and a circulation pipe 23, which is installed between the first plate 21 and the second plate 22.

On the other hand, of course, the heating source direction changing unit 20 can adjust the size and height according to the required amount of heating.

High temperature hot water is circulated in the circulation pipe 23, and the circulation pipe 23 evaporates the moisture contained in the moisture vapor by raising the temperature of the moisture vapor passing through the plasma discharge unit 140 to a predetermined temperature. .

In addition, the heating source direction switching unit 20 increases the temperature of the humid steam to reduce the temperature difference between the temperature of the wet steam inside the housing 110 and the outside air to prevent the white smoke phenomenon caused by the wet steam discharged to the outside of the housing 110. do.

9 is a cross-sectional view showing a guide member of a white smoke removal device of a cooling tower using a heating source direction switching unit according to a preferred embodiment of the present invention.

9 (a) is a plan view of the guide member 30, and FIG. 9 (b) is a cross-sectional view along line A-A.

As illustrated in FIG. 9, a guide member 30 is installed at an upper portion of the second heat exchange member 20 to prevent the blind spot 161 from being formed inside the housing 110.

The guide member 30 may be mixed more smoothly with the outside air flowing into the housing 110 through the side heater 160 through the wet steam that has passed through the heating source direction changing unit 20.

That is, the guide member 30 guides the wet steam passing through the eliminator 150 to be moved at a predetermined angle toward the side heaters 160 installed on both sides of the housing 110 without rising in the vertical direction. .

Accordingly, a blind spot 161 is not formed inside the housing 110.

That is, while passing through the eliminator 150, the wet steam rises to a predetermined temperature by the heating source unit 20, and the outside air having the increased temperature flows through the side heater 160 to the high temperature outside air. And good and smooth mixing.

The guide member 30 includes a first fixed plate 31 formed in a predetermined size, a second fixed plate 32 installed to be spaced apart from the first fixed plate 31 by a predetermined distance, and the first It consists of a guide plate (33) installed between the 1 fixed plate (31) and the second fixed plate (32).

The guide plate 33 is installed to be inclined at a predetermined angle, as shown in Figure 9 (b).

Meanwhile, the guide plate 33 may be rotatably installed on the first fixed plate 31 and the second fixed plate 32. This is to freely control the direction of movement of the wet steam at a desired angle.

In addition, the guide plate 33 is installed at different angles, not the same angle, and guides the moving direction of the rising wet steam at different angles, so that mixing with the outside air can be better.

Next, with reference to FIGS. 3 to 9, an operation method of a white smoke removal device of a cooling tower using a heating source switching unit according to a preferred embodiment of the present invention will be described.

3 to 9, the white smoke removal device of the cooling tower according to an embodiment of the present invention is introduced to the outside air through the outside air suction unit 120 installed in the lower portion of the housing 110.

The external air introduced in this way causes the moisture contained in the wet steam to fall by the water dropping from the spray unit 130, and the wet steam rising above the spray unit 130 passes through the plasma discharge unit 140.

At this time, moisture and air are decomposed by the plasma electrode rod 144 of the plasma discharge unit 140, and the moisture naturally falls by gravity.

In addition, the moisture vapor that has passed through the plasma discharge unit 140 moves to the top of the eliminator 150, and as the moisture vapor rises, it contacts the heating direction switching unit 20 installed on the top of the eliminator 150. Is done.

The heating source direction switching unit 20 raises the wet steam to a predetermined temperature, and as the wet steam is dried, the moisture contained in the wet steam is dried.

The moisture vapor that has passed through the heating source direction switching unit 20 moves to the upper side of the housing 110 through the guide member 30.

In the guide member 30, since the guide plate 33 is installed to be inclined at a predetermined angle, the wet steam rises to be inclined at a predetermined angle along the guide plate 33.

That is, as shown in FIG. 3, the wet steam is moved upward by being inclined at a predetermined angle by the guide plate 33, and accordingly, the wet steam moves toward the side heaters 160 installed on both sides of the housing 110.

In addition, since the guide plates 33 are installed symmetrically to each other, the wet steam rises while being inclined at a predetermined angle toward the side heater 160.

Accordingly, mixing with the high-temperature outside air introduced from the side heater 160 is performed, and the wet steam is dried to be discharged to the outside through the discharge fan 170.

In addition, the side heater 160 is supplied to the outside air heated to a predetermined temperature using the waste heat of the district heating facility, cogeneration plant.

Accordingly, the wet steam discharged from the discharge fan 170 is discharged while maintaining the same or higher temperature than the outside air temperature, thereby removing the moisture-removed air to prevent white smoke.

The invention made by the present inventors has been described in detail according to the above-described embodiments, but the present invention is not limited to the above-described embodiments and can be changed in various ways without departing from the gist thereof.

20: heating source direction changing unit 21: first plate
22: second plate 23: circulation pipe
30: guide member 31: first fixing plate
32: second fixed plate 33: guide plate
110: housing 120: outside suction
130: spraying unit 140: plasma discharge unit
141: first plate 142: second plate
143: grid space 144: plasma electrode
145: dead zone
150: Eliminator
160: side heating 161: blind spot
170: exhaust fan

Claims (4)

As a white smoke removal device of the cooling tower to install the plasma discharge unit 140 inside the housing 110 to decompose the wet steam into air and moisture by the plasma electrode rod 144 to discharge to the outside,
A heating source direction conversion unit 20 installed on the top of the eliminator 150 to heat the wet steam passing through the plasma discharge unit 140 to a high temperature;
Includes a guide member 30 installed on the upper portion of the heating source redirection unit 20 so that the heated outside air and wet steam introduced through the side heaters 160 installed on both sides of the housing 110 are mixed with each other; And
The heating source direction switching unit 20 includes a first plate 21 formed in a predetermined size;
A second plate 22 spaced apart from the first plate 21 by a predetermined distance;
Containing; between the first plate 21 and the second plate 22, the circulation pipe 23 is continuously installed to each other;
The circulation pipe 23 is a high temperature hot water is circulated while heating the wet steam, the white smoke removal device of the cooling tower using a heating source switching unit. delete According to claim 1,
The guide member 30 includes a first fixing plate 31 formed in a predetermined size;
A second fixing plate 32 fixed to be spaced apart by a predetermined distance from the first fixing plate 31;
Including the plurality of guide plates 33 are installed to be inclined at a predetermined angle to the first fixing plate 31 and the second fixing plate 32 to guide the movement direction of the humid steam to move toward the side heater 160 White smoke removal device of the cooling tower using a heating source direction switching unit, characterized in that. According to claim 3,
The guide plate 33 is a white smoke removal device of a cooling tower using a heating source direction switching unit, characterized in that rotatable at different angles to guide the movement of the wet steam at different angles.

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