KR200339295Y1 - Evaporating type cooling device - Google Patents

Abstract

The present invention relates to an evaporative cooling tower to circulate a heat exchanger to cool the heated cooling water without exposing it to the outside.

It is equipped with a lower part collecting water, an air inlet vent, an upper outlet formed to discharge the air to the outside, a blower fan for introducing the air and a sprinkling device for spraying water from the inside of the upper part, In the cooling tower configured to circulate to the heat exchanger to cool the cooling water using the latent heat of evaporation of the water droplets sprayed from the sprinkler,

A water pumping pipe installed at one side of the cooling tower, and having a pump installed to forcibly transfer the water stored in the lower portion of the cooling tower to an upper watering device;

A support frame placed inside the cooling tower, a plate-shaped cooling plate arranged in a row and a plurality of rows in the support frame, a connecting pipe connecting each of the plate-shaped cooling plates adjacent to the upper and lower sides, and disposed in the horizontal direction Cooling water distribution unit is provided with a cooling water distribution pipe for distributing the inlet of the cooling water to each of the plate-shaped cooling plate, and a cooling water collecting pipe for collecting the cooling water flowing out of each of the plate-shaped cooling plate arranged in the horizontal direction at the lower side; ;

A cooling water recovery circulation line connecting the cooling water distribution pipe of the cooling water cooling unit and the cooling water outlet of the heat exchanger;

A cooling water supply recovery line connecting the cooling water collecting pipe of the cooling water cooling unit and the cooling water inlet of the heat exchanger;

The water stored in the cooling tower, including the water is sprayed in all directions from the top of the cooling water cooling unit through the water pump pipe to evaporate to perform the action of taking heat away from each plate cooling plate, the cooling water is cooled in each plate cooling plate of the cooling water cooling unit After the cooling in the process of circulating the heat exchanger is circulated to the heat exchange action and then designed to repeatedly perform the action of circulating back to the cooling water cooling unit.

Description

Evaporating type cooling device

The present invention circulates a heat exchanger such as an air conditioner in a hospital or a building, or a refrigeration and a cooling device installed in a product production line of a factory, and then cools the inside of a cooling tower without exposing the heated cooling water recovered to the inside of the cooling tower to the outside. It is related to an evaporative cooling tower.

In general, cooling towers are not only used in cooling systems for cooling in hospitals and buildings, but also as cooling water supply devices that are essential for air conditioning in factories, etc., cooling towers are installed on the roof of buildings and exposed to the outside to be heated in heat exchangers. The sprayed water is sprinkled in the shape of fine rain by using a sprinkler pipe or sprinkler with a plurality of nozzles so that contact with the air is made active, thereby lowering the water temperature by evaporating a portion of the coolant. The cooled coolant is itself supplied to the heat exchanger.

8 shows an example of a cooling tower of the prior art, the conventional cooling tower 100 is composed of an upper case 101 for cooling the cooling water and a lower case 102 for collecting the cooling water. An air inflow passage 103 is formed between the lower cases 101 and 102. The air inflow passage 103 is formed as a space in which the upper and lower cases are spaced apart or is formed in a plurality of vent holes.

An air outlet 104 inside the upper case 101 is provided with a blowing fan 200 for forcibly discharging air in the upper case 101, and inside the upper case, cooling water is actively in the air. Filling 300 for contact is provided.

Cooling water pipe 400 is installed at the center of the upper and lower cases 101 and 102, and a watering device 401 for sprinkling the cooling water in all directions on the filling 300 at the upper end of the cooling water pipe 400 is provided. The lower end of the coolant pipe 400 is exposed to the bottom of the lower case 102.

One side of the bottom of the lower case 102 is connected to a cooling water discharge pipe 105 for circulating to the heat exchanger 500 for cooling or cooling using cooling water, and also penetrates through the center of the bottom of the lower case 102. The cooling water recovery pipe 106 for recovering the cooling water heated by the heat exchange action in the heat exchange apparatus 500 is connected to the lower end of the exposed cooling water pipe 400. In addition, a pump (not shown) for forcibly circulating the cooling water is installed in the cooling water discharge pipe 105 or the cooling water recovery pipe 106.

On the other hand, the heat exchanger 500 is equipped with a heat exchange pipe 501 for circulating the coolant, the inlet end of the heat exchange pipe 501 is connected to the coolant discharge pipe 105, the outlet end is the coolant recovery It is connected to the pipe 106.

The conventional cooling tower having the above structure has the following problems.

Since the cooling tower 100 itself is exposed to the outside, dust or fine foreign matter suspended in the air is not only introduced into the cooling water stored in the lower case 102 through the air inflow passage 103 but also filled in the upper case 101. It may also be attached to the filling 300, and the acid rain which is a problem in recent years may be introduced into the lower case 102, the dust, foreign matter and acid rain contaminating the cooling water is a cooling water circulation system for example In addition, the coolant pipe 400, the coolant discharge pipe 105, the coolant recovery pipe 106, and the heat exchanger pipe 501 form a scale in the heat exchanger 500. Since it does not flow smoothly, there is a problem that significantly reduces the heat exchange efficiency of the heat exchange device (500).

In addition, since the scale is jammed in the pipe circulating the cooling water, it is not only time-consuming and expensive to perform the descaling operation periodically, but also a lot of cost, and during the descaling operation, the heat exchanger 500 Since the heat exchange operation must be stopped, the inconvenience of not being able to operate the air conditioner in the hospital or building during that time will be incurred.In addition, the plant cannot produce the air conditioner and the refrigeration and cooling system. A variety of problems may occur, such as a problem that occurs.

Various problems appearing in the cooling tower of the prior art as described above is circulated in the upper case 101 of the cooling tower 100 while circulating the cooling water itself cooled by the latent evaporation of vaporization by contact with the air of the heat exchange apparatus 500 It is because it is composed of a structure that makes the heat exchange operation.

Therefore, the present invention has been proposed to solve the above-mentioned problems in the prior art, while the water stored in the cooling tower circulates only inside the cooling tower, and functions to cool the plate cooling plate by evaporation by contact with air, while inside the cooling tower. Cooling water circulating through each plate-shaped cooling plate of the installed cooling water cooling unit is a means for circulating the heat exchanger without being exposed to the outside, so that the cooling water is not contaminated with dust, foreign matter and acid rain, so that the cooling water circulates. It is designed to improve the heat exchange efficiency of the heat exchanger by preventing the generation of scale due to dust, foreign matter and acid rain in the heat exchanger pipe of the heat exchanger, including the plate cooling plate.

Means of the present invention for achieving the above object,

It is equipped with a lower part collecting water, an air inlet vent, an upper outlet formed to discharge the air to the outside, a blower fan for introducing the air and a sprinkling device for spraying water from the inside of the upper part, In the cooling tower configured to circulate to the heat exchanger to cool the cooling water using the latent heat of evaporation of the water droplets sprayed from the sprinkler,

A water pumping pipe installed at one side of the cooling tower, and having a pump installed to forcibly transfer the water stored in the lower portion of the cooling tower to an upper watering device;

A support frame placed inside the cooling tower, a plate-shaped cooling plate arranged in a row in a horizontal direction in the support frame, a connecting pipe connecting each of the plate-shaped cooling plates adjacent to the upper and lower sides, and disposed in a horizontal direction at an upper side thereof. Cooling water distribution unit is provided with a cooling water distribution pipe for distributing the inlet of the cooling water to each of the plate-shaped cooling plate, and a cooling water collecting pipe for collecting the cooling water flowing out of each of the plate-shaped cooling plate arranged in the horizontal direction at the lower side; ;

A cooling water recovery circulation line connecting the cooling water distribution pipe of the cooling water cooling unit and the cooling water outlet of the heat exchanger;

A cooling water supply recovery line connecting the cooling water collecting pipe of the cooling water cooling unit and the cooling water inlet of the heat exchanger;

The water stored in the cooling tower, including the water is sprayed in all directions from the top of the cooling water cooling unit through the water pump pipe to evaporate to perform the action of taking heat away from each plate cooling plate, the cooling water is cooled in each plate cooling plate of the cooling water cooling unit After being cooled in the process of circulating through the heat exchange device is characterized in that it is configured to repeatedly perform the heat exchange action and then circulating back to the cooling water cooling unit.

Each of the plate cooling plates forming the cooling water cooling unit has a plurality of circulation passages for circulating the cooling water in a zigzag shape, and both sides of each of the plate cooling plates have respective circulation passages to increase the heat transfer area. Both sides of the field is characterized in that it is composed of a curved surface projecting convexly outward,

In addition, the outer surface of the both sides of the plate-shaped cold plate and the inner surface of each of the circulation passages therein is characterized in that it comprises a plurality of protrusions to further increase the heat transfer area.

1 is a connection state of the cooling tower and the heat exchanger for explaining the present invention.

2 and 3 is a front installation state and side installation state of the cooling water cooling unit inside the cooling tower for explaining the present invention.

4 is a cross-sectional view taken along the line A-A of FIG.

Figure 5 is a longitudinal cross-sectional view of the plate-shaped cooling plate of the cooling water cooling unit of the present invention.

Figure 6 is a longitudinal cross-sectional view showing another embodiment of the plate-shaped cold plate of the present invention.

7 is another embodiment of the cooling tower of the present invention.

8 is a prior art

※ Explanation of code for main part of drawing

1: cooling tower 2: cooling water cooling unit

3: heat exchanger 4a: cooling water recovery circulation line

4b: cooling water supply circulation line 11: upper

12 lower part 13 vent opening

14: water pumping pipe 15: pump

16: watering device 17: water distribution pipe

18: outlet 19: blowing fan

21: support frame 22: plate cold plate

23 connector 24 coolant distribution pipe

25: cooling water collection pipe 222: circulation passage

31: cooling water outlet 32: cooling water inlet

An embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a view illustrating a connection state of a cooling tower and a heat exchanger for explaining the present invention, and FIGS. 2 and 3 are front and side installation state views of a cooling water cooling unit inside a cooling tower for explaining the present invention, and FIG. AA is a cross-sectional view of Figure 2, Figure 5 is a longitudinal cross-sectional view of the plate-shaped cooling plate of the cooling water cooling unit of the present invention, Figure 6 is a longitudinal cross-sectional view showing another embodiment of the plate-shaped cooling plate of the present invention, Figure 7 Another embodiment of a cooling tower is shown.

Reference numeral 1 denotes a cooling tower, and the cooling tower 1 is installed in a state of being exposed to the roof of a high-rise building such as a hospital or a building, or outside of a factory building.

The cooling tower 1 is provided with an upper portion 11 on which the cooling water cooling unit 2 is installed, a lower portion 12 for storing water, and a ventilation hole 13 for introducing external air between the upper portion and the lower portion. It is.

One side of the cooling tower (1) is provided with a water pumping pipe 14 for transferring the water stored in the lower portion 12 to the upper portion 11, the water pumping pipe 14, the pump for pumping water ( 15) is established.

The upper end of the water pumping pipe 15 is connected to the sprinkling device 16 which is installed through the upper portion 11 above the inner side, the sprinkler 16 is sprinkler sprinkling water as a thin stream of water in all directions Although may be used in the present invention, the water pumping pipe 15 has an upper end of the water distribution pipe 17 is connected to the water dispensing pipe 17 at a predetermined interval in a plurality of rows connected in parallel to the water pipe (pipe) as an embodiment, Each of the sprinkling pipe is formed with a number of nozzle holes to spray water in the form of a thin rain.

And the upper part 12 of the cooling tower 1 is formed with a discharge port 18 for discharging air, the blower fan 19 and the watering device 16 for forcibly discharging the air in the discharge port 18 The water droplets scattered when water is sprayed at) are provided with an eliminator 18a which can discharge only air while preventing the water droplets from being discharged to the outside.

Features of the present invention, the water stored in the lower portion 12 of the cooling tower 1 is pumped by the pump 15 installed in the water pumping pipe 14, the cooling water cooling unit 2 through the sprinkler 16 While spraying evenly to the evaporation in contact with the air to repeat only the action of taking away the surrounding heat, while the cooling water circulating the cooling water cooling unit (2) is to circulate the heat exchange device (3) without being exposed to the outside In order to prevent the cooling water from being contaminated with dust, acid rain and the like, the cooling water cooling efficiency of the cooling tower 1 and the heat exchange efficiency of the heat exchanger 3 can be improved.

The cooling water cooling unit 2 includes a support frame 21 placed inside the cooling tower 1, a plurality of plate-shaped cooling plates 22 installed in a plurality of rows horizontally and horizontally on the support frame, and each plate type arranged in the longitudinal direction. Cooling water distribution pipe for evenly distributing and supplying the cooling water to each of the connecting pipe 23 for connecting the cooling plate 22 and the plate-shaped cooling plate 22 disposed in the transverse direction at the top of the support frame 21 ( 24 and a coolant collection pipe 25 located at the lowermost side of the support frame 21 to collect the coolant flowing out of each of the plate cooling plates 22 arranged in the transverse direction. The cooling water distribution pipe 24 and the cooling water outlet 31 of the heat exchanger 3 are connected to the cooling water recovery circulation line 4a, and the cooling water inlet 25 and the cooling water inlet of the heat exchanger 3 are connected. 32 is composed of a structure connected to the cooling water supply circulation line (4b), the installation structure of each of the above-described components are as follows.

The support frame 21 is installed vertically in the cooling tower (1), each of the plurality of vertical columns (not shown) installed to face each other horizontal support bars (not shown) are provided at regular intervals up and down The plurality of plate-shaped cooling plates 22 are vertically and horizontally installed on the horizontal bars.

The plate-shaped cooling plates 22 positioned at the uppermost side among the plate-shaped cooling plates 22 installed in a plurality of rows horizontally and horizontally while maintaining a predetermined interval on the support frame 21 are located at a lower position than the sprinkler 16. The plate-shaped cooling plates 22 disposed on the lowermost side are installed at a position higher than the water level of the water stored in the lower portion 12. Also, each of the plate-shaped cooling plates 22 is disposed therein as shown in FIG. There are formed a plurality of circulation passages 222 for circulating the coolant in a zigzag form while being partitioned by the partitions 221.

The plate-shaped cooling plate 22 is formed of a curved surface 223 on which both sides of the circulation passages 222 protrude outwardly in order to enlarge the heat transfer area (see FIG. 5), and the plate-shaped cooling plate 22. To further increase the heat transfer area of the plurality of protrusions 224 and 225 may be continuously formed on the entire outer surface and the inner surface of each circulation passage as shown in FIG. 6.

The connecting pipe 23 connects the plate cooling plates 22 positioned on the upper and lower sides, and an upper end of the connecting pipe 23 is connected to a circulation passage below the plate cooling plate 22 located on the upper side thereof and the lower end thereof. Is a structure connected to the circulation passage on the upper side of the plate-shaped cooling plate 22 located in the lower side, from the plate-shaped cooling plate 22 provided on the uppermost side of the support frame 21 to the plate-shaped cooling plate 22 installed on the lowermost side. The connecting pipe 23 is to be connected to each other continuously plate-like cold plate 22 arranged in the vertical direction, as shown in FIG.

The cooling water distribution pipe 24 is horizontally installed on one side of the plate-shaped cooling plate 22 installed on the uppermost side, and a plurality of inlet pipes 241 connected to the upper portion of the cooling water distribution pipe 24 at regular intervals. ) Are connected to the upper circulation passage 222 of each of the uppermost plate-shaped cold plate 22.

The cooling water collecting pipe 25 is horizontally installed at one side of the plate-shaped cooling plates 22 installed at the lowermost side, and the plurality of outlet pipes 251 connected to the upper portion of the cooling water collecting pipe 25 at regular intervals. ) Are connected to the lower circulation passage 222 of each of the lowermost plate-shaped cold plate 22.

One end of the cooling water recovery circulation line 4a is connected to the cooling water outlet 31 of the heat exchanger 3 and the other end thereof is connected to the cooling water distribution pipe 24. The cooling water supply circulation line One end of 4b is connected to the cooling water inlet 32 of the heat exchanger 3 and the other end thereof is connected to the cooling water collection pipe 25.

The heat exchange device 3 is provided with a heat exchange pipe 33 for circulating the coolant to perform a heat exchange operation. The coolant for circulating the coolant cooling unit 2 and the heat exchange device 3 is a circulation pump (not shown). It is configured to circulate by.

On the other hand, one side of the lower portion 12 of the cooling tower 1 is provided with a supplemental water supply pipe 5 for replenishing water, the valve installed at the end of the supplemental water supply pipe protruding into the lower portion 12 ( The ball tower 52 connected to the 51 is adjusted to maintain the proper water level at all times while the water stored in the cooling tower 1 is opened and closed automatically while opening and closing the valve 51 while moving up and down according to the water level of the stored water.

The operation of the present invention configured as described above will be described.

The cooling tower 1 pumps the water stored in the lower part 12 to the water sprinkling device 16 installed in the upper part 11 by pumping the pump 15 so that the water is above the cooling water cooling unit 2 by the sprinkling device. The sprayed water droplets are evaporated by contact with the air, so that the sprayed water is evaporated in contact with the air, thereby depriving the heat of each plate cooling plate 22 of the cooling water cooling unit 2 to lower the temperature of the cooling water circulating through each plate cooling plate 22. It is only responsible for the action.

The cooling water cooling unit 2 is heated by heat exchange in the heat exchanger 3 without exposing the cooling water circulating through each of the plate cooling plates 22 installed in a plurality of rows vertically and horizontally to the support frame 21. After cooling the cooling water in the cooling tower (1) is responsible for circulating back to the heat exchange device (3).

First, the operation of the cooling tower 1 will be described. The cooling operation of the cooling tower 1 starts with the operation of the pump 15 and the blower fan 19.

When the pump 15 is operated, the water stored in the lower part 12 is transferred through the water pumping pipe 14 to the watering device 16 through the water distribution pipe 17 installed at one side of the upper part 11. Dispensing and supplying, the sprinkling device 16 is sprinkled all over the water in the shape of a thin rain.

The water sprayed as described above evenly wets each plate-shaped cooling plate 22 installed in the cooling water cooling unit 2 in a row and a row, and at the same time, the outside air is vented by the operation of the blower fan 19. 13) is introduced into the cooling tower (1) to come into contact with each of the plate-shaped cooling plate 22 to evaporate the water droplets soaking each plate-shaped cooling plate 22, the water droplets in this way by contact with air When evaporating, the plate-shaped cooling plate 22 is deprived of heat. Therefore, each plate-shaped cooling plate 22 is cooled by the latent heat of evaporation of water droplets, and the non-evaporated water droplets fall to the bottom 12 and are collected in the lower part 12 and sprayed through the water pumping pipe 14 by the pump 15 again. It is to be transferred to the device 16 to repeat the circulation process scattered in all directions.

As described above, the cooling tower 1 repeats an operation of pumping water stored in the lower part 12 by the pump 15 and sprinkling it with the sprinkling device 16, and each plate type of the cooling water cooling unit 2 mounted therein. It is comprised so that only the function which cools the cooling plate 22 may be in charge.

Therefore, the configuration of the cooling tower 1 according to the present invention has a feature different from that of the conventional cooling tower configuration, that is, a configuration in which water stored in the cooling tower is cooled and heat exchange is performed using the cooled water.

Next, the operation of the cooling water cooling unit 2 will be described.

The heated cooling water recovered from the cooling water recovery circulation line 4a connected to the cooling water outlet 31 of the heat exchanger 3 is formed in each of the plate cooling plates 22 arranged horizontally on the uppermost side of the cooling water cooling unit 2. In the process of circulating a plurality of circulation passages 22 partitioned by a plurality of partitions 221 therein in a zigzag shape, the heated cooling water introduced into each plate-shaped cooling plate on the uppermost side is introduced. The cooling water begins to cool by the latent heat of evaporation of water droplets, and the cooling water that circulates in the circulation passages 22 inside the upper plate cooling plates 22 on the uppermost side is the next plate cooling plate installed directly under the connecting pipe 23. It is introduced into the (22) and is cooled while circulating a plurality of circulation passages 222 in a zigzag shape, the circulation operation and the cooling operation of such cooling water is moved to each plate-shaped cooling plate 22 installed at the bottom Which it will continue to be made during the ring.

Therefore, the heated cooling water that performs the heat exchange operation while circulating the heat exchange pipe 33 of the heat exchanger 3 flows into each plate cooling plate 22 installed at the uppermost side of the cooling water cooling unit 2 and is vertically arranged under each of them. In the process of circulating each of the plate-shaped cooling plate arranged in order to circulate the plate-shaped cooling plate 22 installed at the lowermost end is cooled to an appropriate temperature (approximately 2 to 5 ℃), the lower circulation of the lowermost plate-shaped cooling plate 22 The coolant collected in the coolant collecting pipe 25 through the outlet pipe 251 connected to the passage is introduced into the coolant inlet 32 of the heat exchanger 3 through the coolant supply circulation line 4b to perform a predetermined heat exchange operation. After the cooling water recovery circulation line (4a) through the cooling water distribution pipe 24 is distributed to each plate-shaped cooling plate 22 installed on the uppermost side of the cooling water cooling unit (2) is to repeat the operation to be cooled.

The cooling water cooling unit 2 as described above is responsible only for cooling the cooling water heated in the cooling tower 1 without exposing the cooling water that performs the heat exchange operation to the outside in the heat exchange device 3, and thus the cooling water is Contamination of dust, acid rain, and the like will not occur as in the prior art, so that not only the heat exchange efficiency of the heat exchange device 3 can be improved, but also the cooling efficiency of the cooling water cooling unit 2 can be increased.

In addition, a blowing fan 19 for introducing external air into the cooling tower 1 may be mounted on the upper portion 11 of the cooling tower 1 as illustrated in FIGS. 2 and 3, or may be provided with a ventilation hole as illustrated in FIG. 7. 13 can be mounted on one side, and the connecting pipe 23 connecting the plate cooling plates installed in the upper and lower columns in each of the plate cooling plates 22 installed in a plurality of columns in the vertical and horizontal rows in the cooling water cooling unit 2. ) May be installed in one direction as shown in FIGS. 2 to 4 to circulate the cooling water, or although not shown in the drawing, the connecting pipes 23 may be installed in zigzag on both left and right sides, and also shown in the drawing. Although not in the winter, a heater is installed to prevent the water stored in the lower portion 12 of the cooling tower 1 from freezing.

According to the present invention as described above, the water stored in the lower portion of the cooling tower is used only to cool the cooling water cooling unit, and the cooling water circulating in the heat exchanger is vertically and horizontally in the heat exchanger pipe and the cooling water cooling unit of the heat exchanger without being exposed to the outside. By circulating the plate-shaped cooling plate installed in multiple rows, the cooling water is not contaminated with dust or acid rain, and the scale of the cooling water circulation system can be prevented to the maximum, and the maintenance cost of the cooling tower and the heat exchanger can be reduced. There is an economic effect to make it possible, and also the scale is not jammed to provide the effect of improving the cooling efficiency of the cooling tower with the improvement of the heat exchange efficiency of the heat exchanger.

Claims (3)

It is equipped with a lower part collecting water, an air inlet vent, an upper outlet formed to discharge the air to the outside, a blower fan for introducing the air and a sprinkling device for spraying water from the inside of the upper part, In the cooling tower configured to circulate to the heat exchanger to cool the cooling water using the latent heat of evaporation of the water droplets sprayed from the sprinkler, A water pumping pipe installed at one side of the cooling tower, and having a pump installed to forcibly transfer the water stored in the lower portion of the cooling tower to an upper watering device; A support frame placed inside the cooling tower, a plate-shaped cooling plate arranged in a row and a plurality of rows in the support frame, a connecting pipe connecting each of the plate-shaped cooling plates adjacent to the upper and lower sides, and disposed in the horizontal direction Cooling water distribution unit is provided with a cooling water distribution pipe for distributing the inlet of the cooling water to each of the plate-shaped cooling plate, and a cooling water collecting pipe for collecting the cooling water flowing out of each of the plate-shaped cooling plate arranged in the horizontal direction at the lower side; ; A cooling water recovery circulation line connecting the cooling water distribution pipe of the cooling water cooling unit and the cooling water outlet of the heat exchanger; A cooling water supply recovery line connecting the cooling water collecting pipe of the cooling water cooling unit and the cooling water inlet of the heat exchanger; The water stored in the cooling tower including the water is sprayed in all directions from the top of the cooling water cooling unit through the water pumping pipe to evaporate to perform the action of taking heat away from each plate cooling plate, and the cooling water is cooled in each plate cooling plate of the cooling water cooling unit. Cooled in the process of circulating the evaporative cooling tower, characterized in that it is configured to circulate to the heat exchanger to perform a heat exchange action and then circulate again to the cooling water cooling unit. The method of claim 1, Each plate cooling plate forming the cooling water cooling unit has a plurality of circulation passages for circulating the cooling water in a zigzag shape therein, and both sides of each plate cooling plate are formed on both sides of each circulation passage to increase the heat transfer area. Evaporative cooling tower, characterized in that configured as a convex protruding outward. The method of claim 2, The plate-shaped cooling plate is an evaporative cooling tower, characterized in that it comprises a plurality of protrusions in order to further increase the heat transfer area on both the outer surface of the both sides and each of the circulation passages therein.