KR101410749B1 - Cooling water distribution device for combined heat exchanger-condensor for recovering condensed water from the evaporated water vapor - Google Patents

Abstract

The cooling water distribution device according to the embodiment of the present invention includes a plurality of humidifier flow paths 113 through which the humidifier element flows, a plurality of cooling water flow paths 123 through which the cooling water flows, and air (condensed air) A plurality of cooling water distribution apparatuses for supplying cooling water to a heat exchange-condensation panel assembly (100) comprising a plurality of condensation air flow paths (133), the cooling water distribution apparatus being disposed on the heat exchange-condensation panel assembly (100) A body portion 510 having a length corresponding to the length in the width direction of the condensing panel assembly 100 and having a cooling water receiving space formed therein; A cooling water inlet 540 disposed at one end of the body part 510; And at least one slit disposed at a lower end of the body portion 510 and formed over an entire length of the body portion 510 in the longitudinal direction to discharge cooling water. In the heat exchange-condensation panel assembly 100, And a nozzle unit 520 disposed in an inlet of the cooling water flow path 123.
With the cooling water distribution apparatus according to the present invention, the cooling water flow path of the heat exchange-condensing panel assembly and / or the cooling water flow to be distributed to the humidifier flow path is formed without a dead zone, so that cooling water in the heat exchange- The effect of increasing the heat exchange efficiency between the moisture bodies and improving the white smoke reducing performance and efficiently recovering the evaporated water can be obtained.

Description

TECHNICAL FIELD [0001] The present invention relates to a cooling water distributing device for a multi-function device, and more particularly, to a cooling water distributing device for a multi-

The present invention relates to a cooling water which can be applied to a white smoke reduction or evaporation water recovery apparatus using a heat exchange-condensation panel assembly provided with a humidifier flow path, a cooling water flow path and a condensed air flow path capable of increasing the rate of white smoke reduction and water recovery in a chimney or a cooling tower To a distribution apparatus.

Water is used for cooling products, production facilities and equipment in various industrial fields. Since water vapor evaporated during the cooling process is discharged to the atmosphere through a chimney or a cooling tower, considerable water resources are wasted. In addition, by-product gas generated during the manufacturing process of the product and combustion gas generated during the energy production process include a large amount of water vapor and are discharged to the atmosphere through the chimney.

Since the gas discharged through the chimney or the cooling tower is discharged at a high degree of saturation and temperature of the water vapor contained in the gas, the temperature is lowered below the dew point temperature when it is discharged into a relatively low temperature atmosphere, The same fog, that is, white smoke. White smoke is not a harmful substance because it is a main component of water vapor, but when viewed from the outside, it appears as if a large amount of pollutants are emitted through a chimney, thereby causing visual pollution. In addition, white smoke generated from chimneys and cooling towers may cause not only visual pollution but also inconveniences and risks caused by falling water and falling water.

Accordingly, efforts have been made to reduce the occurrence of white smoke by collecting water through a method of condensing water vapor by installing a condenser in the discharge path of the gas containing water vapor.

Korean Patent Publication No. 2012-0045979 discloses that the heat exchanging area between the humidifier body and the condenser is increased by constructing the condenser with the structure in which the channel portions constituting the plurality of condensed air flow paths partitioned from each other are arranged in parallel in each panel assembly , A region (dead zone) where the heat exchange is not performed due to the flow stagnation is formed as the flow direction of the condensed air is biased upward by the suction force of the fan while the condensed air introduced from the outside passes through the inside of the condenser And heat exchange is promoted uniformly throughout the condenser, so that condensation of water vapor passing through the humidifier body flow path by the condenser can be effectively performed.

However, in the conventional cooling tower as described above, since the entire amount of cooling water to be cooled is cooled only by the filler, the cooling water is evaporated much. In order to remove fine water droplets discharged to the atmosphere, a scattering eliminator 71 is installed on the cooling water distributing means There is a limitation in reducing fine water droplets that are released into the atmosphere, which has a problem in that the effect of reducing white smoke and recovering water is unsatisfactory.

In addition, since the humidifier body that has passed through the humidifier body flow path in the conventional cooling tower as described above is shifted to the edge of the fan stack by the suction force of the fan 35, the air passing through the condensed air and discharged to the upper center of the cooling tower The air and the humidifier are not mixed well and the generation of white smoke can not be effectively reduced.

Accordingly, Korean Patent Application No. 2012-0074562 discloses that a condensed air flow path is disposed on both sides of a humidifier flow path and a condensed air flow path is disposed on both sides of the cooling water flow path, The cooling water to be cooled to be cooled down by the gravity through the cooling water flow path is cooled by indirect contact with air in the atmosphere flowing horizontally in the condensed air flow path while the moisture element is condensed by the atmospheric air flowing horizontally through the condensed air flow path, Thereby reducing the evaporation amount of the cooling water generated from the filler and improving the temperature of the condensed air which is heat-exchanged by indirect contact with the cooling water and the humidifier body to more effectively raise the humidifying state, thereby improving the white smoke reducing performance, It is possible to recover it.

However, in Korean Patent Application No. 2012-0074562, as shown in Fig. 3, the cooling water distribution (cooling water distribution panel assembly) 120 disposed above the heat exchange-condensation panel assembly 100 A dead zone in which no cooling water is injected is generated in the region between the injection nozzles 42 because the injection angle of the cooling water injected from the injection nozzle 42 of the means is limited to a predetermined angle, The efficiency of heat exchange between the cooling water in the condensing panel assembly and the condensed air (atmospheric air) and between the cooling water and the humidifier is reduced. In this case, it is possible to minimize the dead zone by narrowing the interval between the injection nozzles by installing more spray nozzles 42 in the cooling water distributing means, but it is also possible to increase the number of the spray nozzles 42 There is a problem that the cost is increased and the apparatus is complicated, which is not practical.

1. Korean Patent Application No. 2012-0074562

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a cooling water channel and / or a humidifier body of a heat exchange- By forming the stream of cooling water dispensed in the flow path without a dead zone, it is possible to improve the heat exchange efficiency between the cooling water and the condensed air in the heat exchange-condensation panel assembly and between the cooling water and the humidifier body to improve the white smoke reducing performance, The cooling water can be recovered to the outside of the apparatus.

According to an aspect of the present invention, there is provided an air conditioner comprising: a plurality of humidifier flow paths through which a humidifier element flows; a plurality of cooling water flow paths through which cooling water flows; and a plurality of condensed air flow paths through which air CLAIMS 1. A plurality of cooling water distribution apparatuses for supplying cooling water to a heat exchange-condensing panel assembly, the cooling water distribution apparatus comprising: a heat exchange-condensing panel assembly having a length corresponding to a length in the width direction of the heat exchange- A body portion having a cooling water accommodating space formed therein; A cooling water inlet disposed at one end of the body portion; And a nozzle portion disposed at an upper end of the body portion and having a plurality of slits formed over an entire length of the body portion in the longitudinal direction to discharge cooling water, the nozzle portion being disposed in an inflow port of the cooling water flow path of the heat exchange- And a cooling water distributing device.

In the cooling water distributing apparatus of the present invention, the cooling water outlet may be formed at the other end opposite to the one end of the body portion.

In the above-described cooling water distribution device of the present invention, the slit of the nozzle portion may have at least one joint portion in the longitudinal direction of the body portion.

In the above-described cooling water distribution device of the present invention, longitudinal reinforcing portions may be formed on both sides of the nozzle portion.

In the cooling water distributing device of the present invention described above, a nozzle portion of the cooling water distributing device may be additionally disposed in an inlet portion of the humidifier flow path of the heat exchange-condensing panel assembly.

In the cooling water distributing apparatus of the present invention described above, a plurality of cooling water distributing devices may be arranged in a line, and an outlet of one cooling water distributing device may be connected to an inlet of the other cooling water distributing device.

The cooling water distributing apparatus of the present invention is characterized in that a plurality of cooling water distributing devices arranged in a row are provided with an inlet, a body and a pipe passing through the outlet, the cooling water being conveyed through the inside thereof, A plurality of holes may be formed on the upper side of the pipe.

The cooling water distributing device of the present invention is characterized in that a plurality of holes on the upper side of the pipe in the body portion of the cooling water distributing device disposed near the cooling water supply pipe of the plurality of cooling water distributing devices are arranged in the cooling water May be formed larger than the size of the plurality of holes on the upper side of the pipe in the body portion of the distribution apparatus.

The present invention also provides a heat exchange-condensing system including a plurality of humidifier flow paths through which humidifier material flows, a plurality of cooling water flow paths through which cooling water flows, and a plurality of condensed air flow paths through which atmospheric air (condensed air) A panel assembly; A cooling water distributor disposed above the heat exchange-condensing panel assembly for distributing a portion of the cooling water to be cooled to the inlet of the cooling water flow path of the heat exchange-condensation panel assembly; A filler disposed at a lower portion of the heat exchange-condensing panel assembly for exchanging cooling water with air introduced into the cooling air inlet; And second cooling water distributing means disposed between the lower portion of the heat exchange-condensing panel assembly and the upper portion of the filler and distributing the remaining cooling water distributed through the cooling water distributing device among the cooling water to be cooled to the upper portion of the filler A plurality of cooling water distribution devices disposed on top of the heat exchange and condensation panel assembly and having a length corresponding to a length in the width direction of the heat exchange and condensation panel assembly, A body portion having a cooling water accommodating space formed therein; A cooling water inlet disposed at one end of the body portion; And a nozzle portion disposed at a lower end of the body portion and having a plurality of slits formed over an entire length of the body portion in a longitudinal direction to discharge cooling water, the nozzle portion being disposed in an inflow portion of the cooling water flow path of the heat exchange- Is provided.

In the cooling water distributing apparatus of the present invention, the cooling water outlet may be formed at the other end opposite to the one end of the body portion.

In the above-described cooling water distribution device of the present invention, the slit of the nozzle portion may have at least one joint portion in the longitudinal direction of the body portion.

In the cooling water distributing apparatus of the present invention described above, a nozzle portion of the cooling water distributing device may be additionally disposed in an inlet of the humidifier flow path of the heat exchange-condensing panel assembly.

In the cooling water distributing apparatus of the present invention described above, a plurality of cooling water distributing devices may be arranged in a line, and an outlet of one cooling water distributing device may be connected to an inlet of the other cooling water distributing device.

In the cooling water distributing apparatus of the present invention described above, a pipe passing through an inlet, a body and an outlet of the plurality of the cooling water distributing devices arranged in a row is disposed, the cooling water is conveyed through the inside thereof, A plurality of holes may be formed on the pipe.

With the cooling water distribution device according to the present invention, the cooling water flow in the heat exchange-condensing panel assembly and / or the stream of cooling water distributed to the humidifier flow path is formed without a dead zone, The efficiency of heat exchange between the air and between the cooling water and the humidifier body is increased to improve the performance of the white smoke reduction and efficiently recover the evaporated water.

1 is a side view of a cooling tower using a conventional heat exchange-condensing panel assembly.
FIG. 2 is a view of a heat exchange-condensing panel assembly in the cooling tower of FIG. 1 and a cooling water distribution device disposed thereon.
Fig. 3 is a view showing a cooling water injection area in the heat exchange-condensation panel assembly and the cooling water distribution device of Fig. 2;
FIG. 4 is a view showing a state where a cooling water distribution device according to an embodiment of the present invention is installed on a heat exchange-condensing panel assembly. FIG.
Figure 5 is a view of the cooling water distribution in the cooling water distribution apparatus and heat exchange-condensing panel assembly of Figure 4;
6 is a side cross-sectional view of a cooling water distribution device according to an embodiment of the present invention installed on top of a heat exchange-condensing panel assembly.
7 is a perspective view of a cooling water distribution apparatus according to an embodiment of the present invention.
8 is a partially exploded perspective view of the cooling water distribution device of Fig.
9 is a view showing a state in which a plurality of cooling water distribution devices according to an embodiment of the present invention are arranged and connected in a line.
FIG. 10 is a view showing a portion where a vortex phenomenon of a cooling water flow occurs in the body portion in the plurality of cooling water distributing apparatuses of FIG. 9; FIG.
Fig. 11 is a view showing a pipe through which a plurality of holes are formed in the plurality of cooling water distributing apparatuses of Fig. 9; Fig.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other objects, features and advantages of the present invention will become more apparent from the following detailed description of the present invention when taken in conjunction with the accompanying drawings.

It is to be understood that the following specific structure or functional description is illustrative only for the purpose of describing an embodiment in accordance with the concepts of the present invention and that embodiments in accordance with the concepts of the present invention may be embodied in various forms, It should not be construed as limited to the embodiments.

The embodiments according to the concept of the present invention can make various changes and have various forms, so that specific embodiments are illustrated in the drawings and described in detail in this specification or application. However, it should be understood that the embodiments according to the concept of the present invention are not intended to limit the present invention to specific modes of operation, but include all changes, equivalents and alternatives included in the spirit and scope of the present invention.

Whenever an element is referred to as being "connected" or "connected" to another element, it may be directly connected or connected to the other element, but there may be other elements in between It should be understood. On the other hand, when an element is referred to as being "directly connected" or "directly connected" to another element, it should be understood that there are no other elements in between. Other expressions for describing the relationship between components, such as "between" and "between" or "adjacent to" and "directly adjacent to" should also be interpreted.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The singular expressions include plural expressions unless the context clearly dictates otherwise. It is to be understood that the terms such as " comprises "or" having "in this specification are intended to specify the presence of stated features, integers, But do not preclude the presence or addition of steps, operations, elements, parts, or combinations thereof.

Hereinafter, the present invention will be described in detail with reference to the preferred embodiments of the present invention with reference to the accompanying drawings. Like reference symbols in the drawings denote like elements.

The cooling water distributing apparatus of the present invention includes a plurality of humidifier flow paths 113 through which the humidifier body flows, a plurality of cooling water flow paths 123 through which the cooling water flows, and air in the atmosphere (condensed air A heat exchange-condensation panel assembly (100) coupled to form a plurality of condensed air flow paths (133) through which the plurality of condensed air flows (133) flow; A cooling water distributor disposed above the heat exchange-condensation panel assembly 100 for distributing a portion of the cooling water to be cooled to the inlet of the cooling water flow path 123 of the heat exchange-condensation panel assembly 100; A filler (33) disposed in the lower portion of the heat exchange-condensation panel assembly (100) for exchanging cooling water with air introduced into the cooling air inlet (32); And a cooler disposed between the lower portion of the heat exchange and condensation panel assembly 100 and the upper portion of the filler material 33 to distribute remaining cooling water, which has been distributed through the cooling water distributing device, Condensation panel assembly 100 and the cooling water flow path 123 of the heat exchange-condensation panel assembly 100 and / or the cooling water flow path 113 of the cooling water flow path 113 By forming this dead zone, it is possible to improve the heat exchange efficiency between the cooling water and the condensed air in the heat exchange-condensation panel assembly 100 and between the cooling water and the humidifier body, thereby improving the white smoke reduction performance and efficiently recovering the evaporation water . The humidifier body may contain water formed by chemical reaction as well as water evaporated by heat, and may be various kinds of gases including various other components in addition to water.

4 shows a cooling water distribution apparatus 500 according to an embodiment of the present invention installed in a cooling water flow path 123 formed in a cooling water flow path panel assembly 120 in a heat exchange and condensing panel assembly 100, 5 shows the cooling water distribution in the cooling water distribution apparatus 500 of FIG. 4 and the cooling water stream in the heat exchange-condensation panel assembly 100 and FIG. 6 shows the cooling water distribution apparatus 500 according to the present invention in the heat exchange-condensation panel assembly 100 And FIG. 7 is a perspective view of a cooling water distributing apparatus according to an embodiment of the present invention.

In the heat exchange and condensation panel assembly 100, the condensed air flow path 133 is disposed on both sides of the humidifier flow path 113, and the condensed air flow path 133 is disposed on both sides of the cooling water flow path 123. The condensed air flow path 133, the condensed air flow path 133, the condensed air flow path 133, and the combined gas flow path 113 are arranged in this order.

The humidifier body flow path panel assembly 110 of the heat exchange and condensing panel assembly 100 is formed in a rectangular plate shape and has a space in which a pair of panels protruding from the inner surface are spaced apart from each other And connected to form a humidifier flow path (113). The humidifier body fluid passage 113 forms a passage through which the other portion of the humidifier fluid channel 113 except for the inflow portion of the lower end portion and the discharge portion of the upper end portion is blocked from the outside.

The cooling water channel panel assembly 120 of the heat exchange and condensation panel assembly 100 is formed in a rectangular plate shape and a space in which a pair of panels protruding from the inner surface is formed, And has a structure coupled to form a cooling water flow path 123. In order to increase the contact area with the cooling water and to increase the contact time, the inner surface of the panel constituting the cooling water channel panel assembly 120 has a pattern (not shown) in which a serpentine inverted V- Can be formed. The cooling water channel 123 forms a passage through which the other part of the cooling water channel 123 except for the inflow part of the lower end part and the discharge part of the upper end part is disconnected from the outside.

The condenser flow path 133 in the heat exchange-condensing panel assembly 100 is connected to the humidifier flow path panel assembly 110 and the cooling water flow path panel assembly 120, The connecting portion of the humidifier body flow path panel assembly 110 and the connecting portion of the cooling water channel panel assembly 120 are joined to each other so that the outer surface of the panel and the outer surface of the panel of the cooling water flow path panel assembly 120 are opposed to each other, 133 are formed.

The condensed air flow path 133 and the humidifying system flow path 113 are formed so that the flow of the condensed air and the flow of the humidifier body intersect each other. The condensed air flow path 133 and the cooling water flow path 123 are formed so that the flow of the condensed air and the flow of the cooling water intersect each other.

FIG. 6 is a side cross-sectional view of a cooling water distribution apparatus according to an embodiment of the present invention installed on a heat exchange-condensing panel assembly. FIG. As such, a plurality of inventive cooling water distribution devices may be installed on top of the heat exchange-condensing panel assembly.

Next, the cooling water distribution device 500 of the present invention will be described with reference to Figs. 7 and 8. Fig.

7, the cooling water distribution apparatus 500 has a body portion 510 having a length corresponding to a length in the width direction of the heat exchange-condensation panel assembly 100, and a cooling water accommodating space is formed therein do. A cooling water inlet port 540 is disposed at one end 530 of the body 510 and a cooling water inlet port 540 is communicated with a cooling water supply pipe. The cooling water distribution device 500 according to the present invention may be made of a metal material or a synthetic resin such as polytetrafluoroethylene (PTFE). In manufacturing the cooling water distribution device 500, known joining methods such as seam welding, spot welding, and adhesive bonding may be used, and a detailed description thereof will be omitted .

In the body 510, a cooling water outlet 550 may be disposed at the other end 530 of the opposite position of the cooling water inlet 540. As such, when the end portions 530 of the plurality of cooling water distribution devices are communicated with each other, the pressure in the cooling water distribution device 500 can be maintained uniform. The cooling water outlet 550 may communicate with another adjacent cooling water inlet 540. A nozzle unit 520 is formed on the lower end of the body 510 to cover the entire length of the body 510 in the longitudinal direction of the body 510, . A long slit 521 is formed at the tip of the nozzle unit 520. It is preferable that the plurality of slits 521 of the nozzle unit 520 are formed in the width direction of the cooling water flow path 123 and the humidifier flow path 113 of the heat exchange and condensation panel assembly 100 . Since the elongated slits 521 are formed on both sides of the nozzle unit 520, the cooling water flow path 123 and the humidifier flow path 113 of the heat exchange-condensation panel assembly 100 are connected through the nozzle unit 520, The cooling water flowed into the heat exchange-condensation panel assembly (heat exchanger-condensation panel assembly) (as shown in FIG. 5) becomes continuous over the entire length in the width direction of the cooling water flow path 123 and the humidifier flow path 113 A dead zone is not generated in the region where the cooling water does not reach within the cooling water flow path 123 and the humidifier body flow path 113 of the cooling water flow pathway 100, Meanwhile, a slit 522, which is an outflow port of cooling water formed in the nozzle unit 520, may be formed at the tip of the nozzle unit 520.

When the cooling water distributing apparatus of the present invention is installed in the cooling water flow path 123 and the humidifier flow path 113 on the upper part of the heat exchange and condensation panel assembly 100, the cooling water ejected through the nozzle unit 520 is scattered to the outside It is preferable that the body 510 has a length that can be inserted into the cooling water flow path 123 and the humidifier body flow path 113 to a predetermined depth so as to minimize the amount of water flowing into the body part 510.

The slits of the nozzle unit 520 are continuously formed in the width direction of the cooling water flow path 123 and the humidifier flow path 113 of the heat exchange and condensation panel assembly 100. However, 520 may have at least one joint portion 523 in the longitudinal direction of the slits to reinforce the strength of the tip portion of the slits. The number of the joints is preferably set to a minimum within a range that does not substantially form a dead zone in which the cooling water does not reach within the cooling water passage 123 and the humidifier body flow passage 113.

It is sufficient that the joint portion 523 of the nozzle portion 520 can keep both sides of the nozzle portion 520 in contact with each other. The joining portion 523 may be formed by known joining methods such as seam welding, spot welding, concavo-convex bonding, or adhesive bonding on both sides of the nozzle portion 520.

In addition, longitudinal reinforcement portions 524 may be formed on both sides of the nozzle portion 520. The reinforcing portion 524 may be formed of a reinforcing rib that protrudes inward or outward on both side surfaces forming the nozzle portion 520 or is formed on the outside.

The nozzle unit 520 of the cooling water distribution apparatus 500 of the present invention is basically installed in the cooling water flow path 123 of the heat exchange and condensation panel assembly 100, And may be disposed in the humidifier flow passage 113. [ In this case, the nozzle unit 520 of the cooling water distributor 500 is preferably installed in the inlet of the humidifier flow path 113.

Thus, when the cooling water distributing apparatus 500 is installed in the humidifier flow path 113 of the heat exchanging-condensing panel assembly 100, it is possible to efficiently reduce the white smoke and operate the evaporating water collecting apparatus in accordance with the change in ambient temperature . The temperature of air in the atmosphere is high in the summer, no white smoke is generated, and the heat transfer amount from the cooling water passing through the cooling water flow path 123 to the air passing through the condensed air flow path 133 is small, The cooling water is injected into the humidifier flow path 113 through the cooling water distributing device to increase the cooling amount of the cooling water in the humidifier flow path 100, The cooling water to be produced can be further cooled, thereby enhancing the cooling effect. Thus, when the cooling water is further cooled in the humidifier flow path 113 during the summer season, the evaporation amount in the filler 33 can be reduced by about 20% even during the summer season, so that the loss of cooling water due to evaporation can be reduced. It is sufficient to cool the cooling water passing through the cooling water flow path 123 only by air in the atmosphere passing through the condensed air flow path 133 because the temperature of air in the atmosphere is low during the winter season.

The cooling water distributing apparatus 500 according to the present invention is installed for each heat exchanging-condensing panel assembly 100. When a plurality of heat exchanging-condensing panel assemblies are arranged in a line, the plurality of cooling water distributing apparatuses 500 The number corresponds to the number of heat exchange-condensing panel assemblies. FIG. 9 shows a state in which a plurality of cooling water distribution apparatuses 500 are arranged in a line in a manner as described above. At this time, a plurality of the cooling water distributing apparatuses 500 arranged in a line are connected to an inlet 540 of the other cooling water distributing apparatus 500 through an outlet 550 of one cooling water distributing apparatus 500.

In this case, when the cooling water flows from one cooling water distributing apparatus 500 to another adjacent cooling water distributing apparatus 500, the vicinity of the outlet 550 in the body portion 510 of the cooling water distributing apparatus 500 located at the front (A region denoted by a dotted line in Fig. 10) may occur. Therefore, as shown in Fig. 11, the inlet, the body, and the outlet of the plurality of cooling water distributing devices arranged in a row are passed through the cooling water distributing devices 500 so as to smoothly transfer the cooling water between the adjacently connected cooling water distributing devices 500 A plurality of holes 571 may be formed on the upper side of the pipe 570 located inside the body 510. In this case,

(The cooling water distribution device disposed on the upstream side in the flow of the cooling water) of the cooling water distribution device (500) disposed near the cooling water supply pipe (41) side of the plurality of cooling water distribution devices (The cooling water distribution device disposed on the downstream side in the flow of the cooling water) in which the plurality of holes 571 are arranged far from the cooling water supply pipe 41 side, May be formed larger than the size of the plurality of holes (571). Preferably, the diameter of the hole 571 on the upper side of the former pipe is formed to be larger by about 2 mm than the diameter of the hole 571 on the upper side of the latter pipe.

The cooling water distributing apparatus 500 according to the present invention includes a plurality of humidifier flow paths 113 through which the humidifier body flows, a plurality of cooling water flow paths 123 through which cooling water flows, and air (condensed air) A heat exchange-condensation panel assembly (100) coupled to form a plurality of condensation air flow paths (133); A cooling water distributor disposed above the heat exchange-condensation panel assembly 100 for distributing a portion of the cooling water to be cooled to the inlet of the cooling water flow path 123 of the heat exchange-condensation panel assembly 100; A filler 33 disposed at a lower portion of the heat exchange-condensation panel assembly 100 for exchanging cooling water with air introduced into the cooling air inlet 32; And a cooler disposed between the lower portion of the heat exchange and condensation panel assembly 100 and the upper portion of the filler material 33 to distribute remaining cooling water, which has been distributed through the cooling water distributing device, 2 < / RTI > cooling water distributing means.

In this case, the cooling water distribution apparatus 500 according to the present invention is the same as the above-described configuration, and a description thereof will be omitted.

Next, the operation of the cooling water distribution device 500 according to the embodiment of the present invention will be described.

According to the present invention, since the nozzle part 520, which is the cooling water jetting port of the cooling water distribution device 500, is formed by the slit 521 continuously opened in the width direction of the heat exchange-condensation panel assembly 100, Condensation panel assembly 100 through the nozzle unit 520 of the heat exchanger 500 and the stream of the cooling water ejected into the humidifier body flow path 113 are continuously formed without being interrupted, The generation of dead zones, that is, the areas where the cooling water does not reach the cooling water flow path 123 and the humidifier body flow path 113 of the condensing panel assembly 100, can be prevented.

Accordingly, the cooling water distributing apparatus 500 according to the present invention is a heat exchange-condensing panel assembly 100 including a plurality of humidifier flow paths 113, a plurality of cooling water flow paths 123, and a plurality of condensed air flow paths 133, A stream of cooling water that is distributed to the cooling water flow path 123 and / or the humidification element flow path 113 of the heat exchange-condensation panel assembly is formed without a dead zone, so that the heat exchange- The heat exchange efficiency between the cooling water in the condensing panel assembly and the condensed air (air in the air) and between the cooling water and the humidifier body is increased, so that the white smoke reducing performance can be improved and the evaporated water can be efficiently recovered.

9 shows a state in which a plurality of cooling water distributing apparatuses 500 are connected and arranged in a line. A plurality of the cooling water distributing apparatuses 500 arranged in a line form an outlet 550 of one cooling water distributing apparatus 500, Is connected to the inlet (540) of the other cooling water distribution device (500). 11, a pipe 570 is disposed through the inlet 540, the body 510 and the outlet 550 of the plurality of cooling water distributing devices arranged in a row, And a plurality of holes 571 are formed on the upper side of the pipe 570 located inside the body portion 510. The cooling water distributing device 500 is disposed in the body 510 of the cooling water distribution device 500, The vortex phenomenon can be prevented from occurring in the vicinity of the cooling water distribution device 550 (the area denoted by the dotted line in FIG. 10), and the cooling water can be smoothly conveyed between the adjacently connected cooling water distribution devices 500.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the inventions. It will be apparent to those of ordinary skill in the art.

31: condensing air inflow part 32: cooling air inflow part
33: Filler 35: Fan
41, 51: cooling water supply pipe 42, 52: injection nozzle
71: scattering eliminator 100: Heat exchange-condensation all-in-one
110: humidifier sieve channel panel assembly 113: humidifier sieve channel
120: cooling water flow path panel assembly 123: cooling water flow path
133: condensing air flow channel 300: cooling tower
500: Cooling water distributing device 510: Body part
520: nozzle unit 521: slit
523: joining portion 524: reinforcing portion
540: Cooling water inlet 550: Cooling water outlet
570: pipe 571: hole

Claims (14)

And a plurality of condensed air flow paths (133) through which the air in the atmosphere (condensed air) flows, the plurality of condensed air flow paths (133) through which the humidifier fluid flows, A plurality of cooling water distribution devices for supplying cooling water to a condensing panel assembly (100)
A body 510 disposed above the heat exchange-condensation panel assembly 100 and having a length corresponding to the length of the heat exchange-condensation panel assembly 100 in the width direction and having a cooling water receiving space therein;
A cooling water inlet 540 disposed at one end of the body portion;
The cooling water channel 123 of the heat exchange and condensation panel assembly 100 is disposed at a lower end of the body portion 510 and extends downward from the lower end of the body portion 510 to be inserted into the inlet portion of the cooling water flow passage 123 at a predetermined depth. A nozzle unit 520 formed to be protruded; And
And cooling water discharge slits (521) disposed on both sides of the nozzle part (520) and formed over the entire length in the longitudinal direction of the body part (510). The method according to claim 1,
And a cooling water outlet is formed at the other end opposite to the one end of the body part. delete 3. The method according to claim 1 or 2,
Wherein a longitudinal reinforcing portion is formed on both side surfaces of the nozzle portion. 3. The method according to claim 1 or 2,
Wherein the nozzle portion (520) of the cooling water distribution device is further disposed within the humidifier flow path (113) of the heat exchange-condensation panel assembly (100). 3. The method of claim 2,
Wherein a plurality of cooling water distribution devices are arranged in a line so that an outlet of one cooling water distribution device is connected to an inlet of the other cooling water distribution device. The method according to claim 6,
A plurality of holes are formed on the upper portion of the pipe located inside the body portion, and a plurality of holes are formed on the upper portion of the pipe located inside the body portion Wherein the cooling water distributing device is a cooling water distributing device. 8. The method of claim 7,
Wherein a size of a plurality of holes on the upper side of the pipe in the body portion of the cooling water distributing device disposed close to the cooling water supply pipe side of the plurality of cooling water distributing devices is disposed far from the cooling water supply pipe side in the body portion of the cooling water distributing device And the cooling water distribution device is formed larger than the size of the plurality of holes on the upper side. A plurality of humidifier flow passages 113 through which the humidifier element flows, a plurality of cooling water flow passages 123 through which cooling water flows, and a plurality of condensed air flow passages 133 through which atmospheric air (condensed air) flows A heat exchange-condensing panel assembly 100; A cooling water distributor disposed above the heat exchange-condensation panel assembly 100 for distributing a portion of the cooling water to be cooled to an inlet of the cooling water flow path 123 of the heat exchange-condensation panel assembly 100; A filler 33 disposed at a lower portion of the heat exchange-condensation panel assembly 100 for exchanging cooling water with air introduced into the cooling air inlet 32; And a cooler disposed between the lower portion of the heat exchange and condensation panel assembly 100 and the upper portion of the filler material 33 to distribute remaining cooling water, which has been distributed through the cooling water distributing device, 2. A plurality of cooling water distribution apparatuses usable in an apparatus for recovering white smoke and containing a cooling water distributing means,
A body 510 disposed above the heat exchange-condensation panel assembly 100 and having a length corresponding to the length of the heat exchange-condensation panel assembly 100 in the width direction and having a cooling water receiving space therein;
A cooling water inlet 540 disposed at one end of the body part 510; And
And at least one slit disposed at a lower end of the body portion 510 and extending along the entire length of the body portion 510 to discharge cooling water, And a nozzle unit (520) disposed in an inlet of the cooling water flow path (123). 10. The method of claim 9,
And a cooling water outlet is formed at the other end opposite to the one end of the body part. 11. The method according to claim 9 or 10,
And the slits are disposed on both sides of the nozzle unit (520). 11. The method according to claim 9 or 10,
Wherein the nozzle portion (520) of the cooling water distribution device is further disposed within an inlet of the humidifier flow path (113) of the heat exchange-condensation panel assembly (100). 11. The method of claim 10,
Wherein a plurality of cooling water distribution devices are arranged in a line so that an outlet of one cooling water distribution device is connected to an inlet of the other cooling water distribution device. 14. The method of claim 13,
A plurality of holes are formed on the upper portion of the pipe located inside the body portion, and a plurality of holes are formed on the upper portion of the pipe located inside the body portion Wherein the cooling water distributing device is a cooling water distributing device.

Images