KR100881163B1 - A cooling tower - Google Patents

Abstract

A cooling tower is provided to reduce white smoke by discharging dried air of mid temperature sufficiently mixed with moist air of mid temperature in the saturation curve. An air distribution element(50) is coupled with a group of a plurality of hollow slant pipes(51) which having downward inclination, wherein a side wall(50a) of the air distribution element is opened and mounted with an air controlling damper(52), an air filter, and a hot water coil(54) in the fin tube shape in sequence. A plurality of such air distribution elements are coupled with each other in the traverse direction, wherein outer surfaces of the slant pipes of the air distribution elements face each other.

Description

Cooling tower with air distributor for reducing white smoke {A cooling tower}

The present invention relates to a cooling tower having an air distributor for reducing white smoke. More specifically, the present invention relates to a cooling tower equipped with a separate heat exchanger that uses cooling water as a heat source in front of an exhaust part of a cooling tower to allow cool air to pass through, thereby reducing the sensible heat of cooling water and the outside air. Induce the increase of sensible heat, generate warm dry air, and mix the warm dry air with the middle heat and humid air through the heat exchanger through the filling in the existing cooling tower through the air distributor, so that no separate heat source and power are required. The present invention relates to a cooling tower equipped with an air distributor for reducing white smoke that enables to reduce white smoke of a cooling tower.

Recently, due to changes in society's perception of environmental pollution and strengthening of related laws, environmental pollution is considered as a priority for design in most industrial fields. In the case of cooling towers, most attention is focused on smoke prevention. Especially in the case of cooling towers installed near airports, roads, or dense residential areas, the consideration of white pollution, which is a visual source of pollution, must be reflected in the design. Various methods for reducing or preventing white smoke have been proposed until recently.

White smoke occurs when the saturated water vapor emitted from the cooling tower exceeds the saturation curve during mixing with cold air, which cannot be removed naturally. In order to suppress the generation of white smoke, the released saturated wet air must be brought within the saturation curve. That is, it must be accompanied by a mechanical air conditioner that lowers relative humidity in saturated humid air, and this mechanism has been developed to reflect many forms of change and technology. The most commonly used method is the wet / dry cooling tower.

White smoke reduction cooling towers (called Wet / Dry or mixed cooling towers) have been developed as an important solution to the white smoke problem in wet (evaporative) cooling towers. This cooling tower is in the form of a combination of wet and dry cooling towers. The combination of wet and dry results in lowering the relative humidity of the air leaving the cooling tower, and cogeneration, waste heat recovery and the construction of independent power plants around residential areas, airports and highways have high interest in reducing smoke.

In the conventional cooling tower A for reducing white smoke as illustrated in FIG. 1, a blower 101 is installed at an upper end of the casing 100, and a dry heat exchanger 102 having a fin tube type under the blower 101. ) Is installed and a structure consisting of a wet heat exchanger 103 composed of a filler unit thereunder. In the conventional cooling tower A of this type, the cooling water exchanges heat with cold air through the heat exchanger 102 in the form of fin tube, and the outdoor air passed through the heat exchanger 102 becomes medium-temperature dry air a2. The air is mixed with the medium-temperature humid air a1 passed through the wet heat exchanger 103 by the blower 101 to discharge through the exhaust port in which the blower 101 is installed, thereby reducing white smoke.

However, in the conventional cooling tower A as shown in FIG. 1, the medium-temperature humid air a1 passed through the wet heat exchanger 103 through the packing material in the cooling tower A within a short time required to discharge the outside air. The medium-temperature dry air a2, which has passed through the dry heat exchanger 102 of the outside air, is not sufficiently mixed at the exhaust port above the cooling tower A, and the medium-temperature humid air a1 is the central portion of the exhaust port 104 of the cooling tower A. As the middle-temperature dry air (a2) is discharged while forming a distinct temperature boundary layer to the outer portion of the exhaust port 104 of the cooling tower (A), it is difficult to obtain a distinct effect of smoke reduction, but rather adverse effect to increase the density of the center portion more. As a result, there was a problem that partial white lead in the center could rise to a higher place, causing a bigger problem.

In addition, as shown in FIG. 2, the conventional wet cooling tower A is configured to supply medium temperature cooling water through the cooling water spraying means 107 inside the cooling tower A, and the cooling water inside the filler unit 108. Is discharged to cool water at low temperature through heat and mass exchange with outside air. On the other hand, the low-temperature dry outside air is made of heat and mass exchange with air in the medium and humid state inside the filler unit 108 to be discharged through the discharge unit 109. When the medium-temperature humid air meets the low-temperature dry air of the outside air and goes through a condition above the saturation curve of the wet air, it is discharged to the outside and there is a problem that white smoke is generated by condensation.

 An object of the present invention is to solve such a problem, by inflowing the warm dry air evenly in the entire area under the exhaust port of the cooling tower, to be sufficiently mixed with the warm and humid air rising from the lower portion, the mixed air is saturated It is to provide a cooling tower equipped with an air distributor for reducing white smoke according to the present invention that can significantly improve the white smoke reduction performance of the cooling tower by discharging within a curve.

The object of the present invention is a cooling tower having a wet heat exchanger disposed at a lower portion thereof and an exhaust portion formed at an upper portion thereof, which is installed at an upper portion of the wet heat exchanger portion of the cooling tower and a lower portion of the exhaust portion, and generates moderate dry air. It is achieved by a cooling tower equipped with a white smoke reduction air distributor according to the present invention is provided with a white smoke reduction air distributor that is sufficiently mixed with the medium temperature humid air flowing in from the bottom through the wet heat exchanger to rise. .

Cooling tower equipped with a white smoke reduction air distributor according to the present invention is introduced into the entire discharge area of the lower side of the exhaust port of the cooling tower evenly, so that it is sufficiently mixed with the warm and humid air passing through the wet heat exchanger introduced from the bottom, By allowing the sufficiently mixed air to be discharged within the saturation curve, the white smoke reduction performance of the cooling tower can be greatly improved.

As shown in FIG. 3, in the cooling tower A equipped with an air distributor for reducing white smoke according to the first embodiment of the present invention, a wet heat exchange part 2 is disposed at a lower part of the casing 1 and an upper part thereof. An exhaust part 3 for discharging air is arranged, and an air distributor 5 for reducing white smoke is provided between the exhaust part 3 and the wet heat exchange part 2.

As shown in FIG. 4, the white smoke reduction air distributor 5 is inclined downward from one side thereof, and a plurality of inclined tubes 51 in a hollow state are combined to form an air distribution element 50. In this embodiment, four are combined, one side wall (50a) of the air distribution element 50 is opened and the one side wall (50a) air damping damper 52, the air purifying filter 53, and the fin tube Hot water coil 54 of the form is provided in sequence, the outer surface of the inclined tube 51 of the air distribution element 50 is installed in a state that is coupled in a row laterally side by side, in Figure 4 the air distribution element Four (50) are installed side by side.

When the air distribution element 50 is installed side by side with the adjacent air distribution element 50, the ventilation space 55 is formed so that the lower middle temperature humid air is discharged.

A plurality of air flow guide plates 512 are provided inside the inclined surface 511 of the inclined tube 51 in the hollow state of the white smoke reduction air distributor 5, and in this embodiment, four are provided. to be. The air flow guide plate 512 is configured to prevent the air from being drawn by the weight of the dry air and distribute the dry air in a balanced manner along each air flow guide plate 512 to guide the air upward. The upper portion of the air flow guide plate 512 is formed of a variable structure that can adjust the inclination angle, for example, a hinge structure. Only the upright surface 513 into which the outside air of the inclined tube 51 is introduced and the inclined surface 511 discharged are opened, and the bottom surface 514 is closed.

The hot water coil 54 has a structure in which the warmed coolant is primarily cooled by air while heating the cool air passing through the air distributor 5 with hot and dry air while the heated coolant circulates. That is, the hot water coil 54 is transferred through the fine tubules 541 to the lower portion while heating the air introduced by the warmed cooling water, and the wet heat exchange part 2 is primarily cooled by external air. It is sprayed at and cooled secondarily.

The air distribution element 50 is installed to be spaced apart from the adjacent air distribution element 50 at a predetermined interval so that the medium temperature and high humidity air generated in the wet heat exchange part 2 in the lower portion is disposed between the adjacent air distribution element 50. The ventilation space 55 is formed.

The key point of the present invention is to change the state of the cold outside air to medium-temperature dry air while passing through the white smoke reduction air distributor (5), passing the hot water coil (54) of the air distributor (5) to cool the water first The medium-temperature dry air a2 having completed the heat exchange is passed through the inclined tube 51 of the air distribution element 50 to a plurality of air flow guide plates 512 fixed to the inclined surface 511 of the inclined tube 51. This facilitates evenly discharging evenly in the full space 31 of the exhaust part 3 of the cooling tower A, and such mesophilic dry air passes through the wet heat exchange part 2 to generate mesophilic humid air a1 and white smoke. The key is to mix evenly to approach the state quantities that do not.

The operation and effect of the cooling tower A equipped with an air distributor for reducing white smoke according to the present invention having such a configuration will be described in detail below.

For example, the cooling water is introduced into the cooling tower (A) equipped with the white smoke reduction air distributor according to an embodiment of the present invention so that the cooling device is operated to cool the heated cooling water is introduced into the primary through the hot water coil (54). Cooled and flowed back to the top of the wet heat exchanger 2, the heated cooling water is sprayed on the wet heat exchanger (2). The coolant sprayed in this way is cooled and recirculated through the wet heat exchanger (2), and the heat is removed by the coolant. The heated medium-temperature humid air (a1) passes through the wet heat exchanger (2) to the upper exhaust part. It is to be discharged through (3). If the medium-temperature humid air is discharged through the exhaust unit 3 without the air distributor 5 for reducing the white smoke of the present invention, the white smoke is generated and generates considerable pollution, but the bottom of the wet heat exchanger ( 2) through the air distribution element 50 of the air distributor 5 as the medium-temperature humid air a1 rises through the aeration space 55 between the air distribution elements 50 of the air distributor 5. The medium temperature humid air (a1) and the medium temperature dry air (a2) are mixed evenly in the full space 31 of the exhaust part (3) while being mixed with the medium temperature dry air (a2) that is introduced into the cooling tower (A) The air discharged through the exhaust part 3 is to prevent the white smoke phenomenon. That is, as shown in FIG. 7B, since the moderate temperature dry air a2 is evenly spread, the air is uniformly spread in the full space 31 below the exhaust part 3, and the ventilation space 55 of the air distributor 5 is evenly spread. Since it is evenly mixed with the medium temperature humid air (a1) passed through it will prevent the occurrence of white smoke phenomenon.

The white smoke reduction air distributor 5 of the cooling tower A having the white smoke reduction air distributor according to the present invention includes an air control damper 52, an air purification filter 53, and a fin tube type hot water coil 54. Included, each inclined tube 51 of the air distribution element 50 is a shape that can minimize the flow static pressure loss of the air, the cross section is so that the constant pressure loss is constant according to the position of the air flow past the air distributor (5) In reduced form. In the space 31 at the front end of the exhaust section 3 of the cooling tower A of the present invention, the influence of the suction fan 32 causes the difference in the density of air, the change of the wind speed, and the local vortex between the cooling tower center and the outer casing. A complex air flow mechanism such as generation occurs, and thus, an air flow guide plate (for each inclined pipe 51 of the air distribution element 50) can be actively responded to changes in the air flow in the space 31 (plenum) of the cooling tower A. 512 is provided, the guide plate 512 is made to be variable in the flow direction in response to the internal change, to uniformly induce the difference in the air distribution amount due to the pressure difference of the exhaust section (3) of the cooling tower (A) do.

A cooling tower equipped with an air distributor for reducing white smoke according to the present invention will be referred to as an invention that can be repeatedly applied to industrially applicable inventions.

1 is a cross-sectional view schematically showing the configuration of a white smoke reduction cooling tower according to the prior art

Figure 2 is a schematic cross-sectional view showing a general configuration of a conventional wet counterflow cooling tower

3 is a cross-sectional view schematically showing the configuration of the white smoke reduction cooling tower according to an embodiment of the present invention

4 is a perspective view of an air distributor for reducing white smoke according to a first embodiment of the present invention;

FIG. 5 is a schematic cross-sectional view of a schematic view of white smoke reduction air distributor taken along line I-I of FIG.

6 is a schematic plan view of an air distribution element according to a first embodiment of the present invention;

7A and 7B are schematic views showing the distribution of mesophilic dry air with and without the air flow guide plate in the inclined pipe;

Explanation of symbols on the main parts of the drawings

1. Casing 2. Heat Exchanger 3. Exhaust

5. Air distributor 31. Space 32. Suction fan

50. Air distribution element 51. Inclined pipe 52. Damper

53. Filter 54. Hot water coil 55. Ventilation space

511. Inclined surface 512. Guide plate 513. Upright surface

Claims (4)

A wet heat exchanger 2 is disposed under the casing 1, and an exhaust unit 3 for discharging air is disposed above the casing 1, and the white smoke reduction portion is disposed between the exhaust unit 3 and the wet heat exchanger unit 2. In the cooling tower (A) provided with an air distributor for reducing white smoke provided with an air distributor (5), The white smoke reduction air distributor 5 is inclined downward from one side and a plurality of inclined tubes 51 in a hollow state are combined in a group to form an air distribution element 50, and one of the air distribution elements 50. The side wall 50a is opened and the one side wall 50a is provided with an air control damper 52, an air purifying filter 53, and a fin tube type hot water coil 54, and such an air distribution element ( 50 is installed in such a state that the outer surface of the inclined tube 51 of the air distribution element 50 is laterally coupled in parallel with each other in the transverse direction with the lateral side of the inclined tube 51 of the adjacent air distribution element 50. Cooling tower equipped with an air distributor for reducing white smoke, characterized in that The air distribution element (50) of claim 1, wherein the air distribution element (50) is installed between the adjacent air distribution elements (50, 50) such that when installed in parallel with the adjacent air distribution element (50), the lower middle temperature and high humidity air is discharged. Cooling tower equipped with a white smoke reduction air distributor is characterized in that the spaced-aerated ventilation space 55 is formed The air flow guide plate 512 of claim 1 or 2, wherein a plurality of air flow guide plates 512 are provided inside the inclined surface 511 of the hollow inclined tube 51 of the white smoke reduction air distributor 5, The air flow guide plate 512 is prevented from being pulled by the weight of the dry air of the air and is distributed in a balanced manner along each air flow guide plate 512 and guides upwardly so as to be guided upwardly upward from the edge end to the center. Is formed in a curved shape, the upper portion of the air flow guide plate 512 is formed of a variable structure that can adjust the inclination angle, only the inclined surface 513 and the inclined surface 511 is discharged to the upright surface 513 is introduced into the outside air of the inclined tube (51). Structure and the bottom surface 514 is a cooling tower having an air distributor for reducing white smoke, characterized in that the closed A wet heat exchanger 2 is disposed under the casing 1, and an exhaust unit 3 for discharging air is disposed above the casing 1, and the white smoke reduction portion is disposed between the exhaust unit 3 and the wet heat exchanger unit 2. In the cooling tower (A) provided with an air distributor for reducing white smoke provided with an air distributor (5), The white smoke reduction air distributor 5 is inclined downward from one side and a plurality of inclined tubes 51 in a hollow state are combined in a group to form an air distribution element 50, and one of the air distribution elements 50. The side wall 50a is opened and the one side wall 50a is provided with an air control damper 52 and a hot water coil 54 in the form of a fin tube, and this air distribution element 50 is provided with the air distribution element ( White smoke reduction, characterized in that the outer surface of the inclined tube 51 of the 50 is installed in a state in which the outer surface of the inclined tube 51 of the adjacent air distribution element 50 are connected in parallel with each other in the transverse direction. Cooling tower with air distributor

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