KR100365665B1 - Pressure spray type crossflow cooling tower - Google Patents

Abstract

The present invention provides a cross flow filler having a coolant flowing downward, a casing having an air inlet provided on a side wall adjacent to the cross flow filler and accommodating the cross flow filler, and a ceiling portion provided at an upper portion of the casing and having an air outlet. And a cross flow cooling tower having a blower fan installed in the air outlet area, the distribution pipe configured to supply hot cooling water to be cooled by being disposed above the cross flow filler; A plurality of spray nozzles installed in the distribution pipe and spraying the cooling water toward the cross flow filler; A diaphragm which constitutes a watering area for accommodating the distribution pipe and the watering nozzle and blocks the air discharge passage; It characterized in that it comprises a roof cover plate detachably coupled to the top ceiling between the casing and the diaphragm to facilitate the inspection and repair of the spray nozzle. As a result, the contamination of the cooling water and the loss of water can be minimized, and the number of frequent repairs can be significantly reduced, and the weight of the cooling tower can be reduced and the operating efficiency can be increased.

Description

Pressure spray type crossflow cooling tower

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a pressure sprinkling crossflow cooling tower, and more particularly, to a pressure sprinkling crossflow cooling tower having a high temperature cooling water distribution pipe and a sprinkling nozzle in an upper portion of a cooling tower.

The cooling tower uses the latent heat of evaporation by the direct contact of the cooling water and air as a cooling method.The counterflow type cooling tower, the cross flow type cooling tower, and the parallel flow type according to the cooling water and air flow type. Are divided into

The counterflow type cooling tower is a cooling tower in which high-temperature coolant flows vertically downward and air flows upwards so that the coolant and air face each other and heat exchange occurs.A cross-flow type cooling tower has high-temperature cooling water vertically downward and air flows horizontally. The cooling tower is a heat exchanger is a heat exchange takes place as the cross between the air and the air flow, the parallel flow type cooling tower is a cooling tower in which the heat exchange occurs as the air and the coolant flow in the same direction.

3 is a partially broken perspective view of a conventional crossflow cooling tower, as shown therein, where the hot coolant is supplied to the coolant sprinkler 124 provided on both sides of the upper region of the ceiling section 102 and then the bottom of the sprinkler tank 124. It is sprinkled downward by gravity through holes and orifice nozzles formed in it. The sprinkled coolant is cooled through heat exchange with air that crosses the crossflow filler 113 horizontally while passing through the crossflow filler 113, and the cooled low temperature coolant is a water collecting tank 118 under the crossflow filler 113. ) And then supplied to the heat exchanger via the cooling water outlet, and the heated cooling water is recycled to the cooling tower. Air for cooling the cooling water is introduced from the air inlet louver 116 provided on the side of the cross flow filler 113 to cool the cooling water, and then through the air flow fan 114 provided in the center through the ventilation fan 104. It is discharged to the outside. On the other hand, between the cross-flow filler 113 and the air flow space 114, a scattering prevention plate (not shown) for preventing the fine droplets from scattering through the ventilation air is installed vertically inside the cross-flow filler 113 have. The scattering prevention plate 105 forms a scattering prevention protrusion to prevent scattering of fine droplets and to recover the scattering into the cooling tower.

However, in the conventional cross-flow cooling tower, the cooling tower load is increased due to the sprinkling tank installed in the ceiling of the cooling tower, and a separate structure for supporting the sprinkling tank is required. If the circulation water is unbalanced, flooding of hot water or lack of cooling water in the tank may occur. In addition, the cooling water is directly exposed to sunlight, microorganisms multiply in the water tank and the cooling water pipeline, foreign substances invade the cooling water and contaminate the cooling water, thereby contaminating the cooling water pipe and the heat exchange facility. This leads to a decrease in cooling efficiency and loss of water.

As described above, in the conventional cross-flow cooling tower, the cooling tower load due to the installation of the sprinkling tank is increased and the water is lost because the cooling water overflows the tank, and the cooling water is contaminated, the cooling efficiency is deteriorated, and the contaminants must be removed from time to time. There is a problem.

Accordingly, an object of the present invention is to configure the distribution pipe and the pressure spraying nozzle in the upper part of the cooling tower and to install a removable roof cover plate in the ceiling, to minimize the contamination of the cooling water and the loss of water to reduce the weight compared to the conventional cross-flow cooling tower It is to provide a cooling tower with increased operating efficiency.

1 is a partially broken perspective view of a cooling tower according to the present invention;

2 is a longitudinal cross-sectional view of FIG.

3 is a partially broken perspective view of a conventional crossflow cooling tower.

* Explanation of symbols for the main parts of the drawings

1: casing 2: ceiling

3: ventilation fan bottom plate 4: ventilation fan

5: shatterproof plate 6: dispensing

7: distribution branch 8: spray nozzle

9: spraying part 10: air flow bypass side bypass plate

11: casing side bypass flow prevention plate 12: roof cover plate

13: cross flow filler 14: air flow space

15: air inlet port 16: air inlet louver

17: louver support rail 18: sump

19: cooling water suction assembly 20: cooling water outlet

21: support pillar 22: foundation base plate

23: air outlet

The object is, according to the present invention, a cross-flow filler in which cooling water flows downward, a casing having an air inlet provided in the side wall receiving the cross-flow filler and adjacent to the cross-flow filler, and is provided on top of the casing and air A cross flow cooling tower having a ceiling having an outlet and a blower fan disposed in the air outlet area, the cross flow cooling tower comprising: a distribution pipe arranged at an upper portion of the cross flow filler to supply high temperature cooling water to be cooled; A plurality of spray nozzles installed in the distribution pipe and spraying the cooling water toward the cross flow filler; A diaphragm which constitutes a watering area for accommodating the distribution pipe and the watering nozzle and blocks the air discharge passage; The upper ceiling between the casing and the diaphragm is achieved by a cross-flow cooling tower comprising a roof cover plate detachably coupled to facilitate the inspection and repair of the spray nozzle.

Here, the distribution pipe is preferably composed of a distribution main pipe and a plurality of distribution branch branches branched from the distribution main pipe, and the cross flow filler is disposed so that a pair is opposed to each other with a central air flow path interposed therebetween. A scattering prevention plate is installed, and a scattering prevention plate may be installed vertically inside each cross flow filler.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a partially broken perspective view of a cooling tower according to the present invention, Figure 2 is a longitudinal cross-sectional view of FIG. As shown in these figures, the cooling tower according to the present invention includes an air inlet 15 through which external air is introduced, a casing 1 forming a heat exchange space therein, and a sprinkling part 9 for supplying high-temperature cooling water. Roof cover plate 12 for opening and closing the working opening on the upper part of the ceiling fan plate (3) and the ceiling (2) forming the air outlet, and the support pillar for supporting the casing (1) and the ceiling (2) ( 21) and the foundation pillars 22 for fixing the support pillars 21 to the foundation floor are constituted as an outline. An air inlet louver 16 having a plurality of air induction plates which are inclined downward is installed at the air inlet 15, and a cross flow filler 13 in which heat exchange is generated by cross contacting the inflowed air with the sprinkled high temperature coolant. ) Is installed inside the casing (1) of the air inlet louver (16), between the cross-flow filler 13, the air flow through the air flow through the cross-flow filler 13 to the air outlet 14 It is formed, the diaphragm 10, 11 is installed between the air flow space 14 and the watering unit (9). The watering unit 9 is composed of a distribution pipe 30 having a distribution main pipe 6 and a distribution branch pipe 7 and a water spray nozzle 8. A cooling water outlet 20 is provided at a lower side of the water collecting tank 18 for collecting the cooling water sprayed from the water spraying unit 9 and passed through the cross flow filler 13 to discharge the cooling water collected in the water collecting tank 18 to the heat exchange device. The cooling water suction collection cylinder 19 is provided.

The high temperature coolant is supplied to the water spraying unit 9 by a cooling water circulation pump (not shown) and sprayed into the cross flow filler 13, and the air introduced through the air inflow louver 16 passes through the cross flow filler 13. Cooled in cross contact with The sprinkling part 9 is configured such that the dispensing main pipe 6 is arranged at the upper side of the cooling tower on the opposite side of the air inlet louver 14 through the top of the cooling tower on the side of the air inlet louver so as to evenly distribute the high temperature cooling water to the cross flow filler 13. Horizontally arranged, the distribution branch pipe (7) is connected to the distribution main pipe (6) at the top of the cross flow filler (13), the distribution branch pipe (7) has a structure in which a plurality of spray nozzles (8) are installed. .

The roof cover plate 12 is installed in the ceiling part 2 to facilitate the inspection and repair of the watering unit 9 and to prevent the inflow of foreign matters into the cooling tower. The roof cover plate 12 has a detachable prefabricated structure divided into appropriate weights for the operator's convenience in checking and repairing the watering unit 9, and is detachably attached to the upper ends of the casing 1 and the diaphragms 10 and 11. It is prepared.

Most of the sprinkled hot water is cooled by cross contact with air while flowing through the cross flow filler 13, but part of the water sprayed by the water spray nozzle 8 installed at the edge of the sprinkling portion 9 escapes the cross flow filler 13. It can flow by bypassing the space between the cooling tower casing 1 and the cross flow filler 13 and the air flow space 14 therein. In addition, the air through the air inlet louver 16 may be discharged by bypassing the air outlet 23 through the water spray unit 9 without being discharged to the outside through the cross flow filler 13 and the air flow space 14. . This bypass flow of air and coolant generates heat exchange losses and needs to be minimized. In order to minimize heat exchange losses due to air and cooling water bypass flow, diaphragms 10 and 11 are installed at the casing side and the air outlet 23 side, and the lower end of each diaphragm 10 and 11 is cross-flow filler 13 upper portion. It is bent obliquely into the corner (see "A" in Fig. 2) to prevent the bypass flow of air and cooling water.

The diaphragm 10, 11 of the air outlet 23 side is bolted and fixed to the casing 1, and the vertical upper end is bent to support the ventilation fan bottom plate 3 of the ceiling section 2, and the bent opposite area is A supporting member is mounted to support the cooling tower roof cover plate 12, and a supporting member supporting the scattering prevention plate 5 is installed at the vertical lower end. Bending mounting flanges are formed at both ends of the diaphragms 10 and 11 at the air discharge port 23 side for bolting to the casing 1, and bolting holes are formed at the mounting flanges. In addition, the air outlet 23 side diaphragms 10 and 11 are constituted by two plates symmetrical with each other at the center line of the distribution main pipe 6, and are connected to a semicircular hole at each edge of the distribution main pipe 6 center line. When the flanges are formed and connected to each other, a vertical connection flange having a through hole corresponding to the outer diameter of the distribution main pipe 6 is formed at the center, and the distribution main pipe 6 penetrating the diaphragms 10 and 11 on the air outlet 23 side. Will be able to support.

The coolant cooled in the crossflow filler 13 is collected in the sump 18, the collected coolant is supplied to the heat exchanger through the coolant outlet 20, and the warmed coolant is recycled to the cooling tower. Crossflow filler 13 is configured such that a partial region is immersed in the sump 18 to prevent the falling water noise generated when the coolant falls through the crossflow filler 13 to the sump 18 below the cooling tower. .

On the other hand, the air for cooling is introduced from the air inlet louver 16 provided on the side of the cross flow filler 13 to cool the cooling water in the cross flow filler 13 and the outside of the cooling tower through the air flow space 14 provided in the center Discharged upwards. At this time, in order to prevent the fine water droplets are scattered through the ventilation air scattering prevention plate (5) is installed horizontally between the air outlet side diaphragm (10, 11) of the lower end of the installation ventilation fan (4). Due to the horizontally installed shatterproof plate 5, the scattering loss suppressing ability is improved compared to the vertically installed shatterproof plate 5, and the intrusion of air foreign matters such as sunlight exposure and fallen leaves inside the cooling tower is minimized.

The air inlet louver 16 is a detachable structure supported by a 'U'-shaped louver support rail 17 mounted in a horizontal direction on the lower end of the casing 1 into which air is introduced and the side wall in the tank, and the operator is convenient. It is composed of frame unit so that it can be easily removed.

In the above-described and illustrated embodiments, it has been described above that the anti-scattering plate is horizontally installed between the air outlet side bypass flow preventing plates, but as in the conventional cross-flow cooling tower, both the anti-scattering plate and the air flow space side of the cross-flow filler are provided. It can also be installed to face perpendicularly to the end. In addition, both the horizontal scattering plate installed between the air outlet side bypass flow preventing plate and the vertical scattering plate installed opposite to both ends of the cross flow filler may be installed.

As described above, by constructing distribution pipes and pressure spraying nozzles in the upper part of the cooling tower, and installing a removable roof shroud in the ceiling, the contamination of cooling water and water loss can be minimized, and the number of frequent repairs can be significantly reduced. This can reduce the weight of the cooling tower and increase the operating efficiency.

As described above, according to the present invention, the cooling tower can not only minimize the contamination of the cooling water and the loss of water, but also significantly reduce the number of frequent repairs, and reduce the cooling tower weight and increase the operating efficiency. Is provided.

Claims (5)

A cross flow filler having a coolant flowing downward, a casing having an air inlet provided on a side wall adjacent to the cross flow filler and accommodating the cross flow filler; a ceiling portion provided at an upper portion of the casing and having an air outlet; In the cross-flow cooling tower having a blowing fan installed in the area, A distribution pipe disposed on the cross flow filler to supply high temperature cooling water to be cooled; A plurality of spray nozzles installed in the distribution pipe and spraying the cooling water toward the cross flow filler; A diaphragm which constitutes a watering area for accommodating the distribution pipe and the watering nozzle and blocks the air discharge passage; Cross-flow cooling tower comprising a roof cover plate detachably coupled to the top ceiling between the casing and the diaphragm so as to facilitate inspection and repair of the spray nozzle. The method of claim 1, The distribution pipe is a cross-flow cooling tower, characterized in that consisting of the distribution main pipe and a plurality of distribution branches branched from the distribution main pipe. The method of claim 1, The cross-flow filler is a cross-flow cooling tower, characterized in that the pair is arranged so as to face each other with a central air flow path therebetween and the scattering prevention plate is installed between the diaphragm. The method of claim 3, The cross-flow filler is disposed so that a pair is opposed to each other with a central air flow path therebetween, cross-flow cooling tower, characterized in that the scattering prevention plate is installed between each cross-flow filler and the air flow path. delete