RU99134U1 - WATER DISTRIBUTION COOLING DEVICE - Google Patents

Abstract

 A cooling tower water distribution device comprising two water supply pipelines connected to a system of four water distribution pipelines made in the form of C-shaped pipelines, which, in turn, are connected through radial pipelines to water-spraying sections formed by axisymmetric trapezoidal sections composed of trapezoidal axes relative to the vertical axis of the tower radial and water-distributing pipelines connected to them, forming systems of regular polygons, formed water-distributing pipelines with water-spraying nozzles, characterized in that the radial pipelines of the water-spraying sections are made decreasing from the periphery to the center of the transverse cross-section, all water-spraying nozzles of each trapezoidal section are facing down, all the water-distributing pipelines are located in one horizontal plane, and the sides of the polygons formed by them at equal distance relative to each other, C-shaped water distribution pipelines are located above odorazdayuschimi conduits in the same horizontal plane symmetrically relative to the vertical axis of the tower and are joined in pairs with one of the water-supply pipes.

Description

The utility model relates to a power system, and in particular to water distribution devices for cooling towers in water recycling systems of power plants and industrial enterprises.

A water distribution device of a cooling tower is known, comprising a water supply pipe connected to a system of water distribution pipes, which, in turn, are connected to ring-shaped internal and peripheral water-spraying sections of the cooling tower (see RF patent No. 2193148, class F28C 1/00, 11/20/2002).

However, this water distribution device is quite complicated, which reduces its reliability and efficiency of water distribution.

The closest to the utility model in terms of technical nature and the achieved result is a cooling tower water distribution device containing two water supply pipelines connected to a system of four water distribution pipelines made in the form of C-shaped pipelines, which, in turn, are connected through radial pipelines to water spray sections formed by axisymmetric trapezoidal sections relative to the vertical axis of the tower, composed of radial and connected thereto vodorazdayuschih pipelines, regular polygons forming system formed by pipelines with Water-spraying nozzles (see. the certificate for a utility model RF №38388, cl. F28S 1/00, 10.06.2004).

However, this water distribution device also has a complex water distribution system with two peripheral and central sections of water distribution pipelines, which reduces its reliability, the efficiency of uniform water distribution and increases its material consumption.

The task to which the present utility model is directed is to increase the uniformity of the distribution of water between water-distributing pipelines.

The technical result is to increase the efficiency of cooling water.

This problem is solved, and the technical result is achieved due to the fact that the water distribution device of the cooling tower contains two water supply pipelines connected to a system of four water distribution pipelines made in the form of C-shaped pipelines, which, in turn, are connected through radial pipelines to the water spray sections formed by axisymmetric trapezoidal sections relative to the vertical axis of the tower, composed of radially and connected to them water pipelines forming regular polygon systems formed by water-distributing pipelines with water-spraying nozzles, radial pipelines of water-spraying sections are made decreasing from the periphery to the center of the transverse cross-section, all water-spraying nozzles of each trapezoidal section are facing down, all water-distributing pipelines are located in the same horizontal plane, and they sides of the polygons are located at an equal distance relative to each other, C-shaped The water distribution pipelines are located above the water distribution pipelines in one horizontal plane axisymmetrically relative to the vertical axis of the tower and are paired with one of the water supply pipelines.

In the course of the study, it was found that it is possible to increase the efficiency of the water distribution device of the cooling tower by optimizing the distribution of water when it is supplied to the water-spraying nozzles.

The implementation of the water distribution system with radial pipelines of the water-spraying sections with a decrease from the periphery to the center of the cross-sectional passage, in combination with the fact that all the water-spraying nozzles of each trapezoidal section are facing down, all the water-distributing pipelines are located in the same horizontal plane, and the sides of the polygons formed by them are located on equal distance relative to each other, C-shaped water distribution pipelines are located above the water distribution pipelines and in one horizontal plane axisymmetrically relative to the vertical axis of the tower and pairwise connected to one of the water supply pipelines allows for efficient irrigation and to achieve uniform distribution of water-spraying nozzles over the irrigation area.

The implementation of the system of water distribution pipelines in the form of two symmetrical parts each with two C-shaped pipelines made it possible to create a simple, easily mounted system with minimal hydraulic resistance. As a result, it was possible to reduce the cost of the water distribution device.

The described design of the water distribution device fits easily into the contour of the outer skin of the tower in which it is supposed to be installed.

Thus, the accomplishment of the task set in this utility model has been achieved - increasing the efficiency of water distribution between water-spraying nozzles and thereby increasing the cooling efficiency of water.

Figure 1 shows a top view of the system of water distribution pipelines and figure 2 shows a longitudinal section of a cooling tower with the described water distribution device of the cooling tower.

The water distribution device of cooling tower 1 contains two water supply pipelines 2 connected to a system of four water distribution pipelines 3 made in the form of C-shaped pipelines, which, in turn, are connected through radial pipelines 4 to water spray sections formed axisymmetric with respect to the vertical axis of cooling tower 1 trapezoidal sections composed of radial 4 and water-distributing pipelines 5 connected to them, forming a system of regular polygons, an image Baths vodorazdayuschimi conduits 5 Water-spraying nozzles 6. The radial conduits 4 Water-spraying section configured to decrease from the periphery to the center of the cross-flow section. All water spray nozzles 6 of each trapezoidal section are facing down. All water-distributing pipelines 5 are located in one horizontal plane, and the sides of the polygons formed by them are located at an equal distance relative to each other. C-shaped water distribution pipelines 3 are located above the water-distributing pipelines 5 in one horizontal plane axisymmetrically relative to the vertical axis of the cooling tower 1 and are connected in pairs with one of the water supply pipelines 2.

The water distribution device of the tower is as follows.

The cooled water through the water supply pipelines 2 enters the C-shaped water distribution pipelines 3 and then into the radial pipelines 4 of the water-spraying sections. From the radial pipelines 4, the cooled water is distributed through the water-distributing pipelines 5 and flows out from the water-spraying nozzles 6 installed on them. As a result of heat exchange with air, the sprayed water is cooled, heating the air at the same time, which creates draft in tower 1 and the entry of colder air into it from the surrounding tower air environment. Falling onto the sprinkler located under the water-distributing pipelines 5, water droplets are additionally cooled and flow down the sprinkler to the pool (the pool and sprinkler are not shown), and chilled water is supplied from the latter as directed. The cooling tower 1 can be performed with a fan 7 to intensify the heat exchange between water and air.

This utility model can be used in cooling towers, in particular in fan cooling towers, for cooling water in water circulating systems of industrial enterprises with direct contact of the cooled water and its cooling air.

Claims (1)

A cooling tower water distribution device comprising two water supply pipelines connected to a system of four water distribution pipelines made in the form of C-shaped pipelines, which, in turn, are connected through radial pipelines to water-spraying sections formed by axisymmetric trapezoidal sections composed of trapezoidal axes relative to the vertical axis of the tower radial and water-distributing pipelines connected to them, forming systems of regular polygons, formed water-distributing pipelines with water-spraying nozzles, characterized in that the radial pipelines of the water-spraying sections are made decreasing from the periphery to the center of the transverse cross-section, all water-spraying nozzles of each trapezoidal section are facing down, all the water-distributing pipelines are located in one horizontal plane, and the sides of the polygons formed by them at equal distance relative to each other, C-shaped water distribution pipelines are located above odorazdayuschimi conduits in the same horizontal plane symmetrically relative to the vertical axis of the tower and are joined in pairs with one of the water-supply pipes.