RU2554131C1 - Cooling tower of bg type - Google Patents

Abstract

FIELD: power industry.SUBSTANCE: cooling tower contains tower with installed in it water distribution system, water trap and sprinkler. In the tower bottom part there are air intake windows and basin, and butterfly dampers are installed on vertical axes in the air outlet windows. Area before each damper is divided by the vertical axis to two unequal parts, the water distribution system is made by the identical, flat, near installed water spraying sections installed under the water trap and above sprayer. The water spraying sections are connected to the water supply risers, the water distributing system is made by two water spraying section, each section is connected to own water supply pipeline located under the sprayer above the basin by means of the water supply risers, each of them at output is connected to own horizontal water distributing pipeline in its middle. The later are installed parallel to each other and are connected with system of parallel water delivery pipelines, on which the water spraying nozzles are installed; they are uniformly distributed along the water delivery pipelines, bore diameter of the water distributing pipelines is reduced gradually in the direction from the point of connection to the water supply riser. The water spraying sections are located symmetrically relatively to the vertical axis of the cooling tower, each section is equipped with one water supply riser, the section risers are located in parallel to each other along the vertical axis of the cooling tower; the water distributing pipelines are located along diameter of the inscribed circle of the tower cross-section; to the water distributing pipelines the parallel water drainage pipelines are connected, using them the water distributing pipelines are connected with the water delivery pipelines, the water drainage pipelines are made gradually reducing in direction from the water delivery pipeline to the wall of the cooling tower, and are located at right angle to the water distributing pipelines, the and sections of the water drainage pipelines of each section are connected with each other by the peripheral pipelines located along the inscribed circle of the tower cross-section, and water spraying nozzles of the adjacent water delivery pipelines are located in staggered order relatively to each other.EFFECT: increased water uniformity between the water spraying sections and along cross-section of the cooling towers, and due to this power consumption decreasing for water cooling.3 dwg

Description

The invention relates to a power system, and in particular to cooling towers of water recycling systems of power plants and industrial enterprises.

A sectional cooling tower is known which contains a tower located in the latter water distribution sections, equipped with individual supply pipelines and water distribution systems, and a sprinkler installed under the water distribution sections, while a basin is constructed in the lower part of the tower in which supply pipelines are laid (see USSR Copyright Certificate No. 283997 Cl. F28C 1/00, 10/14/1970).

The disadvantages of such a tower are the design complexity, low operational reliability, low efficiency of regulating the heat load in the winter.

The closest to the invention in technical essence and the achieved result is a tower cooling tower containing a tower with a water distribution system, a water trap and an irrigation device installed in it, and in the tower in its lower part there are air inlet windows and a pool, and in the air inlet windows rotary dampers are installed on the vertical axes moreover, the area of each damper is divided by a vertical axis into two unequal parts, the water distribution system is formed by identical, flat, adjacent water spray sections installed under the water trap and above the sprinkler, while the spray sections are connected to the risers (see RF patent No. 2244234, class F28C 1/00, 01/10/2005).

However, this water distribution device does not allow to achieve uniform water distribution over the cross section of cooling towers with a circular cross section, which reduces the efficiency of water distribution.

The problem to which the present invention is directed, is to eliminate the above disadvantages.

The technical result consists in the fact that an increase in the uniformity of the distribution of water between the water-spraying sections and in the cross section of the tower-type cooling towers is achieved, and due to this, a reduction in energy costs for cooling the water.

This problem is solved due to the fact that the tower cooling tower contains a tower with a water distribution system, a water trap and a sprinkler installed in it, moreover, air inlets and a pool are made in the tower in its lower part, and rotary dampers are installed in the air inlet windows, the area of each the dampers are divided by a vertical axis into two unequal parts, the water distribution system is formed by identical, flat, adjacent water-spraying sections installed under the water with the trap and over the sprinkler, while the water-spraying sections are connected to the water supply risers, the water distribution system is formed by two water-spraying sections, each of which is connected to its water supply pipe located under the water sprinkler above the pool, each of which is connected at the outlet to its horizontal water distribution pipe in its middle part, the latter being installed parallel to each other and communicated with the system in parallel x water distribution pipelines, on which water spray nozzles are installed, evenly distributed along the water distribution pipelines, the diameter of the flow cross-section of the water distribution pipelines decreases stepwise in the direction from the point of connection to the water supply tower, while the water spray sections are located symmetrically relative to the vertical axis of the tower, each section is equipped with one water supply pipe, risers sections are parallel to each other along the vertical axis of the cooling tower, water distribution pipelines are located along the inscribed circumference of the cross section of the tower, parallel to each other drainage pipelines are connected to the distribution pipes, by means of which the distribution pipelines are connected to the distribution pipelines, the drainage pipelines are made stepwise tapering in the direction from the distribution piping to the cooling tower and the perpendicular walls are located drainage areas the pipelines of each section are interconnected by peripheral pipelines located along the inscribed circle of the cross section of the tower, and the water-spraying nozzles of adjacent water-distributing pipelines are staggered relative to each other.

In the course of the study, it was found that it is possible to increase the uniformity 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 in the form of two water-spraying sections, each water-spraying section is connected to its water supply pipe located under the sprinkler above the pool by means of water risers, each of which is connected at the outlet to its horizontal water distribution pipe in its middle part, the latter being installed parallel to each other and connected to a system of parallel water distribution pipelines on which water spray osl evenly distributed along the water distribution pipelines, the diameter of the flow cross section of the water distribution pipelines decreases stepwise in the direction from the point of connection to the water supply riser, while the water spray sections are located symmetrically with respect to the vertical axis of the tower, each section is equipped with one water supply riser, section risers are parallel to each other along the vertical cooling tower axes, water distribution pipelines are located along the inscribed circle diameter of the cross section of the tower, parallel to each other drainage pipelines are connected to the water distribution pipelines, by means of which the water distribution pipelines are in communication with the water distribution pipelines, the drainage pipelines are stepwise tapering in the direction from the distribution pipe to the wall of the tower and perpendicular to the water distribution sections of the water distribution pipelines are arranged, interconnected peripheral pipeline located along the inscribed circumference of the cross section of the tower, and the water-spraying nozzles of adjacent water-distributing pipelines are staggered relative to each other, more evenly equalize the hydraulic resistance between different parts of the device and, ultimately, allow efficient irrigation and achieve a more uniform distribution of water-spraying nozzles by irrigation area, while it was possible to create a simple, easy-to-install system and achieve reduced energy costs for the operation of the water distribution system.

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

In FIG. 1 shows a side view of a tower cooling tower.

In FIG. 2 shows a top view of the water distribution system of a tower cooling tower.

In FIG. Figure 3 shows a fragment of a longitudinal section of the bottom of the tower tower.

A tower cooling tower comprises a tower 1 with a water distribution system 2 installed therein, a water catcher 3 and an irrigator 4.

In the tower 1, in its lower part, air inlet windows 5 and a pool 6 are made, and in the air inlet windows 5, rotary shutters 7 are mounted on the vertical axes, the area of each shutter 7 being divided into two unequal parts by the vertical axis.

The water distribution system 2 is formed by identical, flat, adjacent water-spraying sections 8 installed under the water trap 3 and above the sprinkler 4.

The water spray sections 8 are connected to the water supply risers 9. The water distribution system 2 is formed by two water spray sections 8, each of which is connected to its water supply pipe 10 located under the sprinkler 4 above the pool 6, by the water supply risers 9, each of which is connected to its horizontal water distribution pipe at the outlet 11 in its middle part, the latter being installed parallel to each other and communicated with a system of parallel water-distributing pipelines rows 12, on which are installed Water-spraying nozzles 13 uniformly distributed along the pipes 12 vodorazdayuschih.

The diameter of the flow cross section of the water distribution pipelines 11 decreases stepwise in the direction from the point of connection to the water supply riser 9, while the water spray sections 8 are located symmetrically with respect to the vertical axis 14 of the tower.

Each section 8 is equipped with one water riser 9.

The risers 9 sections 8 are parallel to each other along the vertical axis 14 of the tower.

Water distribution pipelines 11 are located along the diameter 15 of the inscribed circle 16 of the cross section of the tower 1 of the tower.

The water distribution pipes 17 are connected to the water distribution pipelines 11, to which the water distribution pipes 11 are connected to the water distribution pipes 12. The water distribution pipes 17 are stepwise tapering in the direction from the water distribution pipe 12 to the cooling tower wall and are located perpendicular to the water distribution pipes 11.

The end sections of the drainage pipelines 17 of each section 8 are interconnected by peripheral pipelines 18 located along the inscribed circle 16 of the cross section of the tower 1 of the tower.

Water-spraying nozzles 13 of adjacent water-distributing pipelines 12 are staggered relative to each other.

Cooled water through the water supply pipelines 10 and then through the water risers 9 enters the water distribution pipelines 11. From the water distribution pipelines 11, the cooled water is distributed through the water discharge pipelines 17 and from the latter through the water distribution pipelines 12 and flows out from the water-spraying nozzles 13 installed thereon. Spray water as a result heat exchange with air is cooled while heating the air, which creates draft in the tower and the entry of colder air into it from the surrounding d cooling tower air environment. Falling onto the sprinkler 4 located under the water-distributing pipelines 12, water droplets are additionally cooled and flow down the sprinkler into the pool 6, and from the latter, chilled water is supplied as intended.

The present invention can be used in energy and heat in the circulating water supply systems of power plants and industrial enterprises.

Claims (1)

A tower cooling tower comprising a tower with a water distribution system, a water trap and a sprinkler installed in it, moreover, air inlets and a pool are made in the tower in its lower part, and rotary dampers are installed in the air inlet windows on the vertical axes, and the area of each damper is divided into two unequal vertical axis parts, the water distribution system is formed by identical, flat, adjacent water-spraying sections installed under the water trap and above the sprinkler, while the spraying sections are connected to the water supply risers, characterized in that the water distribution system is formed by two water spray sections, each water spray section being connected to its water supply pipe located under the sprinkler above the pool through the water supply risers, each of which at the outlet is connected to its horizontal water distribution pipe to its middle water distribution pipe parts, the latter being installed parallel to each other and communicated with the parallel system of water-distributing pipelines on which water-spraying nozzles are installed, evenly distributed along the water-distributing pipelines, the diameter of the flow cross-section of the water distribution pipelines decreases stepwise in the direction from the point of connection to the water supply tower, while the water spray sections are located symmetrically with respect to the vertical axis of the tower, each section is equipped with one water supply pipe risers sections are parallel to each other along the vertical axis of the tower, in one-way distribution pipelines are located along the diameter of the inscribed circle of the cross section of the tower, parallel to each other drainage pipelines are connected to the distribution pipes, by means of which the distribution pipelines are connected to the distribution pipelines, the drainage pipelines are made stepwise tapering in the direction from the distribution pipe to the distribution tower and water drainage sites yaschih pipelines of each section are interconnected peripheral conduits arranged along the inscribed circle cross section of the cooling tower, and Water-spraying nozzles adjacent vodorazdayuschih pipes are staggered relative to each other.

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