RU121046U1 - TOWER TOWER WITH NATURAL TRACTION - Google Patents

Abstract

A natural draft tower cooling tower containing an open hollow tower located above the drainage basin, a water distribution system, chilled water sprinklers, evaporators and air inlet windows made at the base of the tower, characterized in that there are additional air inlet windows along the perimeter of the upper part of the cooling tower, and on the side of the cooling tower there are gas-tight ducts for supplying air to additional air inlets.

Description

The utility model relates to heat engineering and can be used at thermal power plants and industrial enterprises for cooling water with atmospheric air.

A common design of a natural draft tower cooling tower is an open hollow tower located above the catchment basin, which includes a chilled water sprinkler and a water trap - a droplet eliminator located above the sprinkler. Of these devices, the closest in technical essence, operating principle, constructive solution and the achieved results to this utility model are the cooling tower declared in patent SN No. 656698, MKI F28C 1 / 16.1986,

The disadvantage of such a tower tower with natural draft is the icing in winter of the elements of the tower with their subsequent destruction.

This drawback is partially eliminated in the AS of SU 1307201 IPC F28C 1/10 dated 04/30/87. It contains a description of the tower with natural draft tower, containing the shell of an exhaust tower with a supporting structure, forming in the lower part of the tower ellipse-shaped air inlets, washed in the winter time with hot water through the distribution nozzles directed downwards, which excludes freezing of the air inlets.

The disadvantage of this tower is the icing of its upper part, because after interacting with water, the air is heated and saturated with water vapor. At negative ambient temperatures at the outlet of the tower, moist and warm air, interacting with cold walls, cools down, water vapor condenses and freezes onto the upper part of the walls of the tower. In spring, blocks of ice fall from a height of several tens of meters and destroy all elements of the cooling tower (pipelines, sprayers, evaporators and droplet eliminators).

The objective of this technical solution is to develop the design of the tower cooling tower, which eliminates the formation of ice in the upper part in the winter.

The technical result of the proposed solution is to increase the reliability, durability and efficiency of the tower due to the exclusion of ice formation in the upper part of the tower during operation in winter time. It is provided by placing along the perimeter of the upper part of the tower of the tower additional air inlets, to which, through gas-tight boxes located on the outside of the tower, a stream of cold and dry ambient air is displaced, pushing out the moist air from the wall. Gas-tight ducts provide air to the upper windows due to natural draft, i.e. due to the pressure difference in the upper and lower parts of the tower.

The essence of the proposed design is illustrated by drawings, where figure 1 shows a General view of the cooling tower with natural draft; figure 2 and figure 3 is the distribution of temperature in winter in a cooling tower with natural draft.

The positions in the drawing indicate:

1 - tower cooling tower, open on top and, to create natural traction, hollow inside; 2 - water distribution system, consisting of a pipeline for supplying chilled water, pipelines for supplying water to sprinklers and sprinklers of any design; 3 - evaporators of any design; 4 - a water intake basin located under the evaporators and representing a bowl for water flowing from the evaporators; 5 - chilled water drain pipe; 6 - lower air inlet windows made at the base of the tower and representing openings in the walls of the tower with a variable, usually with the help of blinds, cross-section; 7 - additional upper air inlet windows; 8 - gas-tight ducts for supplying cold and dry ambient air to the additional upper air inlet windows.

Cooled water is supplied to the lower part of the tower of the cooling tower through a water distribution system 2, then, flowing down through evaporators 3, is discharged into the intake pool 4, where it is taken by the chilled water discharge pipe 5. The air flow moves vertically upward due to the natural draft created by the hollow inside the tower. coming through the air inlet windows 6. The cooling process occurs due to the evaporation of part of the water when it flows off with a thin film or drops on evaporators. With the evaporation of 1% water, the temperature of the remaining drops by 6 ° C. In the upper part of the tower there are additional air inlet windows 7, to which a stream of cold and dry ambient air will be fed through gas-tight ducts 8, pushing the moist air from the wall.

The claimed technical result, namely the absence of icing in the upper part of the tower with additional windows and gas-tight ducts, is confirmed by the temperature distribution inside the tower in winter, shown in figure 2 and figure 3. There is a clear separation of the flow of warm and humid air inside the tower from the cold walls of the tower. This means the impossibility of ice formation on the walls, which, in turn, will lead to a significant increase in the reliability and efficiency of the tower.

Claims (1)

A natural draft tower tower comprising an open hollow tower located above the drainage basin, a water distribution system, chilled water sprinklers, evaporators and air inlets made at the base of the tower, characterized in that there are additional air inlets along the perimeter of the upper part of the tower, and from the outside the sides of the tower are gas-tight ducts for supplying air to the additional air inlet windows.