SU1760292A1 - Cooling tower - Google Patents

Abstract

Usage: power system, devices for cooling the circulating water. SUMMARY OF THE INVENTION: The cooling tower comprises an exhaust tower 1 with air inlet windows 2 in which a heat exchanger 3 is installed in the form of silver pipes in which cooled circulating water circulates. In the tower 1, a wind turbine 5 is installed, which is kinematically connected to a heat-insulated two-stage compressor 10, in which warm air is compressed and 1 h is removed to the consumer. n f-ly, 1 ill.

Description

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The invention relates to the power industry, in particular to circulating water chillers, and can also be used in the chemical and metallurgical industry,

A known cooling tower comprising a housing with air inlets, a closed drainage basin with a condensation section, advanced heat exchange tubes installed in the air inlets, and a sheet with openings for pipes 1 horizontally mounted above the pool.

The main disadvantage of such a cooling tower is that a large amount of heat is emitted into the atmosphere along with the cooling air, which leads to the loss of thermal energy obtained from burning fuel and the deterioration of the ecological situation in the vicinity of the cooling tower.

The closest to the technical essence and the achieved effect to the invention is a cooling tower, containing a exhaust tower with air inlet windows in the lower part, a heat exchange device placed in the windows, a wind turbine installed in the tower, connected to a mechanical energy converter 2.

The main disadvantage of the known cooling tower is the low degree of utilization of the heat removed from the cooling tower.

The aim of the invention is to increase the efficiency of heat utilization when the cooling tower is dry.

The goal is achieved by the fact that in a cooling tower containing an exhaust tower with air inlet windows in the lower part, a heat exchange device placed in the windows, a wind turbine installed in the tower, connected to a mechanical energy converter, the converter is designed as a heat-insulated centrifugal compressor with at least two stages input pipeXJ

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a pipe installed under a wind turbine, and an outlet pipe connected to the input bypass line with shut-off valves. In addition, the cooling tower can be equipped with additional air windows, made in the wall of the tower above the wind turbine and fitted with tangential plates on the edges.

The drawing shows a cooling tower, a general view.

The cooling tower contains exhaust tower 1 with air inlet windows 2. In windows 2, there is a heat exchange device 3 in the form of finned tubes in which cooled water circulates. In tower 1, a wind turbine 5 is installed on the overpass 4, consisting of a streamlined conical drum 6 and blades 7. The wind turbine 5 is connected via a shaft 8, gear 9 to a mechanical energy converter made in at least two-stage video compressor 10. buffer tank 12 is connected to the first stage of the compressor 10. The output pipe 13 with a check valve 14 is connected to the consumer and an additional pipe 15 with stop valves 16 to the inlet pipe wire 11. In the wall of the tower 1 above the wind turbine 5 additional air inlet windows 17 are made with tangential plates 18 on the edges. To the compressor 10 through the coupling 19 is connected to the electric motor 20.

The water to be cooled is supplied to the pipes of the heat exchange device 3. The air passes through the windows 2 into the tower, causes the wind turbine 5 to rotate, which causes the two-stage compressor 10 to rotate. The compressor takes warm air from the space under the wind turbine 5, sequentially compresses it in the heated steps and through the pipeline 13 pumps the consumer. To compensate for the air flow through the windows 17, outside air enters, which, twisting the plates 18, ensures optimum operation.

wind turbine 5. During the start-up period of the wind turbine, the electric motor 20 is turned on. When starting the compressor 10, open the valve 16, connect the pipes 11 and 13, than unload the compressor 10 and reduce the starting torque of the wind turbine 5.

Claims (2)

1. Gradient cooling tower a tower with air inlet windows in the lower part, a heat exchanger installed in the windows, a wind turbine installed in the tower, connected to a mechanical energy converter, so that, in order to increase the heat recovery efficiency when performing a cooling tower, the converter is it is executed in the form of the heatisolated centrifugal compressor, at least two-stage, with an inlet pipe installed under the wind turbine, and an outlet pipe connected to the inlet bypass line with shut-off valves. 2. The cooling tower according to claim 1, of which is equipped with additional air inlet windows made in the wall of the tower above the wind turbine and fitted with tangential plates on edges. 18