SU1548634A1 - Cooling tower - Google Patents

Abstract

The invention relates to a power system and allows to increase cooling efficiency and reliability of the cooling tower operation by adjusting the heat output depending on the outdoor temperature. The cooling tower contains a tower 1 with air inlet windows 2 with pivoting shields 3. The sprinkler is divided by vertical partitions 4 into a central 5 and a peripheral 6 section (CS) and (PS). In winter time, the heated water enters the CS of the sprinkler, and the air through the intake pipes 14 enters the CS of the sprinkler and is removed by the fan 18, moving through the PS and the water trap 17. Thanks to the continuous flow of water and air in the CS, increased thermal and hydraulic loads as well as by heating the CA with heated air passing through the PS, the freezing of the irrigator is excluded. When the outdoor temperature is below 0 ° C, but above the calculated winter temperature, the water is heated at the same time to the CS and the PS, and the air passes successively to the air intake pipes, the CS, the PS and the water trap. Depending on the outdoor temperature, the flow of water to the CS and PS is regulated in such a way as to eliminate the risk of frosting on the irrigator with high cooling efficiency. In summertime, the heated water is supplied to the CS and PS, and the air passes successively through air outlets 2, the irrigators CS and PS, the water trap 17 and with the help of a fan 18 is discharged into the atmosphere. 2 Il.

Description

partitions 4 to the central 5 and peripheral 6 sections (CS) and (PS). In winter, the heated water enters the CS of the sprinkler, and the air through the intake pipes 14 enters the CS of the sprinkler and is removed by the fan 18, moving through the PS and the water trap 17 "Thanks to the continuous flow of water and air in the CS, increased thermal and hydraulic loads as well as by heating the CA with heated air passing through the PS, the freezing of the irrigator is excluded. When the outdoor temperature is below 0 ° C, but above the calculated winter temperature, the

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This water is supplied simultaneously to the CS of the PS, and the air passes successively to the air intake nozzles, CSE NS and water trap. Depending on the outdoor temperature, the flow of water to the CS and PS is regulated so that the freezing capacity of the irrigator is eliminated with high cooling efficiency. In summertime, the heated water is supplied to the CS and PS, and the air passes through the air inlet windows 2, the irrigators CS and PS, the water trap 17, and with the help of the I8 fan is discharged into the atmosphere. 2 Il.

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

The aim of the invention is to increase cooling efficiency and reliability by adjusting the heating capacity and the dependence on the outdoor temperature. FIG. 1 shows a cooling tower when operating in the winter and transition periods in FIG. 2 - the same in the summer.

The cooling tower contains a tower 1 with air-borne windows 2, equipped with pivoting shields 3. The pipelines 9 and 10 are equipped with valves 12 and 13, air intake pipes 14, installed above the water distributors 7 and 8, are connected to the central unit 5 of the irrigator, in addition, check valves 15 and 16 are located in the inlet air inlets 14 and in the upper part of the central unit 5 of the irrigator. “In the upper part of the tower 1, the water-blower 17 and the fan 18 are installed, and in the lower part of the drainage basin 19

The cooling tower works as follows

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In winter, the valve 13 is closed and the water is completely heated from the collector 11 through the open valve 12 and the pipe 9 enters the water distributor 7, and from there into the central section 5 of the irrigator, where it cools and flows into the catchment 19. Outside air with negative temperature through the air inlets 14, with the valves 15 and valves 16 closed, enters the central section 5 of the irrigator, where it cools the water, moving downwards directly with it.

Then the flow of heated air is rotated 180 ° and moves up through the peripheral section 6 of the irrigator, the water trap 17 and the fan 18 is emitted into the atmosphere. Swivel shields 3 are closed in winter.

Thanks to the operation of the central section 5 of the irrigator in wintertime with increased thermal and hydraulic load, as well as due to the direct flow of air and water in the central section 5 of the irrigator and the heated central section 5 of the irrigator with heated air moving through the peripheral section 6 of the irrigator and washing the partition walls 4, freezing of irrigation in winter time is excluded.

During the transitional periods of the year (autumn and spring), when the outside air temperature is below 0 ° C, but above the calculated winter temperature, and the surface of the central section 5 of the irrigator is not sufficient to cool the water, part of the heated water through the open valve 13, pipeline 10 and the water distributor 8 on the peripheral section 6 of the irrigator, where it is cooled by moving upward after the central section 5 of the irrigator with air — by lowering the outdoor air temperature, the flow of water through the peripheral section 6 of the irrigator is reduced and upon reaching the etnoy winter temperature it stops completely.

In summertime, the valves 12 and 13, the rotary shields 3 and the shut-off valves 16 are open, and the shut-off valves 15 are closed. The heated water enters both the central 5 and the peripheral 6 of the irrigator 6, where it is cooled by the outside air coming in through the open air inlet windows 2 and moving in both sections of the irrigator countercurrent water.

Thus, the proposed technical solution allows to increase the cooling efficiency and reliability of operation by adjusting the thermal performance depending on the outdoor temperature. Wherein

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a positive effect is achieved in winter, as well as in spring and autumn at negative outdoor temperatures, when freezing of irrigation is avoided with high cooling efficiency.

Claims (1)

Invention Formula A cooling tower containing a tower with airborne windows with pivoting shields, a sprinkler divided by vertical partitions into the central and peripheral sections with water distributors installed above them, a water trap and a drainage basin, which in order to improve cooling efficiency and reliability by control of heat output depending on the outside air temperature, it is additionally equipped with air inlets connected to the central section of the irrigator and installed above the water distributors, with shut-off valves additionally located in the air intake nozzles and in the upper part of the central section of the irrigator. FIG. 2