RU2464513C1 - Cooling tower - Google Patents

Abstract

FIELD: power engineering.

SUBSTANCE: cooling tower comprises a tower, on the side surface of which there are air inlet windows with nozzles to eject cooling air. In windows there are louvers installed as inclined inside the cooling tower, forming channels arranged in tiers, and nozzles are made in the form of a body, inside of which there is a cylindrical hole changing into a diffuser, at the end of which via a seal there is a spray disc mounted.

EFFECT: cooling tower performance improvement.

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Description

The invention relates to contact coolers, in particular to cooling towers, and can be used at thermal power plants for cooling circulating water.

The closest invention to the claimed object is a cooling tower according to the patent of Russian Federation No. 2409797, С02В 1/10, containing a tower, on the lateral surface of which there are air inlets with nozzles for ejecting cooling air, and the windows have louvres tilted into the cooling tower, forming channels arranged in tiers, and nozzles are placed in front of the inlet necks of the latter (prototype).

The disadvantage of the cooling tower is the relatively low efficiency due to the low degree of atomization of the liquid nozzles.

The technical result is an increase in the performance of the tower.

This is achieved by the fact that in the cooling tower containing the tower, on the side surface of which there are air inlet windows with nozzles for ejecting cooling air, moreover, the windows have louvres tilted inward of the cooling tower, forming channels arranged in tiers, and the nozzles are made in the form of a housing inside which a cylindrical a hole passing into the diffuser, at the end of which a spray disk is mounted through the seal.

Figure 1 shows a diagram of a cooling tower, figure 2 is a General view of the nozzle for spraying liquid.

The tower contains a tower 1 with a bath 6 for collecting liquid, having a trapezoid in cross section. On the side surface of the tower there are air inlets in which the louvers 2, inclined into the cooling tower, are installed, forming rectangular channels 3. In front of the inlet necks of the channels 3, collectors 4 are placed for supplying cooled liquid through the nozzles 5.

The nozzle (figure 2) consists of a housing 7, inside which a cylindrical hole 8 is made, passing into a diffuser 9, at the end of which a spray disk 11 is mounted through the seal 12. A nut 10 is used to fasten the disk 11 through the gasket 12.

The cooling tower works as follows.

The cooling air is ejected by the supplied water, first in the channels formed by the blinds 2, and then in the tower 1, heat and mass transfer occurs between the air and the cooled water. The use of nozzles 5 with a uniform spray of liquid allows to obtain high ejection coefficients. The separation of moisture from the air takes place in a trapezoidal tower 1 due to a gradual decrease in the air velocity at the outlet.

The nozzle for spraying liquids is as follows.

The fluid is supplied through a cylindrical hole 8 into the diffuser 9, and is sprayed from it through the spray disk 11. With an average diameter of the throttle holes in the disk 11, which is in the range 2.5 ... 3.5 mm, and the pressure supplied through the cylindrical hole 8 of the liquid 6 ... 9 MPa provides spraying from 400 to 1000 kg / h of liquid. The nozzle is easy to manufacture and maintain.

Claims (1)

A cooling tower comprising a tower, on the lateral surface of which there are air inlet windows with nozzles for ejecting cooling air, moreover, the windows have louvres tilted into the cooling tower, forming channels arranged in tiers, and the nozzles are placed in front of the inlet necks of the latter, characterized in that the nozzles are made in the form of a housing inside which a cylindrical hole is made, passing into a diffuser, at the end of which a spray disk is mounted through the seal.

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