SU435442A1 - CROWN - Google Patents

Description

one

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

Cooling towers are known, containing a tower, on the side surface of which are air inlet windows with water nozzles for ejection of cooling air.

However, in known cooling towers, a drainage batch is provided to create a natural thrust, which leads to a decrease in the relative phase velocity at the entrance to the apparatus and, consequently, to a decrease in the ejection coefficients.

To increase the intensity of cooling and reduce the dimensions in the windows, louvrers inclined inside the cooling tower are installed, forming channels located by the Rus, and the nozzles are placed in front of the inlet necks, the nozzles being centrifugal-jet.

The drawing shows (schematically) the proposed cooling tower.

The cooling tower contains a tower 1 having a trapezoid in cross section. On the side of the tower there are air inlets, in which louvers 2 tilted inside the cooling tower are installed, forming rectangular channels 3. Collectors 4 are located in front of the inlet openings of channels 3 for supplying cooled liquid. The centrifugal-jet nozzles 5, with a uniform filling of the spray cone, are arranged in a shakhmatny order.

At the bottom of the cooling tower is a reservoir 6 for collecting chilled water.

The cooling air is ejected by the supplied water. First, in the channels formed by the louvers, and then in the batch there is a heat and mass transfer between the air and the cooled water.

The use of centrifugal jet nozzles with uniform filling of the plume allows to obtain high ejection coefficients. The separation of moisture from the air takes place in

Trapezoidal tower 1 due to a gradual decrease in air velocity at the outlet.

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Subject invention

Claims (2)

1. A cooling tower containing a tower, on the side surface of which there are air inlets with water nozzles for Cooling air ventilators, characterized in that, in order to increase the cooling intensity and reduce the overall dimensions, in the windows there are installed inner-tilted louver towers, forming channels located in rus, and the nozzles are located in front of the inlet necks. 2. The cooling tower according to claim 1, characterized in that the nozzles are centrifugal.