SU1158845A1 - Cooling tower - Google Patents

Abstract

TOWER, containing exhaust tower with air inlet windows, made on the ring in its lower part, placed in the tower above the windows sprinkler with water distribution system and water jet ejectors connected to the water distribution collector, so as to intensify the cooling of the fluid, The ejectors are installed in the central zone of the cooling tower, bounded with a diameter equal to 0.20, 25 diameters of the irrigator, and the output ends face the irrigator, and the distribution rooms collector is located inside the tower. SO with

Description

01

00 00 1. The invention relates to a power system, in particular to evaporator chillers, and can be applied to heat boilers and nuclear power plants, as well as to other industrial facilities where cooling of water or other liquids is required. The purpose of the invention is to intensify the cooling of the liquid. FIG. 1 schematically shows a cooling tower, a longitudinal section; in fig. 2 is a section A-A in FIG. 1. The cooling tower contains exhaust tower 1 with air inlet windows 2 filled along the ring in its lower part placed in the tower T above windows 2 irrigator 3 with a water distribution system 4 and water-jet ejectors 5 connected to the water distributing collector 6, and the ejectors 5 are installed in the central cooling tower zone bounded with a diameter equal to 0.2-0.25 diameter of the irrigator 3, and output ends facing the irrigator 3, and the water distribution collector 6 is located inside the tower 1. In addition, the A5 cooling tower contains a catchment basin 7. The cooling tower operates in a way. The cooled water is supplied through the water distribution system 4 to the irrigation unit 3, from where it is discharged into the catchment 7. When the make-up water is supplied through the water distribution manifold 6 to the ejectors 5, the latter suck the air under the mirror of the fluid in the water collection. Basin 7 in the central zone of the cooling tower, bounded with a diameter equal to 0.2-0.25 of the diameter of the irrigator, and the air flow is directed vertically upward into the central zone of the irrigator. In the air intake zone, ejectors 5 form an area with reduced pressure, where air flows through the air inlet windows 2 placed around the ring in the lower part of the tower 1, resulting in forced circulation of air masses without additional energy consumption by using the kinetic energy of water jets.

BUT

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Claims (1)

. A COOLING tower, containing an exhaust tower with air inlets made in a ring in its lower part, a sprinkler with a water distribution system and water-jet ejectors connected to a water distribution manifold located in the tower above the windows, characterized by the fact that, with the aim of intensifying the cooling of the liquid , the ejectors are installed in the central zone of the tower, limited by the diameter equal to 0, ΙΟ, 25 of the diameter of the irrigator, and the outlet ends face the irrigator, and the water-distributing collector is located inside the tower.