SU792064A2 - Water cooling tower - Google Patents

Description

54) CROWN

The invention relates to contact apparatuses, in particular to cooling towers, and can be used to cool recycled water. From the main auth. St. No. 600380 is a well-known cooling tower, mainly for compressor stations, containing a cylindrical body with air inlets on the side walls and arranged in the latter in parallel to the ejecting nozzles connected in parallel with the water inlet pipe, where the air inlet channels flj are tangentially fitted to the body. The disadvantage of this cooling tower is that, due to the insignificant speed of the air flow in the lower part of the cooling tower, this part of it is used inefficiently and, as a result, the dimensions of the cooling tower increase. The purpose of the present invention is to reduce the size. This goal is achieved by the fact that the air inlet ducts are made in the form of pipes vertically mounted on the nozzles. FIG. 1 is a schematic representation of a cooling tower, a longitudinal section in FIG. 2 - the same in terms of. On the side walls of the cylindrical body 1 there are air inlet channels 2 connected to tangentially installed nozzles 3. Air inlet channels 2 are made in the form of pipes 4 vertically installed on nozzles 3. Centrifugal ejecting nozzles 6 are connected to the drainage pipe 5 from the bottom of housing 1 for reuse. The cooling tower operates as follows. Oxidized water with a slight pressure is supplied through conduit 5 to the nozzles 6, the outlet of which, it sucks air. The air with water entering tangentially into the housing 1 moves in a vortex. It promotes intensive heat and mass transfer between air and water and cooling of the latter. Whirling movement also contributes to the effective separation of water droplets from the stream. Drops of water hit the walls of housing 1, one part of them flows in the form of a film.

and the other part is crushed and blown away in a vortex flow. Intensive heat and mass transfer also occurs between the water film and the flow. Additional crushing of droplets occurs when they collide with the wall of the pipe 4, i.e. favorable heat transfer conditions are created.

The combined use of the pipes 4 attached to the pipes 3 and the ejector nozzles 6 installed in the pipes makes it possible to significantly increase the amount of sprayed water of the fine fraction and increase the amount of air drawn in, i.e., to increase the thermal performance, and therefore reduce

dimensions, cost, and labor intensity of the manufacture of a cooling tower.

Claims (1)

1. USSR author's certificate 15 f 600380, cl. F 28 C 1/00, 1973, 2 3