RU170788U1 - AIR COOLING UNIT - Google Patents

Abstract

The utility model relates to the field of energy, specifically to heat exchangers.

The air-cooling apparatus consists of several heat-exchange sections with an upper fan mounted on metal structures, characterized in that part of the sections located inside the air-cooling device is installed on metal structures of lower height than the section located on the periphery of the air-cooling device.

Such a technical solution will allow for higher heat removal and efficiency of the air cooling apparatus while reducing the size and weight of the supporting metal structures.

Description

The utility model relates to the field of energy, specifically to heat exchangers.

Known designs of air cooling apparatuses in systems of power plants, gas pumping and petrochemicals, consisting of the same sections with an air fan installed under a heat exchange surface (see the nomenclature catalog "Air Cooling Apparatus", "TsNO-Himmash", p. 3-8).

The disadvantage of these devices in the reduced heat removal due to the uneven distribution of air in the section over the surface of the heat exchangers during operation of the blower fan.

Known air coolers, consisting of sections of the same type with an upper fan and a V-shaped arrangement of heat exchange modules, provide a uniform distribution of air flow over the surface of the heat exchange surface (see Milman O.O., Ananiev P.A. “Dry cooling towers and air condensing units ”, Thermal Power Engineering, 2016, No. 2, p. 7-9).

The disadvantage of these installations is the reduction in heat removal due to the uneven distribution of air between the sections as it moves in the space between the earth's surface and the entrance to the heat exchange sections and, as a consequence, the need to raise the sections to a greater height due to an increase in the size of metal structures.

The elimination of these disadvantages is possible if the heat exchange sections with the upper fan are installed at different heights so that the inner sections are placed below the outer ones.

The design of such an air-cooling apparatus is shown in Fig. 1. The air-cooling apparatus consists of heat-exchange sections with a fan 1 located on the periphery and sections 2 located inside the apparatus mounted on metal structures 3 and 4 of different heights, so that the cross section for the passage of air 2 is less than cross-section 1.

The air cooling apparatus operates as follows.

Cooling air enters the space between the surface of the earth and the upper marks of the sections 1 located on the periphery of the air cooling apparatus and mounted on the metal structures 3, and is partially sucked off by the fans of these apparatuses. The remaining cooling air is sucked out by fans of section 2 located inside the air-cooling apparatus on the metal structure 4. Moreover, due to the smaller dimensions of section II than section I, and the lower air consumption in section II than in section I, its speed will be approximately constant, and the distribution between sections 1 and sections 2 and heat removal will be evenly distributed.

Such a technical solution will allow for higher heat removal and the efficiency of the air cooling apparatus while reducing the size and mass of the supporting metal structures.

Claims (1)

An air cooling apparatus, consisting of several heat exchange sections with an upper fan located on metal structures, characterized in that part of the sections located inside the air cooling device is installed on metal structures of lower height than the section located on the periphery of the air cooling device.

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