RU2008598C1 - Water cooler - Google Patents

Abstract

FIELD: thermal engineering. SUBSTANCE: water cooler has case 1 with air admission ports 2, water pool 3 with horizontal sheet 4, finned heat pipes 6. Additional sheet 11 with radial barriers is placed under main sheet 4. Sheet 11 is inclined from periphery to center. It is provided with holes whose diameter is larger than that of holes 5. Outlet section of headrace piping 9 is located between sheets 4 and 11. EFFECT: improved design. 3 dwg

Description

 The invention relates to a power system, in particular, to a device for cooling circulating water at power plants and industrial enterprises, namely, to designs of water coolers with heat pipes.

 A known water cooler comprising a housing with air inlet windows, a drainage basin in the lower part of the housing, a horizontal sheet with holes located in the basin, heat finned tubes installed in the latter, inlet and outlet pipelines and a partition in the pool, directs the cooled water in a spiral.

 The disadvantage of this design is the decrease in cooling efficiency, since the cooled water washes the evaporative sections of the heat pipes along the water in a spiral that has an ever lower temperature as a result of successive cooling of the water, which leads to a decrease in heat transfer intensification along the water and, approaching the central part heat transfer slows down.

 The aim of the invention is to increase the cooling efficiency.

 This is achieved by the fact that the water cooler comprising a casing with air inlet windows, a drainage basin in the lower part of the casing, a horizontal sheet with holes in the pool, heat finned tubes installed in the latter, and supply and outlet pipelines according to the invention is provided with an additional sheet with radial partitions, installed under the main, made with a slope from the periphery to the center and with openings of the main sheet, made with diameters exceeding the diameters of the latter, while the lower seedlings heat pipes are installed in the openings are fixed to them additional sheet specified radial partitions, and the output portion of the metering line is situated between the sheets.

 In FIG. 1 shows a water cooler along a longitudinal section; in FIG. 2 - sections aa and bb in FIG. 1; in FIG. 3 - fragment of the fastening of heat pipes to the lower floor.

 The water cooler comprises a housing 1, air inlets 2, a drainage basin 3, a horizontal sheet 4, openings 5, heat pipes 6, evaporation sections 7 of the heat pipes 6, finned condensation sections 8 of the heat pipes 6, a supply pipe 9, a discharge pipe 10, an additional sheet 11 , holes 12, radial partitions 13, an annular gap 14 between the heat pipe 6 and the hole 12, an annular distribution manifold 15, water distribution pipes 16.

 In the water cooler, the drainage basin 3 is closed by a horizontal sheet 4 with holes 5 of diameter d, into which heat pipes 6 are inserted, the evaporation sections 7 of which are above the water in the basin 3, and the finned condensation sections 8 are above the sheet 4 above the tower 1 at the height of the air inlet windows 2 Under the sheet 4 is an additional sheet 11 having a slope towards the center with holes 12 with a diameter D of a larger diameter d of the holes 5 and coaxial with each other. The edges of the holes 5 are provided with radial partitions 13, which, when the evaporation sections 7 of the heat pipes 6 are introduced, provide a uniform annular gap 14 between the heat pipe 6 and the edges of the hole 12, and, moreover, the heat pipes 6 are held tightly by the holes 5 of diameter d in the top sheet 4 , as well as radial partitions 13 in the holes 12 with a diameter of D. The sheet 11, when executed by a circular precast, consists of separate sectors. In the interval between sheets 4 and 11, the outlet section of the supply pipe 9 is introduced and connected to the annular distribution manifold 15 with water distribution pipes 15 evenly mounted on it.

During the operation of the water cooler, the cooled water from the supply pipe 9 is supplied to the annular distribution manifold 15 and, under the influence of pressure, is ejected by the water distribution pipes 16 onto the inclined sheet 11. The cooled water flowing down the inclined surface enters the annular gaps 14 around the heat pipes 6 and washes the walls of the evaporation sections 7, which simultaneously remove heat from the flowing film of water. The selected heat of the water is transferred by the intermediate heat carrier of the heat pipes 6 to the finned condensation sections 8, blown by the external air flows entering the housing 1 through the air inlets 2. At the same time, irrigation of the evaporated sections 7 of the heat pipes 6 with water-cooled ensures an efficient heat transfer process. (56) Copyright certificate of the USSR
N 1451516, CL F 28 C 1/00, 1987.

Claims (1)

 WATER COOLER, comprising a casing with air inlet windows, a drainage basin in the lower part of the casing, a horizontal sheet with holes in the pool, heat finned tubes installed in the latter, inlet and outlet pipelines, characterized in that, in order to increase cooling efficiency, the cooler is provided with an additional sheet with radial partitions installed under the main and made with a slope from the periphery to the center, and with holes, coaxial holes of the main sheet, made with a diameter ramie exceeding last diameters, with the lower ends of the heat pipes are installed in the openings of the further sheet and the said radial partitions are fixed, and the output portion of the metering line is situated between the sheets.

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