RU2183005C1 - Spray-type cooling tower - Google Patents

Abstract

FIELD: contact coolers, in particular, mechanical-draft towers, applicable in chimney-type spray-type cooling towers. SUBSTANCE: the spray-type cooling tower has a body with air-intake ports in the lower part, water-distributing system with injectors located symmetrically to the longitudinal axis of the stack, catchment basin positioned under the cooling tower body, exhaust system made as a fan and located above the body, watercatching device, besides, the cooling tower has a drip-entrapping device in the form of a spatial construction located from the upper boundary of the air-intake ports at a distance of +-0.1h, where h - the height of the airintake port, the height of the drip-entraping device with relation to the height of the air-intake port makes up at least 0.01h, in the water-distributing system the injectors are directed with the outlets upwards, the drip- entrapping device may be made of wooden strips, plastic or asbestos cement. EFFECT: enhanced intensity of cooling of circulating water with atmospheric air. 4 cl, 1 dwg

Description

 The invention relates to contact coolers, in particular to fan cooling towers, and can be used on tower type spray towers.

 Known fan tower containing installed in the housing drip tray, water distribution pipelines with spray nozzles, a drainage tank. Pipelines are installed in the tower casing in a tiered fashion, with each tier placed along the perimeter of the casing, and the spray nozzles with their outlet openings facing the central zone of the cooling tower (see USSR author's certificate 1071915, IPC F 28 C 1/00, 1984).

 The disadvantage of the analogue is the uneven irrigation of the useful area of the cooling tower and high-speed zero air flow.

 Closest to the claimed invention by the set of essential features is a spray tower containing a housing with air inlets in the lower part, a water distribution system with nozzles located in the upper part of the housing symmetrically to the longitudinal axis of the exhaust tower, a catchment basin located under the housing, an exhaust device made in in the form of a fan, a water trap (see RF patent 2103625, IPC F 28 C 1/00, 1998).

 The disadvantage of this tower is the presence of a significant drop rate of the droplet flow, especially in the area of the air distribution space.

 The technical result of the invention is to increase the intensity of cooling of hot circulating water with atmospheric air.

 The technical result is achieved by the fact that the spray tower contains a housing with air inlets in the lower part, a water distribution system with nozzles located symmetrically to the longitudinal axis of the exhaust tower, a drainage basin located under the cooling tower housing, an exhaust device made in the form of a fan and located above the housing, water recovery the device, in addition, the droplet-holding device is additionally installed in the form of a spatial structure and located from the upper boundary of the air ear windows at a distance of ± 0.1h, where h is the height of the air inlet window, and the height of the droplet-retaining device with respect to the height of the air-inlet window is at least 0.01h, in the water distribution system the nozzles are directed with the outlet openings upward, the droplet-holding device can be made of wooden slats , plastic or asbestos cement.

 The drawing shows a longitudinal section of a spray tower.

 The spray tower comprises a housing 1 with air inlets 2 in the lower part, a water distribution system 3 with nozzles 4 directed upward and located symmetrically to the longitudinal axis of the exhaust tower, a drainage basin 5 located under the housing 1, an exhaust device located above the housing 1 and made in the form of a fan 6 with confuser and diffuser rings 7 and 8, respectively, a water trap device 9 installed between the water distribution system 3 and confuser ring 7. Toyan ± 0,1 h from the upper limit air-intake windows 2 taken kaplezaderzhivayuschee device (PUV) 10. PUV height relative to the height of air-intake windows is not less than 0,01h.

 Spray tower works as follows. The fan 6 carries out air suction through the air inlet windows 2. Once in the area occupied by the KZU 10, the air flow equalizes its velocity field and is evenly distributed over the KZU throughout the entire useful area of the housing 1. Next, the air is directed through a water distribution system 3 equipped with nozzles 4, a water trap 9, a confuser shell 7, a fan 6, and through a diffuser shell 8 are discharged into the atmosphere.

 Through the water distribution system 3, hot water is supplied, which is sprayed by the directed outlet openings upward by the nozzles 4 into the flow of cold air coming from below. When this happens, the water is cooled, which in the form of a droplet stream enters the KZU 10. Here, additional spraying of water occurs, the drop of the droplet stream slows down, thereby increasing the residence time of the aqueous droplet stream in the air.

 Hence, the main purpose of KZU 10 is to delay the droplet stream falling into the catchment basin 5, to additionally spray the droplets, which ultimately increases the residence time of the droplet stream in the air stream. At the same time, KZU 10 works as an additional resistance to air, which makes it possible to equalize the velocity field of the air flow and, thereby, increase the cooling ability of the spray tower.

 Due to the droplet-holding device having a relatively low aerodynamic drag and having a limited height, the efficiency of the spray tower is significantly increased. KZU can be successfully used not only for fan cooling towers, but also for tower type spray cooling towers.

Claims (4)

 1. A spray tower comprising a housing with air inlet windows at the bottom, a water distribution system with nozzles located symmetrically to the longitudinal axis of the exhaust tower, a catchment basin located under the cooling tower housing, an exhaust device made in the form of a fan and located above the housing, a water recovery device, characterized the fact that they additionally install a droplet-retaining device in the form of a spatial structure located at a distance from the upper boundary of the air intake windows ± 0.1h, where h is the height of the air inlet window, and the height of the droplet-retaining device with respect to the height of the air inlet window is at least 0.01h, and in the water distribution system the nozzles are directed with the outlet openings upward.  2. The spray tower according to claim 1, characterized in that the droplet-holding device is made of wooden battens.  3. The spray tower according to claim 1, characterized in that the drip-holding device is made of plastic.  4. The spray tower according to claim 1, characterized in that the droplet-holding device is made of asbestos cement.