SU1036299A1 - Green-house-water cooling tower - Google Patents

Abstract

A TOWER HORN-CUTTING ROOM, including an exhaust tower with air intakes around the perimeter, a ring-shaped vestibule with irrigators installed in it and a heated water distribution system, on which are partitioned arched I greenhouses with translucent roofing panels, imitations, and water-dispensing frames. roof, characterized in that, with the aim of improving the microclimate in the arched heat by using the natural draft of the exhaust tower and increasing the efficiency of using low-grade heat sprinklers formed with alternating counterflow GOVERNMENTAL and the tangential and ra1edeleiy peregdrodkami, the tangential sprinklers placed under vodoraopredelitelypymi trays and counterflow - under the arched toplShami wherein in (A semi last vtolneny inflow opening with spaced stoves E in them and in their internal In the upper part, connected to the exhaust tower, exhaust openings are made.

Description

11 The invention relates to agriculture, namely to greenhouses for growing plants, as well as to devices intended for cooling water and using low potential heat. The famous tower cooling tower, including chakntsa. countercurrent and crossflow sprinklers located in the annular vestibule and installed radial air distribution partitions C. A disadvantage of the known cooling tower is the low efficiency of using low-grade waste heat. A greenhouse cooling tower is known, which includes a exhaust tower with air intake holes around the perimeter, an annular vestibule with cross-flow irrigators installed in it and a heated water distribution system on which sectioned cells are located. arched greenhouses with a translucent roof, an irrigation system and water distribution trays placed along the C 2 J roofs. A disadvantage of the known greenhouse is that in order to create internal regulatory parameters of the aircap it is necessary to additionally arrange a general exchange supply and exhaust ventilation with heating of outside air, which is reduced by the cost of capital and operating costs, and the heat released through exhaust air is not used. air tower. The purpose of the invention is to improve the microclimate in arched greenhouses by using natural draft towers and increasing the efficiency of using low-grade heat. I. This goal is achieved by the fact that in a tower greenhouse-cooling tower, including an exhaust tower with air inlets around the perimeter, a ring-shaped vestibule with installed sprinklers and a heated water distribution system on which there are partitioned-end glasses with a translucent roof, irrigation system and water distribution chutes reizmeshnymi along the slopes of the roof, sprinklers discharged, alternate with alternating countercurrent and crossflow and separated by partitions, with cross-flow sprinklers. dispersed under water distribution trays, and countercurrent - under 99 -. arched greenhouses, where the flow openings with air heaters located in them are made in the floor of the latter, and exhaust openings are made in their inner ends connected to the exhaust tower. FIG. 1 shows a greenhouse tower gradient, section; in fig. 2 - the same, top view; in fig. 3 shows section A-A in FIG. 2. A greenhouse contains exhaust tower 1 with air-receiving openings 2 along the perimeter, an annular platform 3, in which the sprinklers are placed, crossflow 4 and countercurrent 5, separated by a partition 6, water distribution system with feedwater 7, water distributor trays 8 and working pipes 9 and 10. Crossflow irrigator 4 is connected to trays 8, and countercurrent irrigator 5 is connected to supplying stand 7. On the circular platform 3 there are partitioned arched greenhouses 11 with transparent roof 12, with irrigation system 13, inlet openings 14, with air jets 15, located in the plane of floor 16, with exhaust pits (17) connected to exhaust tower 1. The irrigation system 13 connects the Sle switch to the delivery drain 7 parallel to the trays 8 located along the roof slopes 12 , and working pipes 1О. The device works as follows. The heated circulating water, for example, after the cooling systems of thermal power plants, enters the greenhouse cooling tower and, using stand 7, is distributed to the irrigation system 13 of the greenhouse 11, into the water distribution trays 8 and directly into the working pipes 10 of the countercurrent sprinkler 5. From the system 13 The irrigated water is evenly distributed over the translucent roof 12, flows through it in a thin layer and enters the trays 8. This heats the greenhouse 11, reduces its heat flow through the roof 12, and at the same time cools heated circulating water. The water flowing down the roof 12 is displaced in trays 8 with a heated circulating warmer, which flows directly into the SHS lot 8 from the delivery stand 7 - and is distributed by means of the working pipes 9 to the cross-flow sprinkler 4. The rest of the heated air flows from. The stand 7 to the working tubes of the rao is repaired by the countercurrent op 5,. The supply air entering the central stage of the heated circulating warhead in ring 3, due to the gravitational pressure generated by the exhaust tower 1, is divided into two streams by partitions 6. Part of the air. ha enters the cross-flow sprinklers 4 and, when heated, is removed through the air-flow dark openings 2 of the exhaust tower 1. Another part of the air enters the counter-flowing sprinklers 5, being drained through the supply openings 14, is sucked into the greenhouse 11. The air from the greenhouse 11 is removed after due to the natural thrust generated by the exhaust tower through exhaust openings 17. 1l of maintaining the parameter of the air environment at low ambient temperatures, air heaters 15 installed in inlet openings 14 additionally supply thermal energy and In the warm season, hot air heaters 15 are used as additional irrigation devices for cooling} | days of heated circulating water. Thus, in the greenhouse 11, natural air exchange is ensured and the required microclimate is maintained. The use of greenhouse-4 radios of this design eliminates the mechanical supply air and exhaust ventilation of the internal volume of greenhouses and uses the heat of the emitted air, which leads to savings in capital costs, electrical and thermal energy. When the air preheaters are turned on, the power of the heat plume increases and the natural thrust of the exhaust tower increases, the air velocity iB of the irrigation devices increases and, consequently, the heat exchange between the heated water and air increases, i.e. provides deeper water cooling. At the same time, air from the cooling tower is emitted more drained and fogging in the zone of action of the cooling systems is reduced.

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Claims (1)

TOWER GREENHOUSE, including a draft tower with perimeter air inlets, an annular vestibule with sprinklers installed in it and a heated water distribution system, on which sectional arched I greenhouses with a translucent® roof, an irrigation system and water distribution trays located along roof, characterized in that, in order to improve the microclimate in arched greenhouses through the use of natural traction of the exhaust tower and increase the efficiency of use of low of potential heat, sprinklers are alternated with countercurrent and cross-flow and separated by partitions, while cross-flow sprinklers are placed under water distribution trays, and counter-current sprinklers are located under arched greenhouses ^ and in the floor of the latter there are supply air openings with air heaters located in them, and in their internal the ends connected to the exhaust tower, exhaust openings are made. •