RU853U1 - Fan cooling tower - Google Patents

Abstract

A fan tower comprising a drip tray, water distributor and nozzle, a fan and a moisture collector installed in the housing, characterized in that the blower fan opening is connected to the lower end of the housing by a casing, the axes of which are coaxial, and a convex bottom with nozzles is installed between the casing and the casing, the upper ends of which are plugged and there are openings in the side walls above the bottom, the moisture collector being formed by the body and the peripheral part of the convex bottom.

Description

VYTSTOREA .. DIESEL The invention relates to heat and mass transfer apparatus,

in particular, in cooling towers, and can be used for cooling water in the circulating water supply system.

Known fan cooling tower containing a housing with a horizontal axis of symmetry, in one end of which is installed a blower fan, and in the other end is installed drip catcher. Inside the housing there is a nozzle and a water distributor / I /. The disadvantage of this device is that the water in it moves due to gravitational forces in the vertical plane, and the air moves in the horizontal plane. Due to this, the heat and mass transfer process in such a cooling tower (cross-flow) is worse than in counterflow cooling towers in which air and water move in a vertical plane towards each other

A known cooling tower, selected as a prototype, containing a belt fan mounted in the housing, a drip tray, a water distributor, a nozzle and a tray for collecting chilled liquid / 2 /, A disadvantage of the known device is that the electric fan is constantly in warm and humid (100 $) in the air. This circumstance requires the execution of a fan on an electric drive in a tropical design.

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The objective of the present invention is to provide the device with heat and mass transfer characteristics inherent in counter-flow cooling towers, when removing the electric fan from warm and humid air.

This problem is achieved by the fact that in the fan cooling tower containing installed in the droplet case "trap, water distributor and nozzle, fan and moisture collector, the blower outlet is connected to

the end of the case with a casing, the axes of which are coaxial, and a convex bottom with nozzles is installed between the case and the casing, the upper ends of which are muffled and there are holes in the side racks above the bottom, and the moisture collector has formed the body and the peripheral part of the convex bottom.

A comparable analysis with the prototype allows us to conclude that the inventive fan cooling tower is characterized in that the fan outlet is connected to the lower end of the casing by a casing, the axes of which are connected, and a convex bottom is installed between the casing and the casing, the upper ends of which are muffled in the side there are openings above the bottom, moreover, the moisture collector is formed by the body and the peripheral part of the convex bottom. Thus, the claimed technical solution meets the criterion of novelty. Analysis of known technical solutions (analogues) in the studied area and related areas (air conditioning and humidification, air purification, etc.) allows us to conclude that there are no similar features in

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with significant distinguishing features in the inventive fan cooling tower, and recognize the claimed solution in accordance with the criterion of significant differences.

The invention is illustrated in the drawing, which shows a longitudinal section of a fan cooling tower.

The cooling tower includes a housing I, in which a droplet eliminator 2, a water distributor 3, and a nozzle 4 are placed. The fan 5 is connected to the casing 7 by its injection hole 6, which in turn is connected to the lower end of the casing I. The axisymmetries of the casing I and the casing 7 are coaxial. Between the housing I and the casing 7 there is a convex bottom 8, into which, for example, pipes 9 are inserted by welding.

At the upper ends of the pipes 9, plugs 10 are installed, and in the side walls of the pipes 9 above the bottom there are openings II. The connection of the bottom 8 with the housing I, the nozzles 9 with the bottom 8 and the plugs 10 with the nozzles 9 are hermetic. In the housing I at the junction of it with the bottom 8 there is an opening 12 for draining chilled water. The moisture collector 13 is formed by the housing I and the lepherical part of the bottom 8. The tower stands on the supports 14.

Fan cooling tower operates as follows. A warm rod is fed into the water distributor 3 from the recycled water supply system, which is evenly distributed over the cross section of the housing I and, due to gravitational forces, moves from above to the bottom, passes a nozzle on which it is subjected to intense heat and mass transfer with air pumped by the fan.

Therefore, already cooled water enters the convex bottom 8 and moves to the moisture collector 13, from where it again enters the water recycling system through the opening 12. Air to the nozzle enters through the openings of the II nozzles 9.

The location and number of nozzles 9 is selected from the conditions for creating a uniform field of velocities and air flow over the cross section of the housing I, as well as ensuring minimal loss of pressure of the fan.

The inventive fan cooling tower allows you to remove the fan from warm and humid air while maintaining all the advantages of heat and mass transfer in counterflow cooling towers.

Sources of information:

1. A cooling tower with a fan 06-300 Jf I2.5, perpendicular with a volume of 24 m3, a frame and casing made of alshni-magniad alloys. Standard project 901-6-54, ShchIP, Moscow.

2. The author's certificate of the USSR L 109ShZ, CL F28C 1/00, 1984, Ш & 17 (prototype). BOGUR Ј

(B.I. GURESHCH

Claims (1)

A fan tower comprising a drip tray, water distributor and nozzle, a fan and a moisture collector installed in the housing, characterized in that the blower fan opening is connected to the lower end of the housing by a casing, the axes of which are coaxial, and a convex bottom with nozzles is installed between the casing and the casing, the upper ends of which are plugged and there are openings in the side walls above the bottom, the moisture collector being formed by the body and the peripheral part of the convex bottom.