SU866352A1 - Air moistening device - Google Patents

Description

(54) DEVICE FOR MOISTENING AIR

Claims (2)

The invention relates to air conditioning and can be used for heat and air conditioning. A device for humidifying air is known, comprising a water atomizer connected to a water main, located at the base of a diffuser connected to a cylindrical collector located under it, in which axial impeller II is installed. However, in the known device, the air flow blown by the fan does not meet the sprayed water, i.e., over the entire cross section of the diffuser base. part of the air passes, without contact with water, to the heat exchange sections, as a result of such uneven moistening, the efficiency of moistening decreases. In addition, the known device is not reliable in operation, since during operation the mechanical nozzle of thin cutting, despite the presence of filters, is often clogged with corrosion products, salt deposits. The purpose of the invention is to increase the efficiency of air humidification and reliability of operation. This is achieved by the fact that the nebulizer is made in the form of two coaxially arranged cylindrical tanks for water and air, to the latter of which an air line is connected, the tanks being provided with interconnected air and water nozzles arranged in a checkerboard pattern and each water nozzle has a casing, hermetically attached at one end to the container, and its other end is provided with a tip c. a hole located in the plane of the end of the water pipe. At the end of which water nozzle can be installed sleeve. The device can be equipped with an additional spray gun connected to the air line and located under the impeller, and the cylindrical collector in the lower part has an annular trough connected to the additional spray gun. FIG. 1 shows a device for humidifying air in a cooling air cooler; in fig. 2 shows the design of a spray gun made in the form of two coaxially arranged cylindrical cylinders for water and for air; in fig. 3 - the node L in FIG. 2. A device for humidifying air in an air-cooling apparatus contains a water sprayer 1 connected to a water line, made in the form of two coaxially arranged cylindrical tanks 2 and 3, respectively, for water and air, placed at the base of the diffuser 4 connected to a cylindrical located below a collector 5 in which an axial impeller 6 is installed. An air line 7 is connected to the air tank 3, and both tanks 3 and 2 are equipped with interconnected air and water nozzles 8 and 9, respectively, located in a checkerboard pattern, and each water pipe 9 has a casing .10, hermetically attached at one end to the container 2, and the other end is equipped with a tip 11 with a hole 12 located in the plane of the end of the water pipe 9. At the end of each water pipe 9, a sleeve 13 is installed. The device is equipped with an additional spray gun 14 connected to the air line 7 and located under the impeller 6, and the cylindrical collector 5 in the lower part has an annular groove 15 connected to an additional aspirator 14 by means of a tube 16. The air nozzle 8 is connected to the casing 10 of the water nozzle 9 by means of a flexible hose 17. The air line 7 by tube 18 to the valve 19 is connected to capacity 2 and by tube 20 to an additional sprayer 14. Moistened air enters the heat exchange Section 21 A device for humidifying air in an air-cooling apparatus operates as follows. In the water tank 2, water enters the water line 1 and is uniformly distributed over all water nozzles 9, whose diameter is 3-6 mm, which prevents the risk of their clogging. Via the air line 7, air is supplied to the tank 3 and through the pipes 8 and flexible hoses 17, it enters the casing 10 of the water pipe 9. Flowing the sleeve 13 and the outlet from the hole 12, the air breaks the water stream flowing from the pipe 9 to form a fine torch . The presence of the sleeve avoids the turbulence of the air flow in front of the hole 12, smoothly changing the cross section for the air flow. This reduces the pressure drop and reduces the energy costs of spraying the liquid. The number of nozzles 9 depends on the amount of water sprayed. The length of the plume with this method of spraying is 1.52.5 m. The arrangement of the pipe 9 in a checkerboard pattern allows to obtain a continuous layer of sprayed liquid through which the air blown by the axial impeller 6 passes; The water flow is controlled by supplying air through pipe 18 and valve 19 to reservoir 2 to create an overpressure above the surface of the water. The higher the pressure, the greater the water flow and vice versa. The passage of the LAYER to the finely sprayed water with the air flow injected by the impeller b contacts the surface of the droplets and evaporates the water. At the same time, the flow is evenly moistened and enters the heat exchange sections 21. During certain periods of operation, it is possible that the ambient air temperature and part of the water will drop dramatically, not having time to evaporate, be separated on the walls of the diffuser 4 and the collector 5, and drain into the chute 15. From here through the pipe 16 comes to an additional sprayer 14, where it is sprayed with air coming from the air line 7 through pipe 20. This sprayed water is mixed with the air flow sucked in by the impeller 6. Thus, a second air moistening zone is created. ear flow in front of the impeller 6, which ultimately eliminates the loss of water. Such an embodiment of the air humidification device makes it possible to increase the contact surface of the water being rationed with the air flow, since when spraying water a continuous layer of fine water is formed, which fills the entire cross section of the diffuser. Claim 1. Device for humidifying air, mainly in air-cooled apparatuses, containing a water dispenser connected to a water line, located at the base of a diffuser connected to a cylindrical collector located under it, in which an axial impeller is installed This is so that, in order to increase the efficiency of air humidification and reliability of operation, the sprayer is made in the form of two coaxially arranged cylindrical tanks for water and air, to the last of which x is connected an air line, wherein the container is provided with connected water chambers and air nozzles arranged in staggered and kazh