SU1091013A1 - Cooling tower with mobile packing - Google Patents

Description

The invention relates to refrigeration and air conditioning, mainly for cooling water in the circulating water supply systems of technological equipment of industrial, agricultural and commercial enterprises. A cooling tower is known, containing a shell with air-guiding windows in the bottom (Parts and supporting grid, a moving nozzle layer and a water distributor, and an air supplying pipe with a perforated section above the nozzle layer tl in the center. The disadvantage of such a device is uneven distribution of the gas flow over the cross section of the apparatus, which reduces the intensity of the heat and mass mass exchange. Also known is the cooling tower with a movable nozzle in the form of spheres, which are regularly installed in the case of a tiller, a louver drip catcher, a water dispenser in the form of nozzles, a support distributor grid in the form of a package installed in parallel at the level of the air inlets of the plates and a pan to collect the cooled liquid 2. The surface of the working area is not involved in the process of heat and mass transfer. The purpose of the invention is to increase the efficiency and reliability of work. This goal is achieved by the fact that in a cooling tower with a movable nozzle in the form of balls containing an exhaust fan torus mounted in a housing, a louver drip catcher, a water distributor in the form of nozzles, a distribution grid in the form of a packet parallel to the plates installed at the level of air inlets and a pan to collect the cooled liquid, the support distribution grid is set relative to the pallet with a gap equal to 1-2 ball diameters, and the distance from the reference distribution grid to the nozzles is is 0.5-1.0 distance from the odds sunok to the housing wall. FIG. 1 schematically shows a cooling tower, a longitudinal section; in fig. - graph of E, versus -h / du where Ej is the specific energy consumption taking into account the total operation of the fan and pump related to one cubic meter of air and the height of the nozzle corresponding to one transfer unit, h is the gap between the water distribution valve, the grid and the pallet d , - diameter of the nozzle (balls); in fig. 3 is a plot of t.-j. and E 07 H / S, where b, is the specific energy consumption taking into account the total work of the fan and pump, related to one cubic meter of air and the height of the nozzle corresponding to one transfer unit, t. - temperature level of circulating water; H is the distance from the support grid to the injectors; S is the distance from nozzles to the housing wall. The cooling tower with a movable nozzle includes a housing 1, inside which the exhaust fan 2, louvered drip catcher 3, the water distributor in the form of nozzles 4, and the distribution grid 5 in parallel installed at the level of the air inlets of the 6 plates and ponddon 7 for collecting the cooled liquid, the reference distribution grid 5 is set at the left of the tray 7 with a gap equal to 1-2 of the diameter of the balls 8 of the movable nozzle The cutting grid 5 to the nozzles is 0.5-1.0 distances from the nozzles 4 to the wall of the housing 1, .... In addition, the cooling tower contains a filter 9 and a float regulator 10 level., The cooling tower operates as follows. Turning on the fan 2 inside the housing 1 creates a directional gas flow, while the gas flow is evenly distributed over the cross section of the distribution grid 5. The gas flow sets in motion the positioned on the reference distribution box-. grid 5, the layer of movable nozzle in the form of balls 8, lift the latter when they randomly move upward until gravitational forces cause balls 8 to go down, after which they are again carried away by the gas flow upwards, ensuring their continuous circulation inside the housing 1 .apparatus. When the fluid is supplied through the nozzles 4, the movable nozzle layer is evenly irrigated, and direct liquid from the nozzles 4 is prevented from falling on the walls of the housing 1, which contributes to the intensification of heat exchange processes. The collection of liquid is carried out in the sump 7, from where it is discharged through the filter 9. Fresh water is supplied by means of a float regulator of level 10, which operates as the water level in the sump 7 decreases. The proposed device will improve the efficiency and reliability of operation.

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Claims (1)

(541 A COOLING TOWER WITH A MOBILE NOZZLE in the form of balls, comprising an exhaust fan, mounted on a belt in the housing, a louvre drip tray, a water distributor in the form of nozzles, a support and distribution grid in the form of a package of plates installed parallel to the level of the air intake windows and a tray for collecting cooled liquid, characterized in that, in order to increase the efficiency and reliability of operation, the support distribution grid is installed relative to the pallet with a gap equal to 1-2 ball diameters, and the distance from the support distribution Call duration lattice to compiled-g injectors is 0.5 - 1.0 of the distance from the nozzles to the shell wall ®.