RU2099662C1 - Water-cooling tower - Google Patents

Abstract

FIELD: power engineering, contact heat-exchange apparatuses, applicable for cooling of circulating water. SUBSTANCE: water-cooling tower has a vertical tower with an air intake opening, reservoir for collection of cooled water and a water distribution system, which uses a ring water-supply manifold with radial pipe connections installed with an inclination from the center to the periphery, and stepwise arranged injectors whose nozzles are oriented to the center of the tower at different angles to the horizontal plane. The total flow area and the angle of inclination of the injector nozzles of each overlying step exceeds the total flow area and the angle of inclination of the injector nozzles of the underlying step. Besides, the angle of inclination of the injector nozzles to the horizontal plane evenly increases from 0 deg. at the lower step up to 45,C deg. at the upper step, and the diameter of the injector nozzles and/or their quantity at the overlying step exceeds the diameter of the injector nozzles and/or their quantity at the underlying step. EFFECT: improved design. 1 dwg

Description

 The invention relates to the field of heat energy, namely: to contact heat exchangers and can be used in water recycling systems of industrial enterprises and thermal power plants.

Known spray tower containing a vertical tower with an air intake window, a reservoir for collecting chilled water and annular water-distributing collectors equipped with spray nozzles [1, 2, 3]
The disadvantage of such a cooling tower is the reduced cooling efficiency due to the uneven arrangement of nozzles in the volume of the tower.

Closest to the invention is a cooling tower comprising a vertical tower with an air intake window in the lower part, a chilled water collecting tank and a water distribution system consisting of an annular water supply manifold located at the lower part of the air intake window with radial inclined nozzles, on which spray nozzles are uniformly arranged in tiers. 4]
The tiered placement of nozzles on radial pipes inclined toward the center increases the uniformity of the distribution of chilled water over the tower volume, which increases the cooling capacity and cooling capacity of the tower, but not to a sufficient degree.

 The invention is aimed at increasing the cooling intensity of the circulating water and the cooling tower performance.

 The solution to this problem is provided by the fact that in the tower containing a vertical tower with an air intake window in the lower part, a reservoir for collecting cooled water and a water distribution system made in the form of an annular water supply manifold located in the lower part of the air intake window with radially inclined nozzles on which it is mounted spray nozzles, radial inclined nozzles are installed with an inclination from the center to the periphery of the tower, and nozzle nozzles are oriented to the center of the towers at different angles to the horizontal plane, the total flow cross-section and inclination angle of each nozzle nozzles upstream tier is greater than the total flow cross-section and inclination angle of the nozzles injectors downstream tier.

Preferably, the angle of inclination of the nozzle nozzles to the horizontal plane is uniformly increased from 0 ^o in the lower tier to 45 ^o in the upper tier.

 In addition, the diameter of the nozzles of the nozzles and / or their number on the upper tier is larger than the diameter of the nozzles of the nozzles and / or their number on the lower tier, respectively.

 The proposed mutual arrangement of the inclined radial nozzles and the orientation of the nozzle nozzles, which are characterized by the stated ratio of geometric parameters, provide an optimal distribution of the air flow entering through the intake window between the chilled water flares, uniformly in the volume of nozzles sprayed towards the center of the tower, and their effective interaction. At the same time, an increase in the total nozzle nozzle cross section and the angle of their inclination to the horizontal plane from the lower tier to the upper one shifts the separation zone of the airborne droplet upward to the periphery of the tower and reduces the negative effect of the exhausted warm air on the contact heat and mass transfer intensity, thereby increasing the cooling efficiency of the circulating water and cooling tower performance.

 The drawing shows a General view of the cooling tower.

The cooling tower contains a vertical tower 1 with an air intake window 2, a reservoir 3 for collecting chilled water and a water distribution system, which includes an annular water supply manifold 4 with radial distribution pipes 5 installed with an inclination (up to 45 ^o ) from the center to the periphery, and nozzles 6 . The distance (gap) L ₁ between the walls of the tower casing 1 and 5 nozzles at their upper edge less than the corresponding distance L ₂ at the level of the collector 4, and nozzles 7 of the nozzle 6 directed towards the center of the tower 1 and are at glam different angle α ₂ of inclination to the horizontal plane, which uniformly increases from 0 ^o to lower tier to 45 ^o the upper tier.

 In addition, the total bore of the nozzles 7 of the nozzles 6 of each upper tier is larger than the total bore of the nozzles 7 of the nozzles 6 of the lower tier, which is ensured by a corresponding tiered increase in the diameter of the nozzles 7 and / or the number of nozzles 6.

 The cooling tower works as follows.

 Cooled water is supplied to the collector 4, is evenly distributed over the radial nozzles 5 and sprayed towards the center of the tower 1 through nozzles 7 of the belt-mounted nozzles 6, ejecting an upward flow of air coming through the air intake window 2 to the lower part of the tower 1. Cooled as a result of contact interaction and the water separated from the drip-air stream is collected in the tank 3, and the heated exhaust air is discharged out through the upper section of the tower 1.

Claims (3)

 1. A cooling tower comprising a vertical tower with an air intake window in the lower part, a chilled water collecting tank and a water distribution system made in the form of an annular water supply manifold located in the lower part of the air intake window with radial inclined nozzles, on which spray nozzles are mounted on the belt, characterized in that that the radial nozzles are installed with an inclination from the center to the periphery of the tower, and the nozzle nozzles are oriented to the center of the tower at different angles to the horizontal plane bone, the total flow cross-section and inclination angle of each nozzle nozzles upstream tier is greater than the total flow cross-section and inclination angle of the nozzles injectors downstream tier.  2. The cooling tower according to claim 1, characterized in that the diameter of the nozzle nozzles and / or their number on the higher tier is larger than the diameter of the nozzle nozzles and / or their number on the lower tier, respectively. 3. The cooling tower according to claims 1 and 2, characterized in that the angle of inclination of the nozzle nozzles to the horizontal plane uniformly increases from 0 ^o in the lower tier to 45 ^o in the upper tier.