RU2043598C1 - Spraying device for water-cooling tower - Google Patents

Abstract

FIELD: heat power engineering. SUBSTANCE: vertical standpipe 2 is mounted on water dispensing pipe 1 or below it. The pair of oppositely arranged bottom dispensing branch pipes 4 abuts against the bottom part of standpipe 2, and the pair of oppositely arranged top dispensing branch pipes 3 abuts against top part 5 of standpipe 2. Outlet end sections of top branch pipes 3 are opposite to outlet end sections 8 of bottom branch pipes 4 to define outlet space 9 between branch pipes 3 and 4. In addition, all of branch pipes 3 and 4 are secured to standpipes 2 at 45°. EFFECT: improved design. 3 dwg

Description

 The invention relates to a power system, in particular, to elements of devices for cooling circulating water at power plants and industrial enterprises, and in particular to spraying devices of a cooling tower water distribution system.

 It is known to spray a cooling tower device containing horizontal water distribution pipes with vertical risers, each of which is equipped with a pair of distribution pipes, the upper of which is connected to the upper section of the riser, and the lower one is installed with an exit slice opposite the output cut of the upper pipe with a horizontally oriented end gap.

 The drawback of the operation of the spray device in the cooling tower water distribution system is the tear of the spray cone created by the distribution pipe dissecting the cone formed by the colliding jets, resulting in a relatively non-irrigated sector. In the case of spraying devices from the bottom of horizontal water distribution pipes, which is justified for spraying devices that create spraying torches that are not cut by the water distribution pipe with this installation, very compressed conical flares are produced due to the difference in the ratio of the openings at the outlet of the nozzles, which strike almost vertically downward. The disadvantages include the loss in pressure of each nozzle due to the large curvature of the nozzles, which is a tangible factor when operating a large number of spray devices in the cooling tower.

 The aim of the invention is to increase the uniformity of the drip distribution in the spray torch and wide-flare irrigation in a spray device with oncoming nozzles.

This is achieved by the fact that in the spraying device of the cooling tower containing horizontal water distribution pipes with vertical risers, each of which is equipped with a pair of distribution pipes, the upper of which is connected to the upper section of the riser, and the lower one is installed with an outlet cut opposite the output upper pipe with a horizontally oriented end gap, there are additional pairs of distributing nozzles installed on each riser similarly to the main pair of nozzles on the opposite side of them, whereby the lower pipes are connected to the lower section of the risers, and all pipes of each riser are inclined to it at an angle of 45 ^about .

 In FIG. 1 shows a longitudinal view of a spraying device of a cooling tower; in FIG. 2, view AA in FIG. 1; in FIG. 3 fragment of the operation of the spray device of the tower.

 The spraying device of the cooling tower contains a horizontal water distribution pipe 1, a vertical riser 2, an upper distribution pipe 3, a lower distribution pipe 4, an upper section 5 of the riser 2, a lower section 6 of the riser 2, an output slice 7 of the upper pipe 3, an output slice 8 of the lower pipe 4, end the gap 9 between sections 7 and 8.

Vertical riser 2 is installed on or under the water distribution pipe 1. A pair of oppositely located lower distribution pipes 4 is adjacent to the lower section 6 of the riser 2, and to the upper section 5 of the riser 2 a pair of opposite upper distribution pipes 3 are also located, while the output sections 7 of the upper pipes 3 are located opposite the output sections 8 of the lower pipes 4 with an end gap 9 between the pipes 3 and 4. In addition, all pipes 3 and 4 are attached to the risers 2 obliquely at an angle of 45 ^about .

 Water flowing through the water distribution pipe 1 and the vertical riser 2 is fed into four distribution pipes 3 and 4 and, under pressure, is discharged in each pair from above and below in the form of oncoming jets. Since the upper 3 and lower 4 distribution pipes are not coaxial and have slanted output sections 7 and 8, when water is discharged under pressure in the gap 9, water jets collide, which are given an oblique direction and an elliptical raised spray pattern is formed from each pair. Moreover, both torches are located with an offset relative to the vertical riser 2 in both directions, so that the edges of the torches overlap and merge. As a result, an ascending continuous spray torch is formed. When installing a vertical riser 2 from the bottom of the pipe 1, a downward elliptical spray torch is formed. The advantage of such a torch is that it is not cut by an upstream water distribution pipe 1. Regulation of the pressure allows one to obtain a uniform particle size distribution of the required droplet size, not subject to entrainment by air flows from the tower of the tower.

Claims (1)

COOLING SPRAYING DEVICE, containing horizontal water distribution pipes with vertical risers, each of which is equipped with a pair of distribution pipes, the upper of which is connected to the upper section of the riser, and the lower one is installed with an outlet cut opposite the output cut of the upper pipe with a horizontally oriented end gap, characterized in that it equipped with additional pairs of distribution pipes installed on each riser similarly to the main pair of pipes with the opposite side, and the lower pipes are connected to the lower portion of the risers, and all pipes of each riser are inclined to it at an angle of 45 ^o .

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