SU648821A1 - Cooling device - Google Patents

Description

I

The invention relates to a power system, in particular, to devices for cooling a large amount of water in nuclear and thermal power plants in refrigerating plants, etc.

A cooling device is known that contains a system of sprinklers in the form of nozzles connected to a water supply pipe installed on an open pool and installed with outlet openings to the top of such a device. The affectiveness and considerable power consumption for circulating pumps is also low, and water is carried away by wind.

The closest technical solution to the invention is a cooling device containing sprinklers connected to the water-supplying pipeline and inclined film-shaped lean SHITS placed under THEM. Sprinklers are made in the form of ring blocks

LEAFLETS installed at an acute angle to the FLAT of air inlets. THE BLOCKS are mixed one with the other in ((:, 1) and are placed with a successive decrease from percferin to the center.

However, this device has a rather small heat sink at a considerable COST of the design.

The purpose of the invention is to increase the heploscopic n to reduce the cost of construction.

For this, STITCHES are laid on the na: LONG PLANE, overhead trays are additionally installed in height, and the sprinklers are placed above the upper section of each shield and connected to the upper tray.

The drawing shows schematically the device, the overall appearance.

The heat exchanger 1 and the pump 2 main water supply pipe 3 are connected to the sprinklers SYSTEM 4-8. Between the catchment overflow lot-

kamv 9. 2 tanovneay inclined capturing co-image kzhshe pshgy. Expose and place over the upper sections of the heading, and each of them is connected to one side of a tray. Each of the pipelines is designed to supply liquid to one of the sprinklers. Pipeline 23 serves as a dd for removing water from the last point 12, pipeline 24 for supplying WATER B heat exchanger 1. Valves 25

30 installed on the respective water pipelines. Pool

31 serves to collect water. The device works as follows

at once.

The water from the heat exchanger 1 is cooled by pump 2 through line 3 to the top of the supply device. One part of the leader enters through pipeline 17 to the sprinkler 4 of the first cascade, and another through pipeline 18 to the sprinkler 5 of the second 1 stage, the first part of the screaming, when cooled by spraying, falls on the inclined shield 13 and flows down as a film further cooled. From tray 9, the water through line 20 enters the sprinkler 6 of the third cascade. Due to the height difference between the tray 9 and the sprinkler 6, the water is sprayed and cooled, then forms a film on the stitching 15, is further cooled on it and collected in the tray 11 n. From the bottom

tray 12 water pipeline 23 posgupata in the catchment 31.

Similarly through the sprinkler 5, shield 14, tray 10 and t; D. enters the pool and other water.

The difference in water temperature at the inlet and outlet of each cascade is directly proportional to the temperature difference between the primary water and the surrounding air. The efficiency of the described device is one and a half times higher than that of a conventional fan cooling tower.

Claims (2)

1.Berman L.D. Evaporative cooling of circulating water M.-L., Gosenergoizdat, 1957, p. 133. 2. USSR author's certificate number 406100, cl. F 28 C 1 / O6, 1971.