RU2193148C1 - Cell-type cooling tower - Google Patents

Abstract

FIELD: cooling towers for circulating water supply systems of power plants and industrial enterprises. SUBSTANCE: cell-type cooling tower includes tower proper, supply pipe lines and water distributing systems, sprinkler mounted under them and water catcher mounted above them and air intake ports; cooling tower has two cells: inner cell and peripheral cell which are circular in shape; supply pipe line of inner cell is provided with shut-off fittings and pipe lines of water distributing systems of both cells have flow sections reducing towards center of tower. Cooling tower is additionally provided with radial partitions mounted at level of ports and provided with sections projecting beyond outer contour of tower. EFFECT: enhanced operational reliability; simplified construction; possibility of controlling thermal load in winter season. 2 cl, 4 dwg

Description

 The invention relates to a power system, and in particular to cooling towers of water recycling systems of power plants and industrial enterprises.

 A sectional cooling tower is known, comprising a tower located in the last section, equipped with individual supply pipelines and water distribution systems, an irrigation device installed under them, and above them a water catcher, air inlet windows made in the tower.

 The disadvantages of such a cooling tower are design coherence, low operational reliability, and the inability to regulate the heat load in winter.

 The invention eliminates these disadvantages.

 The technical result is achieved by the fact that a sectional cooling tower containing a tower located in the last section, equipped with individual supply pipelines and water distribution systems, an irrigation device installed under them, and a water separator above them, air inlet windows made in the tower, according to the invention, contains two - internal and peripheral - sections made circular, while the inlet pipe of the inner section is equipped with valves, and the pipelines of the water distribution systems of both sections made with decreasing flow sections towards the center of the tower. In addition, the cooling tower can be additionally equipped with radial partitions located at the window level with sections protruding beyond the outer contours of the tower.

 Figure 1 shows a sectional cooling tower, a General view; figure 2 is a longitudinal section; figure 3 is a cross section of the lower part of the tower; figure 4 shows the lower part of the tower (fragment).

 The cooling tower contains a tower 1. In the tower 1 there is an inner ring section 2 and a peripheral ring section 3. The peripheral section 5 is connected to the supply pipe 4, which is connected via pipelines 5 to the water distribution system 6, the pipelines 7 of which are made with decreasing cross-sections in the direction from peripherals to the center of the tower 1. This embodiment of pipelines 7 provides a constant value of the flow rate of water in the pipelines 7. The inner annular section 2 is connected to the supply pipe 9, equipped with shutoff valves 10. The pipeline 9 is connected to the water distribution system 11, the pipelines 12 of which are also made with decreasing flow sections towards the center of the tower 1. Under the water distribution systems 6, 11 a sprinkler 13 is placed, common for sections 2, 3. Above the systems 6, 11 a common water trap is installed 14. The cooling tower can be equipped with radial partitions 15 with sections 16 protruding from the outer contours of the tower 1 and placed at the level of the air inlet windows 17 (for using ambient air pressure Reda). On the middle tier of the irrigator 13, a drainage visor 18 is installed at its periphery 18. In the center of the tower 1 there is a vertical transmission shaft 19 (for the fan shaft). Inlet pipelines 4 and 9 with a water distribution system for sections 2 and 3 are located at the bottom of the cooling tower pool 20, which reduces the metal consumption of their supporting structures, excludes their effect on the aerodynamics of the cooling tower, and reduces the corrosion rate of pipelines due to the lack of contact with atmospheric oxygen. The supporting structures of the sprinkler 15, the water distribution system 6 and the water trap 14 are made of pipes used to supply water. The presence of the drainage visor 18 provides a seal of the heat flux along the periphery of the tower 1 and eliminates icing of the cooling tower. The installation of radial partitions 15 with sections 16 will allow the use of wind energy and eliminate lateral drip entrainment.

 The cooling tower works in the usual way. In winter, the inner annular section 2 is turned off using shutoff valves 10 on the supply pipe 9, which allows you to move the heat load to the periphery of the tower and prevent its icing.

Claims (2)

 1. Sectional cooling tower, containing a tower located in the last section, equipped with individual supply pipelines and water distribution systems, an irrigation device installed under them, and above them a water catcher, air inlet windows made in the tower, characterized in that the cooling tower contains two - internal and peripheral sections made circular, while the inlet pipe of the inner section is equipped with shutoff valves, and the pipelines of the water distribution systems of both sections are made with decreasing single sections towards the center of the tower.  2. The cooling tower according to claim 1, characterized in that it is additionally equipped with radial partitions located at the window level with sections protruding beyond the outer contours of the tower.

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