RU2258188C1 - Cooling tower sprinkler unit - Google Patents

Abstract

FIELD: counterflow cooling towers.

SUBSTANCE: proposed cooling tower sprinkler unit contains sieve members made of polymeric material installed in rows at different angles relative to members in adjacent rows. Said members in rows are installed at angle of 70°-120° to horizon, end faces of members being connected by welding along four side surfaces of unit which is made of height within 300 and 1500 nm and width within 500 and 2000 mm. Members in rows are installed at distance of 0.5-2.0 of member height. Members are made with different cross section and are arranged in definite compositions, for instance, round and triangular sections, or triangular and rhombic sections. Fire-proofing compound and/or biological protection additions and/or additions to decrease water repellency are introduced into material of members.

EFFECT: provision of high efficiency of heat-mass exchanger at different operating conditions of cooling tower and operation reliability.

4 cl, 4 dwg

Description

The invention relates to a power system, and in particular to structural elements of counterflow cooling towers-irrigators for use in water recycling systems of power plants and industrial enterprises.

Known sprinkler tower, containing rows of parallel perforated pipes of thermoplastic material, interconnected at the ends at the points of contact by welding / 1 /.

The disadvantages of this sprinkler are the low efficiency of heat and mass transfer, increased aerodynamic drag and low rigidity of the sprinkler block itself.

The closest in technical essence and the achieved result is the cooling tower sprinkler block containing mesh elements made of polymer material placed in rows, while elements in each row are installed at different angles relative to elements in adjacent rows / 2 /.

The main disadvantages of the known sprinkler block are the low heat and mass transfer efficiency under various operating conditions of the cooling tower and the design of the cooling tower itself, as well as the complexity and low reliability of connecting elements in the block using additional connecting tubes, fastening tapes, shell.

The claimed invention eliminates these disadvantages.

The technical result is achieved by the fact that in the sprinkler block of the cooling tower containing mesh elements arranged in rows of polymeric material, while the elements in each row are installed at different angles relative to the elements in adjacent rows, according to the invention, the elements in the rows are installed at an angle of 70 ... 120 ° to the horizontal, the ends of the elements of all rows are interconnected by welding along the four side surfaces of the block, and the block is made with a height of 300 ... 1500 mm and a width of 500 ... 2000 mm. In addition, the elements in the rows can be installed among themselves at a distance of 0.5 ... 2.0 of the height of the element. Elements are made with different cross sections and in a certain combination, for example, round and triangular profiles or triangular and rhombic profiles. Antipersion and / or additives can be incorporated into the material of the elements for biological protection and / or to reduce hydrophobicity.

The analysis of patent and technical literature showed that in the world practice there are no known irrigators with the claimed set of features for solving the task, which allows us to conclude that the invention meets the criterion of "novelty." Also, technical solutions to the task in industrial practice are not known, i.e. this invention meets the criterion of "inventive step".

In Fig.1 shows a block of irrigator cooling tower, General view; figure 2 is a top view; figure 3 is a block with elements that do not touch each other in a row; figure 4 is a General view of the sprinkler in an industrial design.

The cooling tower sprinkler block contains mesh elements 1, 2 made of a polymeric material, for example, high and low pressure polyethylene, polypropylene, etc. To provide the sprinkler with low combustible properties, a flame retardant can be added to the material to increase the life of the elements (raw materials) a number of additives can be introduced that prevent bio-aging and protect elements 1, 2 from biodegradation. To increase the wettability, a number of special additives can be introduced that reduce hydrophobicity. Elements 1, 2 are placed in rows 3, 4. Moreover, elements 1, 2 in adjacent rows 3, 4 are installed at an angle of 70 ... 120 ° to the horizontal. This arrangement of elements 1, 2 allows you to increase the contact surface of the sprinkler, since it overlaps the cross section of the block. The ends of the elements 1, 2 on the four side surfaces of the block are interconnected by welding with the formation of a hard joint 5. For unification, the blocks are made with a height of 300 ... 1500 mm and a width of 500 ... 2000 mm.

Elements 1, 2 can be made with different cross sections in rows 3, 4, as well as in a certain combination, for example, a series of elements of round and triangular profiles, or triangular and rhombic profiles, etc.

For low aerodynamic drag of the sprinkler for a certain type of cooling towers, elements 1,2 can be installed with each other at a distance L of 0.5 ... 2.0 of the height h of the element.

The water to be cooled in the tower is sprayed on the surface of the elements 1, 2. The film of water flowing down through the elements 1, 2 is cooled by an oncoming air stream.

The invention allows to provide maximum rigidity of the unit, to ensure uniform, optimal aerodynamic (hydraulic) resistance both in the sprinkler unit and throughout the entire area of the tower, to increase the efficiency of heat and mass transfer of water cooling for various types of cooling towers, to ensure high performance of the sprinkler.

Claims (4)

1. The cooling tower sprinkler block containing mesh elements made of polymer material placed in rows, wherein the elements in each row are installed at different angles relative to the elements in adjacent rows, characterized in that the elements in the rows are installed at an angle of 70 - 120 ° to the horizontal, the ends of the elements all rows are interconnected by welding along the four side surfaces of the block, and the block is made 300 - 1500 mm high and 500 - 2000 mm wide. 2. The block according to claim 1, characterized in that the elements in the rows are installed between each other at a distance of 0.5 to 2.0 of the height of the element. 3. The block according to claim 1, characterized in that the elements are made with different cross-sections and in a certain combination, for example, round and triangular profiles, or triangular and rhombic profiles. 4. The block according to claim 1, characterized in that flame retardant and / or additives are additionally introduced into the material of the elements for biological protection and / or to reduce hydrophobicity.

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