RU2635726C2 - Cooling tower sprinkler unit - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: cooling tower sprinkler unit comprises a packet of corrugated sheets from polymer material with parallel corrugations, the adjacent corrugated sheets of sprinkler are fixed to each other to form the channels by corrugations. The input and output channels made in the form of hexagonal prisms generated by corrugations are produced by corrugations, while three layers of channels are formed between them by corrugations. Two layers of channels are extreme and the middle layer of channels is positioned between them, channels of extreme layers are directly connected - one with the input channels and another with the output channels, while the channels of the middle layer are connected with the channels of extreme layers. Channels of extreme and middle layers are made in the form of quadrihedral prisms, each input channel and each output channel is connected with two adjacent channels of extreme layers, channels of middle layer are offset relative to the channels of extreme layers so that each channel of middle layers is connected on the input side and on the output side thereof with two adjacent channels of extreme layers, while U-shaped, sinusoidal or trapezoidal corrugations of equal width and depth positioned perpendicular are formed at the side planes of the channels of extreme and middle layers.

EFFECT: increased intensity of heat-and-mass transfer due to elimination of straight flow of liquid and gas phases in the sprinkler channels.

2 cl, 2 dwg

Description

The invention relates to the field of recycled water supply, and in particular to the structural elements of cooling towers and other apparatus for heat and mass transfer between liquid and gaseous media.

Drip and film type block sprinklers made of wooden slats, as well as of flat or wavy asbestos cement sheet shields up to 7 mm thick, are widespread in evaporative cooling towers (see, for example, the book Farforovsky BC, Farforovsky VB Circulating water coolers of thermal power plants Leningrad: Energy, 1972).

Irrigators of this type are distinguished by high material consumption, high hydraulic resistance to the flow of cooling air, low specific contact surface of the phases and low operational reliability due to the limited water resistance of wooden irrigators and the delamination of asbestos-cement irrigators during defrosting. In addition, the use of asbestos is impractical from the point of view of its harmful effects on the environment.

Also known is the cooling tower sprinkler block containing vertical corrugated sheets bonded to each other with faceted corrugations, and when corrugated sheets are bonded between the corrugations, pipe-like channels are formed, and protrusions and depressions are made on the surface of the corrugation faces facing inward of the pipe-like channels (see US Pat. No. 5124087 , CL B01F 3/04, 06/23/1992).

Such a design of the cooling tower sprinkler unit made it possible to increase the reliability of operation in winter time by reducing ice freezing and redistributing cooling water from the periphery to the center. However, this led to an uneven distribution of the contacting flows of water and cooling air over the sprinkler cross section and, as a result, to an increase in aerodynamic drag and a decrease in the intensity of heat and mass transfer.

The closest to the invention in technical essence and the achieved result is a tower sprinkler block containing a packet of corrugated sheets of polymer material with parallel corrugations, and adjacent corrugated sprinkler sheets are bonded together to form corrugations of channels (see patent RU No. 2428645, class F28F 25 / 08, published on 09/10/2011).

In this unit, a more uniform distribution of water flows over the cross section of the tower is ensured, however, there is an insufficiently high specific contact surface of the gaseous and liquid phases during their countercurrent flow.

The objective of the invention is to remedy the above disadvantages by optimizing the countercurrent flow of liquid and gaseous phases in the sprinkler of the cooling tower.

The technical result achieved by using the invention is to increase the intensity of heat and mass transfer by eliminating the rectilinear flow of liquid and gaseous phases in the channels of the sprinkler.

This problem is solved, and the technical result is achieved due to the fact that the tower irrigation unit contains a packet of corrugated sheets of polymer material with parallel corrugations, adjacent corrugated irrigation sheets are bonded to each other with corrugation channels, and the input and output channels are formed in corrugations, made in the form formed by corrugations of hexagonal prisms, and between them corrugations formed three tiers of channels, with two tiers of channels extreme and between them is the middle tier of channels, extreme channels x tiers are directly communicated with one of the input channels and the other with output channels, and the channels of the middle tier are communicated with the channels of the extreme tiers, while the channels of the extreme and middle tiers are made in the form of tetrahedral prisms, each input channel and each output channel is communicated with two adjacent channels the extreme tiers, the channels of the middle tier are offset relative to the channels of the extreme tiers in such a way that each channel of the middle tier is communicated from the side of its entrance and from the side of its exit with two adjacent channels of the extreme tiers, and and the outer side faces of the channels and middle tiers are made U-shaped, sinusoidal or trapezoidal equal to the width and depth of the corrugations disposed perpendicular.

Adjacent corrugated sheets of polymeric material are interconnected by means of input and output channels made on the mating surfaces of the input channels opposite each other on one corrugated tenon sheet and on an adjacent groove sheet inserted into each other.

In the course of the study of the operation of irrigators assembled from corrugated sheets, it was revealed that it is possible to create a relatively simple design of irrigation blocks by making irrigation blocks of the same corrugated sheets, which can greatly simplify the technological cycle of manufacturing, storage and assembly of the irrigation block. The sprinkler unit is easily and quickly assembled at the installation site of the tower with the formation of the sprinkler of the required size depending on the size of the tower. The implementation of the sprinkler with channels with a zigzag countercurrent flow of liquid and gaseous phases allows, on the one hand, to provide a relatively low aerodynamic drag and to create a rigid sprinkler structure from thin sheets, and on the other hand, to ensure high heat and mass transfer efficiency. The cooling air flow coming from below flows around the protrusions made on the sides of the channels, which, in combination with the zigzag flow of flows in the channels, enhances the turbulization of the flowing media through the channels, primarily the air flow, and water drops falling from above, falling into such air flow, are thrown onto the walls channels and flow down them mainly in the form of a film, which allows to achieve high heat transfer efficiency.

In FIG. 1 is a side view photograph of a cooling tower sprinkler unit.

In FIG. Figure 2 shows a photograph of a fragment of the cooling tower sprinkler block at the location of the spike and groove.

The cooling tower sprinkler block contains a packet of corrugated sheets 1 made of polymer material with parallel corrugations 2. Adjacent corrugated sheets 1 of the sprinkler are bonded to each other to form corrugated channels.

The corrugations form the input 3 and output 4 channels, made in the form of 2 hexagonal prisms formed by the corrugations, and 3 tiers of channels are formed between them by corrugations 2, the two tiers of channels 5 and 6 being extreme and the middle tier of 7 channels is located between them.

The channels of the extreme tiers 5 and 6 are directly communicated with one 5 - with input channels 3, and the other 6 - with output channels 4.

The channels of the middle tier 7 are communicated with the channels of the extreme tiers 5 and 6, while the channels of the extreme 5 and 6 and the middle 7 tiers are made in the form of tetrahedral prisms. Each input channel 3 and each output channel 4 is in communication with two adjacent channels of the extreme tiers, respectively 5 and 6. The channels of the middle tier 7 are offset from the channels of the extreme tiers 5 and 6 so that each channel of the middle tier 7 is communicated from the entrance to it and from the side of the exit with two adjacent channels of the extreme tiers, respectively 5 and 6, and on the side faces of the channels of the extreme 5 and 6 and the middle 7 tiers, U-shaped, sinusoidal or trapezoidal, equal in width and depth to the corrugations 8, located perpendicular to the corrugation frames 2 sheets 1 block sprinkler.

Adjacent corrugated sheets 1 of polymeric material are interconnected by means of grooves made on the mating surfaces of the input 3 and output 4 channels opposite each other on the same corrugated sheet 1 of the spike 9 and on the adjacent corrugated sheet 1 of the groove 10 inserted into each other.

During operation of the cooling tower, cooling air flows from the lower part of the tower due to natural draft in the tower cooling towers and forced movement in the fan cooling towers. Cooled water on top of the sprinkler is uniformly sprayed over the area formed by the blocks of corrugated sheets 1 of the sprinkler. In the sprinkler, heat and mass transfer between the droplets of water and air moving in countercurrent occurs on the surface of the 2 input channels 3 of the channels of the extreme tiers 5 and 6, the middle tier 7 and the output channels 4 formed by the corrugations after the water drops contact the walls of the 2 channels formed by the corrugation on the wavy surface of the water formed by flowing drops of water during the flow around the protrusions and depressions of the corrugations 8 corrugated sheets 1, and as a result of interaction with the protrusions and depressions, the air flow is turbulent. The bulk of the air moves in the central part of channels 3, 4 and channels of the extreme tiers 5 and 6 and the middle tier 7 of the cooling tower sprinkler unit, and the liquid, as a result of interaction with the air flow and the walls of channels 3, 4 and channels of the extreme tiers 5 and 6 and the middle tier 7, is deposited on the walls of the above channels and moves along the walls of these channels mainly in the form of a film.

This invention allows to solve the problem of creating a tower irrigation unit, convenient for installation and transportation, which allows it to be used in devices for cooling water in water-circulation systems of industrial enterprises with direct contact of the cooled water and its cooling air.

Claims (2)

1. The cooling tower irrigation unit, comprising a packet of corrugated sheets of polymer material with parallel corrugations, wherein adjacent corrugated irrigation sheets are bonded to each other to form corrugations of channels, characterized in that the input and output channels are formed as corrugations made in the form of hexagonal prisms formed by corrugations, and three layers of channels are formed between them by corrugations, with two layers of channels being extreme and between them is the middle layer of channels, the channels of the extreme layers are directly communicated with one of the input channels and the other with output channels, and the channels of the middle tier are connected with the channels of the extreme tiers, while the channels of the extreme and middle tiers are made in the form of tetrahedral prisms, each input channel and each output channel is in communication with two adjacent channels of the extreme tiers, the channels of the middle tier are shifted relative to the channels of the extreme tiers in such a way that each channel of the middle tier is communicated from the side of the entrance to it and from the side of the exit from it with two adjacent channels of the extreme tiers, and on the lateral faces of the channels of the extreme and middle tiers U-shaped, sinusoidal or trapezoidal corrugations of equal width and depth are arranged perpendicularly. 2. The cooling tower sprinkler block according to claim 1, characterized in that the adjacent corrugated sheets of polymer material are interconnected by means of opposed surfaces made on the mating surfaces of the inlet and outlet channels on the same corrugated sheet of the spike and on the corrugated groove sheet adjacent thereto, inserted into each other.

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