RU2182302C1 - Packing unit of water-cooling tower - Google Patents

Abstract

FIELD: apparatus for heat- mass-exchange between liquid and gaseous media, particularly, in sprinklers and water catchers of water-cooling towers. SUBSTANCE: packing unit of water- cooling tower has assembled in pile layers of parallel laid hollow long packing members with lattice surface, with alternation in pile of layers with longitudinal and transverse laying of packing members. Unit has shell from hollow with lattice surface long members of packing embracing layer piles over perimeter, and four and more fastening bands passed through lattice surface of packing members in shell and binding the packing unit crosswise. In this case, packing members in layer are fastened by fastening tubes passed through lattice surface of packing members in layer. Packing members, fastening bands and fastening tubes are made of corrosion-resistant material. Invention allows solution of problem of development of universal packing unit of water-cooling tower as sprinkler and water catcher, suitable for mounting and transportation with simplification and lowering cost of mounting and repairs in water-cooling towers. EFFECT: higher efficiency. 2 cl, 2 dwg

Description

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

 Known blocks (modules) of irrigators and water traps of cooling towers, assembled from hollow with a trellised surface long elements of the nozzle, made by extrusion.

 Known block nozzles of the tower, containing spirally mounted irrigation elements made in the form of mesh pipes - cylindrical or triangular cross-section, interconnected using cords. In the process of assembling the irrigator, the pipes are laid horizontally, cords are passed through the cells of the walls of the pipes, their beginning is fixed, the pipes are folded in a spiral, the ends of the cords are fixed / cm. application for the invention of the Russian Federation 94044475, F 28 F 25/08, 1996 /.

 The disadvantages of this block are the heterogeneity of the structure of the sprinkler, which leads to a decrease in the efficiency of heat transfer in the cooling tower, as well as in the low rigidity of the block.

 Known modular design of the cooling tower sprinklers made of layers of parallel perforated pipes of thermoplastic material, welded at the ends of the module with each other at the points of contact / cm. RF patents 2141616, F 28 F 25/00, 1999 and 2141617, F 28 F 25/08, 1999).

 The disadvantage of these nozzle modules is the increased aerodynamic drag of the sprinkler.

 Closest to the technical nature of the proposed is a universal block of irrigation and water trap cooling towers made of lattice pipes - prisms PR50. Prisms in the block are stacked with alternating longitudinal and transverse stacking / cm. Journal Water supply and sanitary equipment. - M.: Stroyizdat - Publisher Shtrobel, 1993, 5, 2nd p. covers, fig. 26 /.

 The disadvantages of the known unit are its low stiffness due to the lack of fastening elements, the complexity of its assembly during installation and repair work in cooling towers, and the fact that the formation of the block is carried out only when mounting the sprinkler and / or water trap in the tower.

 The objective of the invention is to create a universal block nozzles of the tower, used both as an irrigator and as a catcher, convenient for installation and transportation.

 The technical result from the use of the proposed unit is to simplify and reduce the cost of installation and repair work in cooling towers.

 The problem is solved, and the technical result is achieved due to the fact that the block of the tower nozzle containing collected in the foot of the layers of parallelly laid hollow with a trellised surface long elements of the nozzle with alternating in the foot of the layers with longitudinal and transverse laying of the elements of the nozzle, is equipped with a shell made of stacked each other on the other hollow with a trellised surface long elements of the nozzle, covering the foot of the seams along the perimeter, and four or more fixing tapes, passed through the trellis The surfaces of the nozzle elements in the shell and cross-wrap the nozzle block crosswise, while the nozzle elements in the formation are fastened by fixing tubes passing through the lattice surfaces of the nozzle elements in the formation, and the nozzle elements, fixing tapes and fixing tubes are made of corrosion-resistant material.

The invention is illustrated by drawings, in which:
figure 1 is a General view of the block nozzles of the tower, axonometry;
figure 2 is a General view of the reservoir, assembled from the elements of the nozzle, a perspective view.

 The cooling tower nozzle block (Fig. 1) contains stacked seams 1 from lengthwise long hollow elements of the nozzle 2 parallel to the lattice surface alternating in the formation foot with longitudinal and transverse stacking of the nozzle elements, a shell 3 made of long lengths stacked on top of one another with the trellised surface elements of the nozzle 4, covering the foot of the layers 1 along the perimeter, and four or more fastening tapes 5, passed through the lattice surfaces of the elements of the nozzle 4 of the shell 3, tying the block of the nozzle crosswise and nye of corrosion-resistant material.

 The elements of the nozzle 2 in the reservoir 1 (Fig. 2) are fastened by fixing tubes 6, passed through the lattice surfaces of the elements of the nozzle 2 in the reservoir 1 and made of a corrosion-resistant material. The elements of the nozzle in the reservoir can be made round, triangular, and also in the form of a regular multi-sheet cross-section.

 The elements of the nozzle 2, made by extrusion, are cut to a certain length corresponding to the lateral side of the formation 1, laid horizontally, for example on a table, close to each other, forming a layer 1. On the table plate, fixing tapes are laid 5. To give the formation 1 rigidity and strength fastening tubes 6 are passed through the grating surfaces of the elements of the nozzle 2. The layers 1 are stacked one on top of another, alternating the layers with longitudinal and transverse laying of the elements of the nozzle 2, collecting the stack.

 The number of layers in the foot depends on whether the nozzle block will be used as an irrigator or as a water catcher. As a rule, ten layers are collected for a water catcher, and from four to six for a water catcher.

 The shell 3 of the foot is assembled from the elements of the nozzle 4 cut to a length equal to the perimeter of the foot, stacking them one on top of the layers around the perimeter of the foot, fastening both ends of each element of the nozzle 4 with each other, so that a closed loop is formed that prevents one block after another, especially during the transportation of blocks, their installation and dismantling in cooling towers. To give the unit rigidity and ease of transportation and loading and unloading, the foot is tied with fixing tapes 5, previously laid in the grooves of the table, two or more on each side of the foot. The tapes 5 are passed through the lattice surfaces of the elements of the nozzle 4 in the shell 3, and the ends of the tapes are fastened to each other over the upper layer of the foot. Preferably, the nozzle elements, fastening tapes and tubes are made of a corrosion-resistant material.

 The nozzle blocks are mounted in cooling towers to organize the flow of water and air.

The tower nozzle block works as follows:
- as a sprinkler:
water to be cooled in the cooling tower is sprayed onto the sprinkler, and then it flows down the surfaces of the nozzle elements 2 layers 1 with a thin film and is cooled by the oncoming air flow, while during operation the units retain the original geometry of their elements, which leads to optimization of processes heat and mass transfer in a cooling tower;
- as a water catcher:
water droplets are released from the air stream during the passage of several layers of nozzle elements in the block at the outlet of the cooling tower, while water loss with drip entrainment is prevented.

 The proposed invention allows to solve the problem of creating a universal block nozzles of the tower, used both as an irrigator and as a water catcher, convenient for installation and transportation, while simplifying and reducing the cost of installation and repair work in cooling towers.

Claims (2)

 1. The block nozzle of the tower, containing assembled in the foot of the layers of parallelly laid hollow with a trellised surface long elements of the nozzle with alternating in the foot of the layers with longitudinal and transverse stacking of the elements of the nozzle, characterized in that it is provided with a shell made of stacked hollow with a trellised surface long nozzle elements, covering the foot of the seams along the perimeter, and four or more fastening tapes, passed through the lattice surfaces of the nozzle elements in the shell and tying blocks to the nozzle crosswise, while the elements of the nozzle in the formation are fastened by fixing tubes passed through the lattice surfaces of the elements of the nozzle in the formation.  2. The nozzle block according to claim 1, characterized in that the nozzle elements, fastening tapes and fastening tubes are made of corrosion-resistant material.

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