RU16949U1 - HEAT AND MASS EXCHANGE UNIT BLOCK - Google Patents

Description

2000125752

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HEAT AND MASS TRANSFER MACHINE UNIT

The utility model relates to heat and mass transfer between liquid and gaseous media, in particular, to structural elements of heat and mass transfer apparatus, for example, cooling towers, and can be used in cooling towers for cooling water circulation water of power plants and industrial enterprises.

From the current level of technology there are many sprinklers and water traps for cooling towers, which are blocks (modules) assembled from nozzles with a mesh shell.

So, in particular, a tower sprinkler is known, made in the form of a module from layers of polymer cellular cylindrical pipes placed in all layers parallel to each other, welded together at the ends of the module in contact. Pipes in adjacent layers can be staggered (RF Patent No. 2141617, F28F 25/08, 1999).

The disadvantages of this block of the nozzle of the heat and mass transfer apparatus is the possibility of its operation in the cooling tower only as an irrigator, as well as insufficient cooling ability due to the presence of through vertical openings for parallel pipe laying.

Known block nozzles of the heat and mass transfer apparatus made of nozzle elements in the form of polymer cellular pipes with a triangular cross section - prisms laid in layers with alternating longitudinal and transverse stacking. Prisms are placed directly in the tower body, place them with the bases down. The nozzle block is universal and can be used and

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as an irrigator, and as a water trap for a cooling tower (the journal “Water Supply and Sanitary Equipment, 1993, No. 5, 2nd cover page).

A disadvantage of the known block is the low rigidity of its design, but since the attachment of the nozzle elements to the prisms in the block is not carried out together, this leads to deformation of the nozzle elements and the displacement of individual prisms that are not bonded to each other, as well as to an increase in the material consumption of the block.

The closest in technical essence and the achieved effect to the proposed block is the nozzle block of the heat and mass transfer apparatus, consisting of spiral elements of the nozzle made in the form of mesh pipes and interconnected by fastening means in the form of cords located uniformly in three tiers along the height of the elements, this, in each tier, the cord is placed inside the elements and sequentially along the turns of the spiral, and the mesh pipes can be made cylindrical or triangular in cross section (Zaya invention for the invention of the Russian Federation No. 94044475, F28F 25/08, 1996).

The disadvantages of this unit are the operation in the tower only as an irrigator, as well as the insufficient efficiency of heat and mass transfer.

The problem to which the claimed utility model is directed is to create a nozzle block for a heat and mass transfer apparatus with increased stiffness and reduced material consumption, convenient for installation, dismantling and transportation, which can be used in a cooling tower both as an irrigator and as a water catcher .

The technical result from the use of the proposed unit is to increase the efficiency of heat and mass transfer in the apparatus by ensuring its uniformity.

The problem is solved, and the technical result is achieved due to the fact

that in the nozzle block of the tenomasso apparatus containing nozzle elements made in the form of mesh pipes, the fastening means are made in the form of polymer tapes, nozzle elements are formed into layers, polymer tapes are stretched along the profile of the nozzle elements in the layer, connected to each nozzle element by ties and tied around nozzle layers, the layers alternate in the longitudinal and transverse directions and are interconnected by two or more polymer tapes in the longitudinal and transverse directions, while the mesh pipes can be made triangular, quadrangular or round section, couplers are designed as clamps, ropes or cords.

In FIG. 1 shows a General view of the nozzle block of the heat and mass transfer apparatus; figure 2 - layer block nozzle formed from a mesh pipe of triangular section; in Fig.3 - the layer of the nozzle block formed from mesh pipes of a quadrangular cross-section; in Fig. 4 - the layer of the nozzle block formed from mesh pipes of a round cross-section

The nozzle block of the heat and mass transfer apparatus (Fig. 1) consists of nozzle elements made in the form of mesh pipes 1 of triangular section, formed into longitudinal 2 and transverse 3 layers, each layer is equipped with a polymer tape strapping layer 4, and the layers are interconnected by polymer tape strapping block 5. Layers 2 and 3 of the nozzle block consist of mesh pipes 1 of a triangular section (Figure 2), a quadrangular section (Figure 3) and a round section (Figure 4), along the profile of which polymer ribbons 4 are connected, connected to each element of the nozzle 1 screeds 6 and tied around the nozzle layer.

The number of elements in the layer and the number of layers in the block is determined by the type of cooling tower and the specific operating conditions of the block: as a sprinkler or as a water catcher.

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

The nozzle block teilomassoobraznogo apparatus works as follows.

When using the unit as an irrigator: the water to be cooled is sprayed through nozzles onto the irrigator, after which it flows down the surface of the mesh pipes 1 with a thin film and is cooled by an oncoming air stream. The proposed design has increased rigidity, which during operation practically eliminates the possibility of deformation of the nozzle elements, provides uniform heat and mass transfer throughout the block volume, which improves the efficiency of heat and mass transfer between cooled water and air.

When using the unit as a water trap: water droplets moving upward are deposited on the fibers of the mesh pipes 1 due to inertia when the air flow deviates to round the fibers.

Thus, the proposed technical solution allows us to solve the problem of creating a nozzle block of a heat and mass transfer apparatus with increased stiffness and reduced material consumption, convenient for installation, dismantling and transportation, which can be used in a cooling tower and as an irrigator, and as a water trap and increase efficiency heat and mass transfer in the apparatus by ensuring its uniformity.

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Claims (3)

1. The nozzle block of the heat and mass transfer apparatus containing nozzle elements made in the form of mesh pipes and fastening means, characterized in that the fastening means are made in the form of polymer tapes, nozzle elements are formed into layers, polymer tapes are stretched along the profile of the nozzle elements in the layer, connected with each element of the nozzle, ties are tied around the layer of the nozzle, the layers alternate in the longitudinal and transverse directions and are interconnected by two or more polymer tapes in the longitudinal and transverse directions eniyah.  2. The nozzle block according to claim 1, characterized in that the mesh pipes are made of triangular, quadrangular or circular cross-section. 3. The nozzle block according to claim 1 or 2, characterized in that the ties are made in the form of clamps, ropes or cords.