SU1615537A1 - Module of water-trapping lattice - Google Patents

Abstract

The invention relates to a power system and can be used in devices for cooling circulating water in power plants and industrial plants. The purpose of the invention is to increase work efficiency. The block contains 3,4 cutting elements suspended on a rod x-turbulators, made in the form of hollow nozzles 1,2 of conical shape. Cutting elements are grouped in horizontal and two vertical rows. In horizontal rows, nozzles 1.2 are installed in a staggered order, and in vertical rows adjacent nozzles are oriented towards each other with smaller bases and suspended with an inclination to the steps of m-turbulators 3,4 at the same angle. The air stream with water drops is supplied from below and, the passage inside and between the nozzles 1,2, meeting with the rods-turbulators 3,4,5, changes the speed and direction of movement, which contributes to the intensive enlargement of moisture and its discharge downwards. 2 Il.

Description

The invention relates to a power system and can be used in devices for cooling the circulating water of power plants and industrial enterprises.

The aim of the invention is to increase the efficiency.

In FIG. 1 shows a block of a water trap lattice of a cooling tower, cross section; in FIG. 2 - the same, top view.

The block contains dissecting elements made in the form of hollow nozzles 1 and 2, having the shape of a truncated cone. Nozzles 1 and 2 are suspended on turbulator rods 3 and 4. Dissecting elements are grouped in horizontal and two vertical rows, and in the horizontal rows of nozzles 1 and 2 are staggered with a step equal to the diameter of their larger base, and in the vertical rows adjacent nozzles are oriented to each other with smaller bases and suspended with an inclination to the turbulator rods 3 and 4 at the same angles, while the angle between the axes of the nozzles in adjacent vertical rows is less than 180 °. A rod turbulator 5 is installed between the vertical rows of nozzles 1 and 2. Turbulent rods 3–5 are fixed in the base plates 6 using wedges 7.

The unit of the water trap lattice operates as follows.

The air stream carrying water droplets enters the grate block from below and enters nozzles 1, inside which the flow accelerates and then meets the turbulent rod 3. In this case, the droplets coarsen and fall down. Having passed the bottom row of cone nozzles 1, the air flow with moisture drops encounters the middle turbulent rod 5, which causes secondary turbulization of the flow and, as a result, additional enlargement of the drops. Entering the second vertical row of nozzles 2, the flow slows down due to the expansion of the nozzle section and meets the next row of turbulator rods 4, while the water separation process continues. A small part of the air flow carrying a drop of water passes between the nozzles, changes the direction of movement at the expiration, and also occurs with turbulent rods 3-5, and phase separation of this flow occurs.

Y5 Multiple changes in speed and direction of movement, the presence of rod-turbulators contribute to the effective separation of moisture.

Claims (1)

Claim A block of a water trap grate of a counterflow cooling tower containing dissecting elements suspended in rows on turbulent rods piercing them, characterized in that, in order to increase work efficiency, the dissecting elements are made in the form of hollow nozzles having the shape of a truncated cone and are grouped in horizontal and two vertical The rows, moreover, in the horizontal rows of the nozzle, are placed in a checkerboard pattern with a step equal to the diameter of their larger base, and in the vertical rows of the adjacent nozzles are oriented less based on each other and installed with an inclination to the turbulator rods at the same angle, while 35 the angle between the axes of adjacent nozzles in the vertical rows is less than 180 °. Fi g. 2