RU2184330C2 - Cooling tower water catcher - Google Patents

Abstract

FIELD: catching water droplets in cooling towers. SUBSTANCE: water catcher has corrugated members joined together by means of pins and spacers placed between them. Baffle plates are made on either side of lower edges of corrugated members throughout their entire length; they are spaced apart and tilted through angle of 25-30 deg. to vertical, their width being up to 0.2 of spacing between corrugated members. EFFECT: reduced carryover from cooling tower and circulating cycle makeup requirement; improved environmental friendliness. 3 dwg

Description

 The invention relates to a power system and can be used, for example, in cooling towers for trapping drip moisture.

 A well-known block of the water trap of the cooling tower, containing rows of wooden planks with latch clamps, as well as clamps mounted on rods with L-shaped staples at the ends of the rods [1].

 The disadvantage of this block of water trap is the low efficiency of water capture, because the vapor-air stream containing drip moisture passes almost unhindered through the water trap.

 A similar drawback has a cooler water trap containing V-shaped plates connected by rods to spacer sleeves [2].

 Also known is a cooler water trap containing a grate installed in the housing from rows of inclined plates containing trays with outlet slits at the outlet edges facing the air flow [3].

 The disadvantage of this cooler water trap is that the proportion of organized moisture will be small, because moisture is mainly separated at the place of changing the direction of the air flow and before it reaches the trays with slots, and the presence of the latter creates increased aerodynamic drag of the entire device.

 Known water trap containing a lattice of rows of V-shaped elements with bent inlet and outlet sections, and in the place of the bend of the plates made two additional bent section [4].

 The disadvantage of this trap is its low water retention capacity.

 Closest to the technical nature of the invention is a water trap cooling tower containing rods fastened by rods of the wavy profile, spacers located between them [5].

 The disadvantage of this water trap is a low reduction in drip moisture from the tower.

 The technical result of the invention is to reduce the drip removal of moisture from the tower and improve the environmental condition of the area around it.

To achieve a technical result, the cooler water trap contains rod-shaped wavy breaker elements, spacer spacers located between them, and on the lower edges of the wave elements along their entire length on both sides at some distance from each other, visors are made at an angle of 25-30 ^o to the vertical and up to 0.2 steps wide between wavy elements.

 The application of the invention will reduce the amount of entrainment of droplet moisture from the tower due to its organized removal and thereby improve the situation of the territory around the tower.

The implementation of the visors (lower and upper) at an angle of 25-30 ^o to the vertical is optimal in relation to both the effective operation of the water trap and its aerodynamic drag. A decrease in the angle of inclination of the visors (less than 25 ^o ) leads to a decrease in the capacity of the gutters for collecting droplet moisture, which due to viscous forces will not uniformly fill the entire gutter, and, possibly, will overflow over the edge in some areas, which will not lead to its organized challenge

The increase in the angle of inclination of the visors (more than 30 ^o ) leads to an increase in the aerodynamic resistance of the water trap without a noticeable increase in the efficiency of its work.

 Practice has shown that the manufacture of visors (lower and upper) with a width of up to 0.2 steps for the arrangement of wavy elements (b ≤ 0.2t) contributes to the organized removal of the main amount of droplet moisture. Increasing this distance increases the aerodynamic drag of the device, which is undesirable. In addition, a certain orientation and relative position of the lower and upper visors contribute to the fact that the vapor flow of the lower visors is directed to the upper visors, which somewhat narrow the live section to increase the speed of the vapor air flow. With a high speed, the flow is directed to a curved stretch of path, where large values of centrifugal force arise, causing a better release of moisture from the stream.

 The invention is illustrated by drawings.

 In FIG. 1 shows a fragment of the proposed water catcher, in FIGS. 2 and 3, respectively, view A and B in FIG. 1 are shown.

 The cooler water trap contains alternating wavy elements 1 and spacer gaskets 2 through which the fastening rods 3 pass. Visors 4 and 5 are made on both sides of the wavy elements 1.

 The water trap of the tower is as follows.

 The recycled water heated in the production is fed to the cooling tower, where it is cooled during countercurrent movement with atmospheric air. During evaporative cooling, the water temperature decreases. Steam generated during water cooling is carried away by atmospheric air in the direction of the water trap. When passing through a water trap, droplet moisture is extracted from the steam and air stream and returned to the volume of the tower. The vapor-air flow is discharged into the atmosphere.

 The most effective separation of moisture occurs on a curved section of the path of the vapor-air flow, where under the action of centrifugal forces, moisture drops are discarded to the concave walls and flow down, reaching the visors 4. Partially, the moisture is also separated at the exit section of the path, which is made with a certain radius of curvature. Flowing drops along the convex surface of the wavy elements reach visors 5. On the visors 4 and 5, moisture accumulates and removes in an organized manner from their ends. At the same time, the secondary removal of droplets from the tower is significantly reduced, as a result of which the efficiency of water collection is increased, the condition of the area around the tower is improved.

Sources of information
1. A.S. USSR 851077, IPC F 28 C 1/02, 1981.

 2. A.S. USSR 1386846, IPC F 28 F 25/04, 1988.

 3. A.S. USSR 1262251, IPC F 23 C 1/02, 1986.

 4. A.S. USSR 1262250, IPC F 28 C 1/02, 1986.

 5. RF patent 2044394, MPK F 28 F 25/08, 1995.

Claims (1)

A cooler water trap containing rods of wavy profile fastened by rods, spacer spacers located between them, characterized in that on the lower edges of the wavy elements along their entire length on both sides at some distance from each other are visors at an angle to the vertical of 25-30 ^o and up to 0.2 steps wide between wavy elements.

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