RU2132529C1 - Cooling tower sprinkler sheet - Google Patents

Abstract

FIELD: heat-power engineering; cooling of water in circulating water supply systems. SUBSTANCE: cooling tower sprinkler sheet has projections on both sides which are made in form of truncated cones with curvilinear generatrix. Adjacent projections are engageable by arc corresponding to curvature of generatrix. Lines connecting the vertices of projections on each side of sheet are inclined towards lower edge of sheet at an angle of 30 to 90 deg. EFFECT: enhanced efficiency of heat-and-mass exchange due to reduction of resistance to passage of air through sprinkler. 3 dwg

Description

 The invention relates to a power system, and in particular to devices for cooling water in water recycling systems.

 Known sprinkler heat and mass transfer apparatus made of rectangular sheets with inclined rows of alternating protrusions and depressions.

 The sprinkler block is made by installing adjacent sheets mirrored, on the protrusions of each sheet U-shaped turbulators are made.

 The main disadvantages of the sheets of the sprinkler and the block as a whole are the high aerodynamic resistance to air flow, the presence of stalling phenomena of a film of water, its removal from the sprinkler and the low efficiency of heat and mass transfer.

 The closest in technical essence and the achieved result is a tower sprinkler sheet containing discrete protrusions made on both sides of a rectangular sheet in the form of truncated cones.

 The main disadvantages of such a sheet are the increased resistance to air passage through the sprinkler made of such sheets, stalling phenomena (destruction of the water film) due to the throttling of water and air flows in holes 5, and low heat and mass transfer efficiency.

 The invention eliminates these disadvantages.

The technical result is achieved by the fact that in the sprinkler sheet of the cooling tower containing discrete protrusions in the form of truncated cones made on both sides of the rectangular sheet, according to the invention, the protrusions are made with the same height and curvilinear generatrix, while the adjacent protrusions on each side of the sheet are conjugated in an arc said generatrix, and the lines connecting the axis of the vertices of the protrusions make an angle of 30-90 ^o relative to the horizontal edge of the sheet, with the protrusions on opposite sides of the sheet ra staggered.

 In FIG. 1 shows a sprinkler sheet of a cooling tower; figure 2 is a section aa, a view of one of the sides of the sheet; figure 3 shows a variant of the installation of sheets for the formation of a block of irrigator.

The sprinkler sheet 1 of a rectangular profile contains discrete protrusions 2,3 made on both sides of the sheet in the form of truncated cones. The protrusions 2,3 are made with the same height and a curvilinear generatrix 4. In this case, the generators of 4 adjacent protrusions 2 or 3 on each side of the sheet are conjugated along an arc 5 corresponding to the curvature of the generators 4. The protrusions 2 and 3 on each side of the sheet 1 are arranged so that the lines 6 connecting the axis of the vertices of the protrusions are inclined to the horizontal edge 7 of the sheet 1 at an angle of 30-90 ^o . The protrusions 2 and 3 located on opposite sides of the sheet 1? placed in a checkerboard pattern. When the sprinkler is assembled in a block, sheets 1 are installed with the projections 2 of one sheet adjoining with the projections 3 of another sheet. The sheets 1 are fastened together, for example by gluing adjacent protrusions or in any other way. In this case, discontinuous channels 8 are formed.

 The sprinkler block of sheets 1 is installed in the tower so that the sheets 1 are arranged vertically. The water to be cooled is sprayed onto the upper edge of the sheets 1. The resulting film of water smoothly flows around protrusions 2,3, passes through channels 8 and interacts with the flow of cooling air coming from below. Thanks to the smooth contours of the protrusions 2,3 and channels 8, a continuous flow of the film of water is carried out. The presence of smooth contours of the protrusions 2,3 and channels 8 provides a low level of aerodynamic losses (reduction of resistance to air passage), as well as a high volumetric coefficient of heat and mass transfer, which intensifies the process of cooling water.

Claims (1)

The tower sprinkler sheet containing discrete protrusions in the form of truncated cones made on both sides of the rectangular sheet, characterized in that the protrusions are made with the same height and curvilinear generatrix, while the adjacent protrusions on each side of the sheet are conjugated along an arc of said generatrix, and the lines connecting the axis of the vertices of the protrusions, make an angle of 30 - 90 ^o relative to the horizontal edge of the sheet, while the protrusions on opposite sides of the sheet are staggered.

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