FR2601122A1 - COOLING CHIMNEY FOR COOLING TOWERS - Google Patents

Abstract

IN THIS CHIMNEY CONTAINING BLOCKS 9 OF THE TYPE ALLOWING AN ENVELOPING FLOW, SHAPES OF HONEYCOMB CELLS AND FIXED BY LINK TABS 6 HANGED TO SUSPENSION DEVICES 7, EACH BLOCK 9 INCLUDES AT LEAST TWO TYPE 11 AN ENCLOSING FLOW ARRANGED AT A CERTAIN DISTANCE FROM ONE ANOTHER AND IN THE FORM OF CELLULAR COMPONENTS 12 CONNECTED BY CONNECTING RODS TO SUPPORTS 14 OF SUPPORT BARS 15 ATTACHED TO THE BANDS 6, BETWEEN THE SLEEVES-SPACERS 17 APPLICATION IN PARTICULAR TO COOLING TOWERS IN THE FIELD OF CHEMISTRY AND METALLURGY.

Description

Cooling chimney for cooling towers The present

  The invention relates to a cooling chimney for cooling towers, which

  can be used in the field of energy, chemistry, metallurgy and foodstuffs.

  A known cooling chimney for the cooling towers comprises a plurality of vertically disposed layers of cell bricks which are arranged vertically at a distance from one another. The cells of the bricks of each layer are shifted with respect to the cells of the layers which are adjacent to them. In order to guarantee the maintenance of the vertical distance between the layers, spacers are provided arranged between the respective adjacent layers. The height of the layers lies in the limit of 127 to 203 mm, while the height of the spacers and, respectively, the distance between the adjacent layers are

  between 25 and 102 mm. The layers are arranged one above the other, and the bricks of each layer are balanced by the bricks of the adjacent layers (see British Patent Specification No. 2106662217).

  A fundamental disadvantage of the cooling tower cooling chimney is the multitude of components - bricks and spacers - which cause problems in assembly and disassembly of the cooling stack in the cooling tower. cooling apparatus for cooling towers, which comprises more than one volumetric polymer block of the type allowing enveloping flow. Each block consists of cells arranged in honeycomb. The blocks are detachably mounted in the cooling tower by means of connecting strips, which are suspended vertically from suspension devices, suspended from a supporting framework disposed within the cooling tower. A disadvantage of this cooling stack lies in the relatively large height of the polymer blocks of the type allowing a enveloping flow, which is the cause of an alteration of the

  operation of the heat exchange system and mass exchange between the cooled liquids and the air and causes a reduction in the capacity of the cooling tower.

  Therefore, a general object of the present invention is to develop a cooling tower for cooling towers, in which the process of heat exchange and mass exchange between the liquid and the air is intensified, which leads to an increase in the degree of cooling and efficiency

of the cooling tower.

  This objective is attained by means of a cooling tower cooling chimney of the type comprising at least one volumetric polymer block of the type allowing enveloping flow, provided with cells arranged in honeycomb, the blocks being mounted inside the cooling tower by means of connecting strips, which are hung vertically to

  suspension devices attached to a sup- port frame located inside the cooling tower.

  According to the invention, each block comprises at least two enveloping-flow type layers, which are arranged in the block at a certain vertical reciprocal distance, and each layer 30 is constituted by rows of cellular components releasably connected to the means of connecting rods to support bar links, which are attached to the connecting webs attached to the support devices by means of spacer sleeves between the webs, the suspension devices being blocked

  in position by the spacer sleeves.

  In accordance with an optimal arrangement of enveloping flow-type layers, depending on the charge, the cells of each layer within the block are shifted relative to the cells of the cells.

layers that are close to it.

  According to an alternative embodiment, the layers contained in the block are inclined with respect to the horizontal plane. According to another variant of the invention, a drip irrigation device which consists of

  polymer grids joined together, is mounted above the layers of the type allowing enveloping flow.

  The advantages of the cooling tower for cooling towers are as follows: the fact of providing in the polymer block layers whose configuration is of the type enabling enveloping flow, creates the conditions for an intensification of the heat exchange and the mass exchange between the cooled liquid and the air, and this results in an increase in the capacity of the cooling tower; and providing strings of components and releasably suspended layers and reducing the number of components in each layer makes it possible to

  reduce assembly and disassembly times of the cooling stack in the cooling tower.

  Other features and advantages of the present invention will be apparent from the description given

  BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a vertical sectional view of the cooling tower comprising a cooling duct installed; FIG. 2 is a plan view of the cells and shows their offset in the adjacent layers of a block of the cooling stack; FIG. 4 is a partial vertical transverse sectional view of two layers of the type allowing enveloping flow, attached to the suspension devices connected to the water distribution pipes and

  FIG. 4 is a perspective view of the cooling duct having two layers of the type enabling a wraparound winding and shows the drip irrigation device mounted above said layers and which consists of polymer grids joined together.

  In the cooling tower 1 is installed a cooling stack 2 disposed above holes 3 allowing the cooling air to enter and below the nozzles 4 of the liquid distribution installation 5. The cooling duct 2 is suspended from connecting strips 6 vertically attached to suspension devices 7 connected to the ducting of the dispensing device 5. A drop separator 8 is disposed above the device 5 of FIG.

distribution of the liquid.

  The cooling stack 2 consists of three volumetric polymer blocks 9 of the type allowing enveloping flow and comprising cells in the form of a honeycomb 10 (FIG. 2). Each block 9 comprises layers 11l of the type allowing a flow veloppant and which are arranged vertically in the given block 9 at a certain distance from one another. Each layer 11 is constituted by rows of cellular components 12 which are provided with connecting rods 13. With the aid of the connecting rods 13, the rows of cellular components 12 of a given layer 11 are detachably attached to supports or connecting seats 14 of support webs 15. The support webs 15 are supported by the cylindrical walls 16 of the supports 14 at the level of the connecting strips 6, which are attached to suspension devices 7. The vertical distance between the layers 11 of the type allowing enveloping flow in a given block and between the blocks 9 is fixed by means of spacer sleeves 17 mounted between the

connecting strips 6.

  The enveloping flow type layers 11, which are located in a polymer block 9, are arranged in such a way that the cells of the cellular components 12 of each layer 11 are shifted in staggered rows relative to the cells of the layers. 11 neighbors (Figure 2).

  Above the layers 11 of the polymer block 9 is installed, on the suspension devices 7, a drip irrigation device 18 consisting of

  polymer grids 19 joined together.

  The operation of the cooling tower cooling chimney according to the invention is as follows: The liquid is delivered to the cooling tower 1 via the distribution system 5 and the nozzles 4 and is distributed over the drip irrigation device 18. The liquid is dispersed on the grids 19 of the drip irrigation device 18 and thus reaches the layers 11 of the blocks 9 of the cooling duct 2 of the type allowing a wrapping flow. Due to the relatively small height of the layers 11 and their vertical arrangement at a certain distance in the block 9, a uniform layer of finely dispersed liquid penetrating the cells is established on the walls of the cells. This inten sifies the heat exchange and the mass exchange between the

260112é

  liquid and cooling air penetrating countercurrent through the holes 3 of the cooling tower 1, which increases its capacity.

  For high hydraulic loads, the enveloping flow lines 11, which are present in the block 9, are arranged in such a way that the cells 10 of the cellular components 12 of each layer 11 are offset relative to the cells 10 of the neighboring layers 11 in block 9. This shift increases the total cooling surface and protects the formed liquid curtain, a deviation by vortices formed by the air flowing against the current. After leaving the first layer 11 in the respective block 9 of the cooling stack 2, a part of the liquid falls on the edges of the cells 10 of the underlying layer 11 and is dispersed again, and this intensifies again the heat exchange and the mass exchange between the liquid and the air and makes it possible to increase the

  capacity of the cooling tower 1.

260112E

Claims (4)

  Cooling tower cooling chimney (1) of the type comprising at least one volumetric polymer block (9) of the type permitting enveloping flow, provided with cells arranged in a honeycomb, the blocks being mounted inside the the cooling tower (1) by means of connecting strips (6), which are vertically attached to suspension devices (16) fixed to a supporting framework, characterized in that each block (9) comprises at least two enveloping flow-type layers (11), which are arranged in the block (9) at a certain vertical reciprocal distance, and that each layer (11) is constituted by rows of cellular components (12) which are releasably connected by means of rods (13) for connection to support supports (14) of support bars   (15), which are fixed to the connecting strips (6) hooked to the support devices (7) by means of spacer sleeves (17) located between the strips (6).   Cooling tower cooling chimney according to claim 1, characterized in that each layer (11) is arranged in such a way that its cells (10) are offset relative to the cells.   (10) layers (11) which are adjacent.   3. Cooling tower cooling chimney according to claim 1, characterized in that a drip irrigation device (18) consisting of polymer grids (19) joined together and   disposed above the layers (11) of the type permitting enveloping flow, blocks (9).   Cooling tower cooling chimney according to claim 1, characterized in that the layers (11) are inclined relative to each other. in the horizontal plane.