DE2050303B2 - COOLING TOWER - Google Patents

Description

3 4

meme, so that säe with "inem schtwKenn ^ icnörmi- The cooling tower includes a larger number of that

The twist in the sewer cut so that the water to be cooled absorbs cooling segments

here a good convergence of the air currents results. 13. each of which has an inlet side and an outlet

which is an advantage for a good fireplace management. laßseite, the two sides by one

Finally, because of the older inlet, side clearance becomes generally longitudinal

channel also then fcine uniform flow bsrw. in the direction of the perimeter of the cooling tower *

of the cooling segments are achieved "if these" are separated from one another in the interest. According to Figure 2, the

a high cooling capacity comparatively high from cooling segments 13 in a typical embodiment

are led. form a rectangular basic shape. and their input

In an expedient embodiment, the strik- io laßseitefi 13 β are in the circumferential direction in each case »

ken the in the radial direction by an outer by a distance from their outlet sides 13 b

wall and an inner wall closed cooling segment. Furthermore, the cooling segments 13 are in shape

ments over the entire radial BTcäte of the ringfönni- a ring around the vertical central axis 10 a of the

«En cooling zone. By this measure, the cooling tunnels are arranged around in such a way that they are

Given structural possibilities in the interest of 15 chambers 14 are separated through them

a high level of cooling. Air can be supplied. The in this intermediate

Bci use of the individual cooling segments or channels 14 α is added air

: en associated glasses, it is advantageous if deflected in such a way that they each of the cooling segments 13 in

.iie blower aligned with the 1 eerkammern and direction from its inlet side 13 α in the direction of aut

• n in a known manner with radial blowing direction 20 flows through its outlet side 13 b and after

.are arranged in the outer circumference of the cooling zone. Leaving the cooling segments from Räi after 14 h to

D'ic Gehläses can be arranged so that they are taken from which they are placed in an interior

not or only to a non-disruptive extent radially after 100 % of the cooling tunnel. In I "ig. 2 in the general

.must protrude. Despite the radial blowing direction mer ν course of the air flows indicated by arrows 15

the desired flow through the cooling 25 results. According to FIG. 2 each has a cooling segment

> egniente with a component in the circumferential direction. 13 air flow passing through a component ISa of

because the air flow through the upstream inlet is considerable. which are concentric with the

Channels as well as by the location of the inlet and outlet perimeter of the cooling tower in the horizontal direction

irittsoffätze in the cooling segments inevitably runs, so that in the interior of the cooling tower ».

experiences a change of direction. In addition, 30 points entering and moving around the central axis 10 "hen" r,

The blowers arranged in the empty chambers move the air currents away and create a whirling motion.

got up to the cooling fragments. to which they call to associate. This inevitably caused StWi-

are net, and therefore there is icing of the fan. which run along a helical line

not to be filled the web moved upwards, leads to a reinforced

Each blower is expediently entrained with air with a thorough mixing of the moisture

the relevant empty chamber closing blower or gas, so that the density of the air or

semantel \ see, the one to belonging to the gas \ win and the air or the gas

Forms the cooling segment extending diffuser.

will. even with large radial widths and large increases. In a typical construction, sieve.

Height of the cooling zone, a particularly smooth air flow 40 the flow condition of the air the condition of a

mation and even flow approximate the turbulent flow, so that a more intimate

Kiihfsegmente reached. "" Brought about contact between air and water

One embodiment of the invention is in which: As a result, the degree of wet heat increases

Drawing and is shown in the following in more detail of the escaping air, whereby the water cooling lines

describe. It shows "45 stung is increased.

1 shows a side view of an inventive In the empty chambers 14 are partition walls IA or cooling towers. the 1 .eitorgane provided by mechanical means to train the inflowing 1 ul'l to temp works: cause in the cooling segments 13 on their out-F i g. 2 a part of the floor plan of the cooling tower lassscile to enter and the cooling segments c to flow through in the lateral direction in the manner described in FIG. For example, vertically angcord-In FIGS. 1 and 2 one recognizes a dividing wall 16 according to the invention, which are in diamater, generally designated 10 , water-cooling gonal direction between the outer Luden 17 tower with the mechanically generated outlet ropes 13/1 the Kühlsegmcnlc 13 and the train works, and with the air in the horizontal 55 inner linden 18 of the inlet sides 13 <i the Kühlscg direction in the lower part of the interior deep nn-nte. In addition, vertically angular cooling towers are conveyed into it, whereupon the air ncic partition walls 19 and 20 are provided around the in a chimney 11 in the form of a standing cooling segment 13 on the outside or the inner cylinder with a central axis 10 (7 upwards The chimney 11 is, as shown in Fig. 1, in the form of a 60 over the entire height of the cooling segments 12 of the cooling tower one of the outer ends of the cooling segment escapes,
circular plan shape. In the following, in a typical construction, the ciruindas speak of the fact that an air flow is used to cool water that is finely distributed in the radial direction of the similar cooling segments 13, but it should be noted that it is elongated in the direction of the elongated shape, they also extend within the scope of the invention is possible. horizontally inwards, and the product of the common gas to use and / or other fluids radial length of a cooling element and to cool the liquids. The number of segments provided exceeds

considerably the ζ. B. along the circumference of the cooling zone 12 of the cooling tower measured circumferential length, which determined by the circumferential length of the cooling segments on their outside and the number of cooling segments is. As a result, the invention enables, in comparison to cooling towers of the known type a significantly higher value of the ratio between the usable area defined above and the plan area of the cooling tower.

According to FIG. 1 and 2, the fans are offset from the inlet ducts 14 a to the outside and oriented so that they inevitably promote air into the ducts when the blower loader through the associated Motors are driven. Thus, the fans are at a good distance from the cooling segments 13 arranged in order to prevent the rotor blades from icing up, otherwise when it is cold Weather could be caused by splashed water. The channels 14 a also cause that the air currents are supplied to the cooling segments more evenly. The ones provided with rotor blades Blower 30 can be arranged relative to the channels 14 α so that air can pass through unhindered the fan can flow through into the ducts when the fans are not in operation, so

ίο that it is possible in certain weather conditions is to alternatively operate the cooling tower only with natural draft.

The fans 30 can each be provided with a jacket 35 closing off the empty chamber 14 in question be provided, which forms a diffuser extending to the associated cooling segment.

1 sheet of drawings

Claims (4)

1 2 arranged inlet opening for one of the external claims: have the circumference of the cooling zone supplied gas stream and an opposite outlet opening, 1. Cooling tower, in particular of circular shape, through which the gas flows upwards to the central one Cross-section leading to the cooling of a liquid through S an exhaust duct, which is delimited by a zone of a gas flow, in particular an air flow, from the inner circumference of the cooler. a cooling zone made of several rings around the one such cooling tower is from the USA. vertical cooling tower axis distributed, script 3 243 166 as well as cooling segments from the Swiss Paaufrecht standing, the one for tentschrift 308094 already known. Here, fill the gas flow-permeable filling for a long io cooling segments, the annular cooling zone gaps Sames, feinverteüles dripping of the cooling and are merely by radial walls voneinsegmenten at its top fed liquid-other separated The cooling segments will have in the radial sigkeit and each air flows through one direction, for which purpose an inlet opening for the outer circumference, which is arranged vertically, is provided on its surface and an outlet opening is provided on one of its inner circumference, which is fed to the cooling zone from the outer circumference. th gas flow and an opposite training It should have it from Swiss Patent opening leading to the central, from 308,094 also already known, each Einrrirtsöffnung gas upflow uptake shaft leading to assign a blower Zuder bounded by the inner circumference of the cooling zone on the outer circumference of the cooling segments, to achieve a high air throughput and thus is characterized in that the 20 achieve a high cooling capacity.
Cooling segments (13) at a distance in the circumferential direction In these known cooling towers with radial direction to each other and in the flow of air around the cooling capacity is limited by inlet openings (13 a) pointing in the direction that the total area of the inlet and outlet openings (13 ft) have and that openings through the outer circumferential surface, i.e. the ones inside the cooling zone (12) between the 25 diameter of the cooling zone. Therefore, empty space formed adjacent cooling segments must be built to enlarge the air inlet area of the mern (14) by diagonally in the same direction between cooling towers with a larger diameter or with larger adjacent cooling segments and from a greater height, which not only costs the outer circumference to the inner circumference of the cooling zone Big is very important, but possibly extending vertical partitions (16) in 30 also fail due to a lack of space. In addition, an inlet opening upstream of an inlet opening with fans arranged on the outer circumference of this outlet duct (14 a) and an outlet opening protruding radially outward as little as possible are subdivided so that the outlet duct (14 ft) is connected so that there is a risk of the fan icing up that with air inlets, the larger 2. Cooling tower according to claim 1, characterized in that the dimensions of the fans are 35, an unidentified that the uniform flow through the cooling segments in the radial direction is achieved targeting an outer wall (19) and an inner wall. (20) closed cooling segments (13) over the The invention is now based on the object entire radial width of the ring-shaped cooling a cooling tower to be designed in such a way that there is no enlargement zone (12) extend. 40 tion of the required floor space and without significant 3. Cooling tower according to claim! or2 with the increased costs borrowed a higher individual refrigeration line Blowing assigned to cooling segments is achieved. sen, characterized in that the fan This task is in a cooling tower of the (30) aligned with the empty chambers (14) and thereby gein according to the invention In a known manner with radial Blasrich- 45 solves that the Kühlscgmente at a distance in circumferential are arranged on the outer circumference of the cooling zone (12) in relation to one another and are rearranged are. Inlet openings and outlets pointing towards the 4. Cooling tower according to claim 3, characterized in that the openings and inside the indicates that each fan (30) with a cooling zone between adjacent cooling segments relevant empty chamber (14) final 50 formed empty chambers by diago fan jacket in the same direction (35) is provided, the one nal between adjacent cooling segments and from extend to the associated cooling segment (13) - ground the outer circumference to the inner circumference of the cooling zone Diffuser forms. stretching vertical partitions into one one Inlet duct upstream of the inlet opening and 55 an outlet duct downstream of an outlet opening laßkanal are divided. In this way, an enlarged inlet opening and also outlet opening of the individual The invention relates to a cooling tower, in particular to achieve cooling fragments, since also in one those of circular cross-section, for cooling 60 larger number of cooling segments the radial width a liquid through a gas flow, in particular the cooling zone, each for the size of the inlet air flow, with a cooling zone made up of several ring feed and outlet openings is decisive, not smaller distributed around the vertical cooling tower axis. It is also used by the cooling segments orderly, upright cooling segments, the upstream inlet channels a uniform a filling permeable to the gas flow for a flow through the cooling segments, which is achieved slow, finely divided dripping down which also segment out the cooling in the sense of an increase in performance acts on the top of the supplied liquid. Further, the air flows with a movement and one essentially perpendicular component in each case in the circumferential direction through the cooling segment