DE202011101211U1 - cooling tower - Google Patents

Abstract

Cooling tower with a cooling tower housing and with cooling tower devices received therefrom, characterized in that the cooling tower devices and / or the cooling tower housing are at least partially equipped with a surface which has a light absorption of less than 80%, preferably less than 60%, more preferably less than 50%, even more preferably below 40%.

Description

The invention relates to a cooling tower with a cooling tower housing and recorded therefrom cooling tower facilities.

Cooling towers of the aforementioned type are used in particular to cool liquids, preferably water by means of ambient air. For this purpose, known cooling towers have cooling tower facilities, "cooling tower facilities" in the sense of the invention mean the facilities of the cooling tower, which are used directly or indirectly for cooling. These include, in particular, fluid cooling devices, for example, liquid distributing devices and / or cooling internals, fans, for example fan wheels with vanes and / or their motor arrangements, and / or support devices, for example struts, and / or the like.

It is known from the prior art generic cooling towers, such as from the WO 2009/149954 A1 , They serve to cool a fluid, such as a liquid, wherein the cooling takes place according to the principle of evaporative cooling. The fluid to be cooled is usually water. But there are also so-called acid cooling towers in use, which serve the cooling of acid.

For the purpose of liquid cooling, known cooling towers have a fluid cooling device, which in turn has cooling installations and a liquid distribution device. The liquid to be cooled is sprayed above the cooling installations by means of the liquid distribution device and trickles down along the cooling installations, following the gravitational pull downwards. In this case, the cooling internals are preferably flowed through in countercurrent to the liquid to be cooled by air for the purpose of cooling. As a result of the contact of the liquid to be cooled with the air within the cooling installations, the cooling of the liquid to be cooled takes place as intended.

In order to guide the serving as cooling air ambient air in a pre-described manner by the cooling tower, known cooling towers have an axial fan. This is arranged in the height direction of the cooling tower above the fluid cooling device. During operation, the axial fan sucks from below the fluid cooling device ambient air, which flows as cooling air arranged in the height direction of the cooling tower below the axial fan fluid cooling device. The sucked in by the axial fan ambient air is released after flowing through the cooling installations upwards as heated ambient air to the atmosphere.

The cooling tower devices of a cooling tower are accommodated by its cooling tower housing. In this case, the cooling tower housing of several, for example, consist of two sections, said one section, also called cooling tower shell, on the one hand, the inclusion of the axial fan and the other air duct, whereas the other housing section is provided for receiving a fluid cooling device.

Cooler towers of recent design have a cooling tower housing and cooling tower facilities, which at least partially made of glass fiber reinforced plastic (GRP), mainly the housing and the fan blades, or polyvinyl chloride (PVC) or polypropylene (PP) or polyethylene (PE) u. a., Mainly built-in coolers, mist eliminators, air intake blinds and others are formed. These building materials have proven themselves as building materials, since the thermal stability, the required stability and durability against thermal, static and dynamic loads is given and beyond a simplified processing is also given in terms of more complicated geometric structures. These building materials still have the advantage of weight savings compared to metal or concrete.

Although the use of glass fiber reinforced plastic, polyvinyl chloride and polypropylene as building materials has proven itself in practice, there is a need for improvement, in particular with regard to stability and an increased service life. It is therefore the object of the invention to improve a cooling tower of the type mentioned in such a way that an increased service life and life is achieved.

To solve this problem, a cooling tower of the type mentioned is proposed with the invention, which is characterized in that the cooling tower devices and / or the cooling tower housing are at least partially equipped with a surface having a light absorption of less than 80%, preferably less than 60% more preferably less than 50%, even more preferably less than 40%.

Cooling towers of the known type are designed in their structure and / or in terms of their structural components to an ambient temperature, which is typically below 50 ° C. This interpretation is usually sufficient when using the cooling tower in warm and / or sunny regions of the earth.

However, it has been found that when using glass fiber reinforced plastic, polyvinyl chloride or polypropylene as a building material for the cooling tower housing and / or the Cooling tower facilities the required reliability, especially in sunny regions of the earth can not be guaranteed. This is not because glass fiber reinforced plastic, polyvinyl chloride, polyethylene or polypropylene provides a dark, usually black or anthracite outer surface especially for the last 3 plastics mentioned. This coloration leads, in particular in sunny regions of the earth, to a heating of the components or assemblies of the cooling tower formed from these building materials in the event of prolonged solar radiation. This heating is due to the fact that the dark color of the components or assemblies of the cooling tower formed from these building materials converts the radiant energy of the incident sunlight into heat as far as possible. Thus, it can easily happen, especially in sunny regions of the earth, that, as a result of a solar radiation typical of this region of the earth, components or subassemblies of the cooling tower of 80 ° C. or more formed from these building materials also heat up. For such high temperatures, the components and assemblies of the cooling tower are not designed by default, so that it can lead to failure of the heated components and / or assemblies with the consequence that the entire cooling tower fails. In the worst case, it can even lead to melting of the heated components and / or assemblies. Tropfabscheider and sometimes also cooling installations, which are usually made of polyvinyl chloride or polypropylene, and the fan blades and air intake blinds, which are generally formed of glass fiber reinforced plastic, have shown particular problematic in this context. However, machines such as motors and gearboxes are frequently affected by the strong influence of solar radiation, are significantly reduced in their performance or are damaged in such a way that they fail. In sunny regions of the earth, ie in particular in countries near the equator, these components or subassemblies are hit directly by the vertically radiating sun through the exhaust air opening of the cooling tower housing, on the cooling tower roof or at the air inlet openings. As a result, it can lead to a sometimes extreme heating of these components and / or assemblies by converting the sunlight-induced radiation energy into heat energy.

The embodiment of the invention provides a remedy, whereby the life of the equipped in this form cooling tower is extended in an advantageous manner. Namely, according to the invention, it is provided that the cooling tower devices and / or the cooling tower housing are at least partially equipped with a surface which provides a comparatively low light absorption. According to the invention, the surface is so equipped that the light absorption is less than 80%, preferably less than 60%, more preferably less than 50% and even more preferably less than 40%. Depending on the surface design, even lower light absorptions can be achieved, for example of less than 30% or even less than 20%.

"Light absorption" in the sense of the invention means the ability of the surface to absorb incident light and thus incident radiant energy, d. H. to swallow. The lower the light absorption capacity, the less radiant energy is absorbed by the surface and the less heat energy can be generated by converting the radiant energy. The invention thus proposes equipping the cooling tower devices and / or the cooling tower housing with a surface which makes it possible to convert as little radiant energy induced by light into heat energy. As a consequence, the heating of the cooling tower devices and / or cooling tower housings equipped with such a surface can be minimized even in the case of strong light radiation.

According to the invention, therefore, it is important to equip a known from the prior art cooling tower in terms of its housing and / or its facilities in the surface design so that as little as possible by incident sunlight introduced radiation energy is converted into heat energy. It is therefore provided according to the invention to provide a surface with the lowest possible light absorption properties. The term "light absorption" in the sense of the invention means the radiation absorption or absorption behavior of the surface against incident solar radiation. On average, this surface property is below 80%, preferably below 60%, more preferably below 50% and even more preferably below 40%, in accordance with the embodiment of the invention, whereby even lower values are also included, for example below 35%, below 30%. , below 25% or below 20%.

The invention equipped surface is preferably formed on the most critical components and / or assemblies of the cooling tower. Depending on the specific design of the cooling tower, these are in particular the fans, and here in particular the fan blades, as well as, the droplet and the cooling installations. These components and / or assemblies are directly exposed to the sunlight through the upwardly open cooling tower housing. Air curtains are also exposed directly to this strong radiation. As a result, there may be an extreme heating of these components and / or assemblies by sunlight, resulting in an inventive design of the component and / or Assembly surfaces are minimized and even prevented in accordance with the invention.

According to a further feature of the invention, the radiation absorption or absorption behavior of the surface according to the invention is achieved in that the surface has as light a coloring and / or coloring as possible. This can be achieved, for example, in that the surface is gray and / or white, but preferably white or a radiation-reflecting layer are coated.

Polyvinylchloride, polyethylene and polypropylene and sometimes glass fiber reinforced plastic are typically used in cooling tower construction in a dark, usually black or anthracite color scheme. To design a surface according to the invention, it is to be provided with a light color or coloring or with a reflective layer. This can be achieved, for example, by coating the components and / or building components of the cooling tower to be equipped with a surface according to the invention with a layer providing a light coloring, for example by painting and / or painting. Alternatively, it can be provided to add colorant particles to the plastic used as building material, and / or to use them as a base substance with a light color, so that after completion of the design of the component and / or the construction component there is a surface with a light color. It is preferable to prefer a white, but at least a gray, in particular light gray surface design. Such light-colored surfaces regularly have a light absorption of less than 20%.

In addition or in an alternative embodiment, it can also be provided to equip the surface with a reflection layer. For example, self-adhesive films or other layer designs that improve the reflectance of the surface, ie, that would be conceivable in this context, would be conceivable. H. increase the re-radiation behavior of the surface. With increased re-radiation behavior, the light absorption behavior of the surface decreases proportionally. In this way, therefore, the inventively provided low light absorption can be achieved.

The embodiment according to the invention provides, moreover, the advantage that existing cooling towers can be retrofitted in a simple manner. Thus, the temperature-critical components of the cooling tower - especially the cooling tower housing, the fan blades, gears and motors can also be subsequently formed with an inventively equipped surface by a corresponding surface treatment by coloring, coloring, forming a reflective layer and / or the like. Other affected or damaged cooling tower facilities, such as mist eliminators; Cooling installation and blinds are usually not repaired and therefore replaced according to the invention designed. Essential to the invention is in this context that the subsequent surface treatment such a surface is created, which converts less radiant energy into heat energy due to their consequent reduced light absorption property.

The cooling tower devices which are equipped with a surface according to the invention are preferably fluid cooling devices, in particular liquid distribution devices and / or cooling installations, fans, in particular fan wheels, fan blades and / or motor arrangements therefor, and / or support devices, in particular struts. The cooling tower housing can be equipped both inside and outside with surfaces according to the invention, in particular those parts of the cooling tower housing are equipped with a surface according to the invention, which are exposed in the intended use case of the cooling tower of direct sunlight. These are typically the outer surfaces of the cooling tower housing, in particular the cooling tower shell.

Further features and advantages of the invention will become apparent from the following description with reference to the single 1 showing a schematic side view of a cooling tower.

The cooling tower 19 has a fluid cooling device 27 on. This in turn has a Flüssigkeitsverteileinrichtung 28 on the one hand and cooling installations 20 - also called droplet separator - on the other hand. In height direction 29 of the cooling tower 19 is the liquid distribution device 28 at a height H above the cooling installations 20 or above a uniformly to be acted upon with liquid cross-sectional area 38 arranged. In the illustrated embodiment 6 fall the Flüssigkeitsverteilquerschnitt 38 and the upper end surface of the cooling fixtures 20 together.

The liquid distribution device 28 has a plurality of distribution pipes 24 connected to a common inlet pipe 23 are connected on the liquid side.

Through the cooling tower 19 is by means of a suction fan wheel arranged 37 as a cooling medium ambient air in accordance with the arrows 21 with reference to the plane of the drawing from below led upwards. In the course of passing the air 21 through the cooling tower 19 the air happens 21 the cooling installations 20 , which are formed in three layers in the embodiment shown.

The means of the cooling tower 19 liquid to be cooled, for example water, is supplied via a feed line 22 into the inlet pipe 23 initiated. From there it gets to the distribution pipes 24 , for the purpose of the liquid outlet with tangentially set full cone nozzles 1 are equipped. The distance between the outlet openings of the full cone nozzles 1 and the upper edge of the cooling fixtures 20 determines the spray height H, which is for example 600 mm.

The evenly over the cooling internals 20 distributed hot water 25 in the case shown here it trickles through in countercurrent to the cooling air conveyed from the bottom to the top 21 ,

The after a trickle of cooling installations 20 cooled hot water 25 dripping from the cooling installations 20 off and in the water collection tray 39 collected and continued from there to the systems to be cooled.

For soundproofing, the cooling tower 19 air inlet side a silencer 40 exhibit.

As the illustration also shows, the fan wheel is 37 hanging on a motor-gearbox arrangement 6 - Also called geared motor - arranged. This engine-gearbox arrangement 6 in turn is supported by the cooling tower shell 8th from, for what purpose a single striving 11 formed suspension 10 is provided.

The valve wheel 37 and the engine-gearbox arrangement 6 together form the axial fan 2 out. This is in the illustrated embodiment of Kühlturmmantel 8th added. The fluid cooling device 27 is from another housing section 9 added. The cooling tower shell 8th and the housing section 9 together form the cooling tower housing 3 out.

According to the invention, it is provided that cooling devices and / or the cooling tower housing 3 of the cooling tower 19 at least partially with a surface 4 which provides a comparatively low light absorption of less than 80%, preferably less than 60%, more preferably less than 50%, even more preferably less than 40%. Under "cooling tower facilities" are all components and / or construction facilities of the cooling tower 19 to understand that serve directly or indirectly the fluid cooling. They can be inside or outside the cooling tower housing 3 be arranged. These include in particular the fluid cooling device 27 , For example, the liquid distribution device 28 and / or the cooling installations 20 , the axial fan 2 For example, the fan wheel 37 and / or the engine-transmission assembly 6 , as well as the suspension 10 , especially the struts 11 or other support rods. With a view of the cooling tower housing 3 can the housing section 9 and / or the cooling tower jacket 8th with a corresponding surface 4 be equipped, both outside and inside.

Purpose of the designed in accordance with the invention surface 4 is to minimize the generation of heat energy by converting radiant energy as much as possible. This is especially true for such components and / or component components, which are made of plastic, for example made of glass fiber reinforced plastic, polyvinyl chloride polyethylene or polypropylene, since these materials at higher temperatures of z. B. 50 ° and more tend to deform due to heat and eventually fail, in the worst case even to melt.

In sunny regions of the earth, ie in countries near the equator, there is a nearly vertical solar radiation, as by the in the 1 exemplified sunrays 41 is clarified. Due to this vertical solar radiation in particular the axial fan 2 and the underlying cooling installations 20 through the cooling tower housing, which opens upwards 3 met. In order to avoid caused by this solar heating of these building components, at least to minimize, they are with a surface according to the invention 4 equipped.

In the 1 shown design of the cooling tower 19 is to be understood only as an example. Of course, other designs can be chosen without departing from the scope of the invention. In fact, according to the invention, it does not depend on the design of the cooling tower 19 but on, the cooling cooling devices of the cooling tower 19 at least partially equip with a surface according to the invention in order to achieve the above-described advantage. Thus, for example, embodiments of the prior art are known, according to which non-sucking but pressing fans are used. Such fans are particularly in comparatively large cooling towers 19 driven by separately trained engines and / or transmission, the motors and gearboxes are positioned at pressing fan assembly before them and thus are directly exposed to solar radiation. When sucking fan assembly, the motors are usually on the cooling tower roof, where they are exposed to the sun also unhindered, are arranged. Also the engines and / or Gear units must be protected against direct sunlight, as otherwise a reduction in performance must be accepted. This protection is achieved in accordance with the invention in that the engine and / or transmission housing is equipped with a surface according to the invention.

LIST OF REFERENCE NUMBERS

1

full cone nozzle

2

Axial

3

Cooling tower housing

4

surface

6

Motor-gear assembly

8th

Cooling tower mantle

9

housing section

10

suspension

11

strut

19

cooling tower

20

cooling installations

21

air

22

feed

23

supply pipe

24

distributor

25

hot water

27

Fluid cooling system

28

liquid distribution

29

height direction

37

fan wheel

38

Flüssigkeitsverteilquerschnitt

39

Water collection tank

40

silencer

41

Sunbeams

H

height

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• WO 2009/149954 A1 [0003]

Claims (5)

Cooling tower with a cooling tower housing and recorded therefrom cooling tower facilities, characterized in that the cooling tower devices and / or the cooling tower housing are at least partially equipped with a surface having a light absorption of less than 80%, preferably less than 60%, more preferably less than 50%, even more preferably of less than 40%. Cooling tower according to claim 1, characterized in that the surface has a light coloration and / or coloring. Cooling tower according to claim 3, characterized in that the surface is gray and / or white. Cooling tower according to one of the preceding claims, characterized in that the surface has a reflection layer. Cooling tower according to one of the preceding claims, characterized in that the cooling tower devices are fluid cooling devices, in particular Flüssigkeitsverteileinrichtungen and / or cooling installations, fans, in particular fan wheels and / or motor assemblies, and / or support means, in particular struts.

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