EP0130361A2 - Heat exchanger end palte with arrangement for cooling - Google Patents

Abstract

A device is provided for direct cooling of thick essentially horizontal wall members which are charged with different temperatures and possibly different pressures on their upper and lower sides, such as for cooling a heat exchanger tube sheet. Cooling of the wall member or component from the "cold side" is afford by closed end bores formed in the wall member which bores are open on the "cold side" and closed on the "hot side". Each closed end bore has a tube projecting from the "cold side" of the wall member and extending into the bore with its end within the bore located adjacent the closed end of the bore. The diameter of the tube is smaller than the diameter of the bore so that flow through the tube into the bore can reverse direction at the closed end and flow through the space between the tube and the bore.

Description

The invention relates to a device for cooling thick-walled, essentially horizontally arranged components which are subjected to different temperatures and possibly different pressures on the lower and upper surfaces, in particular for cooling the tube sheets of heat exchangers.

For example, tube sheets of heat exchangers between the circulating gas and water leaving the EH ₃ converter are generally exposed to very different stresses on the cold side on the one hand and hot side on the other, so that proposals have already been made to reduce these stresses by either reducing the temperature differences on both sides or special construction measures can be carried out to reduce the stress caused by the aggressive media. For temperature compensation, for example, DE-OS 30 22 480 of the applicant describes a special recycle gas system. With this known solution, very good results are achieved, particularly in the special field of application.

The object of the invention is to provide a solution with which thick-walled, essentially horizontally arranged components are directly cooled by a special design can be, ie with which the temperature of the "cold side" acts on the component as far as possible.

With a device of the type mentioned, this object is achieved according to the invention in that in the component or tube sheet directed from the upper colder side to the lower warmer side, sealed holes are provided, and that in each hole a protruding to the colder side, in the tube protruding into the base region of the bore is provided, the diameter of which is smaller than that of the bore.

The invention achieves, on the one hand, that "the cold" surface of the component is enlarged by the closed bores. The smaller diameter tubes protruding into this hole make it possible, for example, if Cooling water is on the "cold side" of the component that it is sucked into the holes and ejected again through the pipe protruding upwards to the colder side, so that additional cooling is achieved here.

The closed bore can now be designed in different ways. Thus, the invention provides for a design that the length of the closed bore is less than the thickness of the component or the tube sheet. Ie the hole can be a so-called called called blind hole or it was originally a through hole that was then closed again with a plug or the like.

Another design according to the invention is that the closed bore is designed as a through-bore which is closed with a cap which projects beyond the component on the warmer side. This latter design enables e.g. To design holes protruding beyond the "hot" surface of the component. Is e.g. On the hot side flue gas, the cap protruding into the flue gas stream enables the water to evaporate in the cap when the water is cooled and the vapor bubbles rise to the cold side, so that a "natural circulation" of the cooling water in the closed bore through the central tube he follows. However, this effect is also achieved in the other bore designs, although it can be used particularly advantageously in the latter design.

For a more favorable guidance of the cooling medium in the closed bores, the invention provides in a further embodiment that the bore in the tube sheet is extended to the colder side with a ring or web and the tube arranged in the bore projects over this ring.

Another embodiment of the invention is that the inlet or outlet opening of the cold or heated cooling medium is provided on the tube used with guide elements. In this way, the inlet of the cooling water can be placed in relation to the outlet of the steam emerging from the edge of the closed borehole in such a way that cooling water runs through optimally.

As already stated at the beginning, the invention is particularly suitable for cooling tube sheets of heat exchangers.

The invention is therefore also directed to a tube sheet with a multiplicity of bores for receiving heat exchanger tubes, which is characterized in that some of these bores are provided with a cooling device, with the features mentioned above, individually or in combination. I.e. with a tube sheet e.g. every fourth hole as a blind hole, as a hole with a sealing plug or as a through hole with an outwardly projecting cap each be equipped with the corresponding tube protruding into the hole.

• Fig. 1 und 2 zwei Ausführungsbeispiele der Einrichtung an Rohrböden sowie in
• Fig. 3 bis 5 Verteilungsbeispiele von Einrichtungen an Rohrböden.

The invention is explained below with reference to the drawing, for example. This shows in

• 1 and 2 two embodiments of the device on tube sheets and in
• Fig. 3 to 5 distribution examples of facilities on tube sheets.

Referring to Fig. 1, the device generally designated 1 -__ consists e.g. on a tube sheet 2 of a heat exchanger from a closed bore 3, e.g. a blind bore, and a tube 4 projecting into this closed bore 3 and having a smaller diameter than the bore 3 itself. This results in an annular space 5.

The bore 3 is extended with a ring or web 6 to the colder side designated 7. The warmer side of component 2 is designated 8.

The colder side 7 can e.g. act as cooling medium, while the warmer side 8 can be acted upon by hot gas or the like or by cooled hot gas which has passed through the heat exchanger and has flowed through the heat exchanger tubes designated by 9.

The pipe 5 protruding into the bore 3 itself also additionally projects beyond the ring 6, as can be seen in FIG. 1, and is equipped with a guide element 10, the function of which is described in more detail below.

1 that the length of the bore 3 is shorter than the thickness of the component 2, the embodiment according to FIG. 2 is characterized in that the bore 3 'in the component or tube sheet 2' is designed as a through bore and protrudes into the warmer side 8 'with a cap 11.

As shown in Fig. 2, the cap 11 can be hidden as a sleeve element which has a length such that it also forms the protruding ring 6 'towards the colder side 7'. Of course, the invention is not limited to this design. Otherwise, the functionally identical elements in FIG. 2 are provided with the same reference numerals as those elements in FIG. 1, only with a dash.

• Auf der kälteren Seite 7' soll sich Wasser befinden, auf der wärmeren Seite e' Ileißgas mit allerdings noch über der Verdampfungstemperatur von Wasser bei den entsprechenden Drücken liegender Gastemperatur. Das an der Kappe 11 vorbeistreichende Gas erwärmt das im Ringraum 5' befindliche Wasser derart, daß es verdampft und als Dampf den äußeren Pingraum emporsteigt. Dadurch wird in das Rohr 4' von oben, d.h. von der kalten Seite 7, das dort befindliche Wasser eingesogen, es verdampft in der Kappe 11 oder an den Wandbereichen des Rohrbodens 2^- und tritt wiederum als Dampf aus. Damit ergibt sich ein "Naturumlauf" von Kühlwasser in der Einrichtung 1'. Diese Wirkungsweise ist natürlich die gleiche beim Ausführungsbeispiel nach Fig. 1. Um die Phasen Dampf/Wasser besser zu trennen, sind die Leitelemente 6 bzw. 10 vorgesehen.

The functioning of the device according to the invention is described using the example of FIG. 2:

• On the colder side 7 'there should be water, on the warmer side e' ile gas, but with the gas temperature still above the evaporation temperature of water at the corresponding pressures. The gas flowing past the cap 11 heats the water in the annular space 5 'in such a way that it evaporates and rises as steam to the outer ping space. This will in the tube 4 'of above, ie from the cold side 7, the water located there is sucked in, it evaporates in the cap 11 or on the wall areas of the tube sheet 2 ^- and in turn emerges as steam. This results in a "natural circulation" of cooling water in the device 1 '. This mode of operation is of course the same in the exemplary embodiment according to FIG. 1. In order to better separate the steam / water phases, the guide elements 6 and 10 are provided.

Finally, FIGS. 3 to 5 show distribution examples of the cooling devices 1 and 1-, respectively. Here, part of the bores 12 for the heat exchanger tubes 9 can be equipped with a device as designed according to the invention, i.e. either such bores are designed as blind bores or subsequently closed bores, as shown in FIG. 1, or else are designed in accordance with the exemplary embodiment in FIG. 2.

Of course, the exemplary embodiments described can still be modified in many ways without departing from the basic idea of the invention. Thus, as is also indicated in FIG. 2, the invention is not restricted to a special design of the component to be cooled. Coatings against aggressive media can also be provided here, as can special pipe designs of the hot gas-carrying cooling pipes. The caps 11 protruding into the space 8 of the gas, which is generally aggressive to be cooled be specially coated. 1 can change with such designs, as shown in Fig. 2 u. Like. more. This also applies to the special design of the steam or water guiding elements shown. These can also have other designs, the only essential thing is that it is ensured that the entering cooling water is not prevented from entering by the emerging water vapor.

Claims (6)

1. Device for cooling thick-walled, essentially horizontally arranged components which are subjected to different temperatures and possibly different pressures on the lower and upper surfaces, in particular for cooling the tube sheets of heat exchangers,
characterized in that
in the component or tube sheet (2) from the upper colder side (7) to the lower warmer side (8) directed, closed bores (3) are provided, and that in each bore (3) a protruding to the colder side (7) The tube (4) projecting into the foot region of the bore is provided, the diameter of which is smaller than that of the bore. 2. Device according to claim 1,
characterized in that
the length of the closed bore (3) is smaller than the thickness of the component (2) or the tube sheet. 3. Device according to claim 1,
characterized in that
the closed bore (3 ') is designed as a through bore, which is closed with a cap (11) projecting beyond the component (2') towards the warmer side (8 '). 4. Device according to one of the preceding claims,
characterized in that
the bore (3 or 3 ') in the tube sheet (2) is extended towards the colder side (7) with a ring (6) or web and the tube (4) arranged in the bore projects over this ring (6). 5. Device according to one of the preceding claims,
characterized in that
the inlet or outlet opening of the cold or heated cooling medium is provided with guide elements (6 or 10). 6. tube sheet with a large number of bores for receiving heat exchanger tubes,
characterized in that
part of these bores (12) is equipped with a cooling device (1 or 1 ') according to one of the preceding claims.

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