DE3726058A1 - Heat exchanger for gases with sharply differing temperatures, especially in the cross countercurrent construction - Google Patents

Abstract

In such a heat exchanger with a bundle-like profile pipe matrix, the pipe separators must be vibration-damping packing elements made from an elastic material, in which elements the pipes of the matrix are directed movably relative to each other, especially in the longitudinal direction of the pipes.

Description

The invention relates to a heat exchanger according to the Preamble of claim 1.

Such a heat exchanger is from DE-OS 29 07 810 known. The known heat exchanger has e.g. one by one common manifold against a hot gas flow U-shaped projecting profile tube matrix. The manifold also has separate compressed air ducts; The matrix is preheated via a compressed air duct Compressed air supplied, there reversing their flow direction heated and then the other compressed air duct leads with a suitable consumer, e.g. the focal Chamber of a gas turbine engine is connected.

Instead of a common manifold for each other separate compressed air ducts can e.g. even with one Such heat exchanger type separate collector or distributor Pipes can be provided as known from DE-PS 31 46 090 is.  

In such known heat exchangers, in which the tube-like matrix from a variety of relative flexible pipes, the individual pipes must be Spacers are kept at a distance so that a uneven arrangement of the tubes in the bundle is avoided. This uneven arrangement of the tubes in the bundle leads to Alleys through which the exchange medium intensifies occurs and the degree of exchange of the heat exchanger deteriorate tert.

Spacers are in the known case mentioned above (DE-OS 29 07 810) as rigid sheet metal plates det, for the purpose of holding and passing the profile pipes are prepunched at appropriate intervals. A such spacing is operational Requirements for high temperature heat exchangers in question unable to cope with standing; the individual profile tubes namely the matrix are comparatively high, thermal subject to conditional strains or differential strains; the profile tubes of the matrix are also high represents vibration-sensitive structure; e.g. B. from shock loads Pipe vibrations caused by driving become practical not steamed; in practice, the profile tubes are stan exposed movements with the resulting Risk of rubbing through the relatively thin-walled Profile tubes on the spacers after already comparative wise short operating times.

From DE-OS 33 29 202 it is indeed in a heat exchanger already known of the kind in question, the individual Profiles of the bundle-like tube matrix in the shape itself supporting sheet metal strips firmly with the profile connect pipes so that the metal strips are included of the pipes can be moved relative to one another in the longitudinal direction of the pipe are spaced; as a result of e.g. B. thermal  conditioned differential movements should only be against each other mutually touching metal strips of a mutual scouring be subjected to movement; it is said sheet metal strip the wearing parts. Despite this in the pipe length direction effective combinability of movements forms this well-known heat exchanger is otherwise an in itself rigid and predominantly dimensionally rigid pipe spacers, sufficient without the occurring tube vibration criteria To be able to take into account.

Another disadvantage of the known heat exchanger is in the comparatively high assembly and manufacturing costs of Spacer seen, in particular in that individual preformed pieces of strip with each the individual profile tubes must be connected.

Disadvantages mentioned regarding relative rigidity, rigid speed and in terms of assembly and production costs of the Spacers are already suggested for those bracket concepts to be expected, which apply to the individual Profile pipes sprayed on in the relevant mounting level, welded or soldered sheets, rings or blocks provide; in addition, these concepts cause an extremely expensive one Manufacturing that a substantial proportion of the total Heat exchanger price.

The invention has for its object to provide a heat exchanger according to the type mentioned, which under control of the operational requirements - particularly visibly occurring shock loads and thermally-related relative movements - enables a low-wear and cost-effective pipe spacing for the profile pipes.

The task is given by the characteristics of the label solved part of claim 1 according to the invention.  

The specified packing elements make it possible, for. B. from Impact loads resulting vibrations of the pipes to fully dampen and at the same time occurring thermally to allow caused ralative movements of the pipes without worth mentioning over relatively long operating times Cause pipe wear. It is important according to the Er find that the spacer is able to dampen said vibrations through internal friction; a limited deformation elasticity of the packing elements in Combination with almost play-free fit of the tubes an important contribution to minimizing pipe wear.

Advantageous embodiments of the invention, in particular in terms of assembly, manufacturing and cheaper practical design of the spacer result from the features of claims 2 to 15, according to are summarized as follows.

The spacer according to the invention can, for. B. using of metal strands made from heat-resistant wire be striped at certain points in the pipe bundles are inserted and outside of the tube bundle with connected and fixed to each other. It is also possible to use an endless strand-like strip that goes through the entire tube bundle is guided, being at the ends of the Pipe bundles folded over and back over a new row of pipes to be led. The fixation can then be made with U-shaped pipe collars inside and outside the tube bundle. It is also conceivable, instead of a strand-like strip made of metal felt. In a further embodiment the invention it is possible to use this strip-shaped metal Etch or emboss metal felts so that they have the outer contour the tubes, which can be elliptical or round, especially are adjusted. It is also possible to use one as a spacer To use perforated metal felt plate, which in the  Pipe bundle, placed upright, the distances between the individual Pipes fixed in the bundle. With this solution, the metal felt plate relatively simple outside the tube bundle in the Housing fixed. A similar arrangement can be used as a distance bracket also one consisting of a metal mesh Plate should be provided.

The advantages of the spacers according to the invention The costs are obvious. Opposite the firm the spacers attached to the pipes, which the known solutions are intended to act as wearing parts struck spacers, e.g. made of metal felt or braid, the advantage of being vibration-damping. this happens e.g. B. with stranded stripe combinations through the numerous very thin wires, which vibrations dampen through internal friction; these thin wires work then also as a wearing part for movements between the Tubes and the spacer.

The invention is, for example, based on the drawings further explained; show it:

Fig. 1 is a side view of a profile tube heat exchanger schematically illustrated in cross-counterflow construction wise,

Fig. 2 shows a first embodiment where the distance holder is constructed in strip form, in this case as a matrix-section II of FIG. 1 as well as below: to reduce number of profile pipes enlarged reproduced,

Fig an primarily embodies. 3 with respect to the local attachment procedure of Fig. 2 distinctive second embodiment of the spacer of strips, also here in the sense of a section according to II of Fig. 1,

Fig. 4 shows a third embodiment of a geometry constructed as a metal plate -Geflecht spacer under assigning a larger of FIG. 1 in section II sense reproduced profile tube,

Fig. 5 shows a fourth embodiment which, in a substantial deviation from Fig. 2 and 3, the structure of a spacer by means of a practically endless through the profile tube bundle or drawn strip strips, here also in the sectional sense II, but enlarged to understand ben and understand

Fig. 6 is a view in viewing direction A in the tube bundle in addition to distance bracket in FIG. 5.

Fig. 1 illustrates a high-temperature heat exchanger in cross-counterflow design already treated at the beginning. It consists here of two compressed air lines 1 , 2 arranged essentially parallel one above the other, which communicate with a tube matrix 3 , which projects on both sides against a hot gas flow H. About the upper Druckluftlei device 1 z. B. relatively cold compressed air D of the matrix 3 supplied on both sides, with each reversing the direction of flow, in the way of the respective outer U-shaped sections of the matrix 3 , in a highly heated state in the lower compressed air line 2 in question, from which it comes according to arrow direction D 'z. B. can be supplied to the combustion chamber of a gas turbine engine; the hot gas flow H can be provided from the exhaust gas stream of the gas turbine engine concerned.

Position 4 in Fig. 1 embodies a circular section of a lower, leg-shaped part of the U-shaped matrix profile tubes with clarification of the hot gas circulation A 'through the profile field in question.

With 6 , 7 , 8 , 9 , 10 , 11 and 12 are schematically indicated in Fig. 1 from spacers for the tubes of the matrix 3 ; with respect to the different variants of the invention, for. B. section II of FIG. 1 on the spacer 6 for the later illustrations and explanations of the invention.

All of the exemplary embodiments explained below according to FIGS . 2 to 6 contain the basic idea that the relevant spacers, for. B. 6 - Fig. 1, made of an elastic material, vibration-damping packing elements, wherein the here for example elliptical or lancet-shaped tubes 13 of the matrix 3 ( Fig. 1), in particular in the longitudinal direction, are relatively movable relative to each other leads GE .

According to Figs. 2 to 5, the respective profile field of the matrix 3 of mutually parallel rows of such tubes 13, the tube rows are each spatially offset to one another such that the profile ends of adjacent rows of tubes while ensuring the required Heißgasversperrung (or flow-through) mesh. Each elliptical tube 13 has two inner channels 15 , 16 separated from one another by a central crosspiece 14 for the compressed air supply.

Explained in detail later after more detail, can - which for the spacer, - in accordance with Figures 2, 3 and 5.. B. 6 - Fig. 1, forming packing elements from strips (single strips - longitudinal) 17 , 18 ( Fig. 2) or 19, 20 ( Fig. 3) or from a practically endless ( Fig. 5) through the tube bundle or drawn Strei fen 21 be constructed or assembled.

The aforementioned strips 17 , 18 and 19 , 20 and 21 can be composed of ge partially high-temperature resistant, strand-like interwoven wires (fine wires).

The strips 17 , 18 and 19 , 20 and 21 can also be made of metal felt, that is an elastic, temperature-resistant material that has particularly good vibration-damping properties.

As a further advantageous alternative to the already briefly discussed FIGS. 2 to 5, FIG. 4 provides a plat-shaped spacer made from an extremely closely woven wire mesh 22 ; it can have a thickness of about 5 mm; the holes 23 for the profile tubes 13 can be made during the braiding or only afterwards; the wire mesh could also be made of several pieces and assembled to facilitate assembly if necessary.

As a further advantageous alternative, a one-piece or multi-piece plate-shaped spacer - within the framework of the basic design according to the invention according to claim 1 - could also be made of a metal felt with the advantageous properties mentioned for the relevant strip designs. This plate configuration can also be pre-punched for profile recording and mounting; or the holes could also be made subsequently.

According to FIGS. 2 and 3, the strips 17 , 18 and 19 , 30 can be guided or pulled through the matrix while mutually enclosing adjacent tube rows. In a further embodiment, the strips 17 , 18 and 19 , 20 can be stamped prefabricated components in adaptation to a reciprocal profile tube enclosure of adjacent rows of tubes.

For example, in the case of "endlessly" guided or drawn strips 21 through the profile tube bundle, a zigzag-shaped arrangement through the tube bundle is in principle provided or drawn; the strip 21 can be guided around the individual profile tubes 13 out of two rows of tubes 24 , 25 while continuously changing its direction.

Further illustrate the Figures 5 and 6 that the respective strip end with an input and output-side section tube 13 'and 13' 'of a respective outermost tube row 24 and 25 -. Stripe with the interposition of pipe clamp 26, 27 and 28 , 29 cuffs or the like - is connected.

To Fig. 2 and 3 it should be mentioned that two adjacent individual strips 17 , 18 and 19 , 20 are connected under locally pliers-like profile tube enclosure with guide or housing wall sections 30 and 31 of the matrix 3 ( Fig. 1).

In other words, according to FIGS. 2 and 3, adjacent strips 17 , 18 and 19 , 20 are guided at the ends, with mutual clamping contact, through recesses of locally slatted-like parts of the wall sections 30 and 31 and on these by means of outer bent or bent end parts or Tongues 32 , 33 and 34 , 35 attached.

The strips, for. B. the adjacent strips 17 , 18 and 19 , 20 according to Figures 2 and 3 at the ends un one above the other and / or with housing wall sections 30 ; 31 of the matrix 3 can be connected by welding or soldering. Concerning the solder joints are e.g. B. in Fig. 2 by L and / or L '.

Claims (15)

1. Heat exchanger for gases of widely differing temperatures, in particular in a cross-countercurrent construction, with a tube-like profile tube matrix having spacers for the tubes, characterized in that the spacers ( 6 ) are made of an elastic material and are vibration-damping packing elements. in which the tubes ( 13 ) of the matrix ( 3 ), in particular in the tube longitudinal direction, are guided to be movable relative to one another. 2. Heat exchanger according to claim 1, characterized in that the packing elements consist of strips ( 17 , 18 ; 19 , 20 ; 21 ) which are composed of high-temperature resistant, strand-like woven wires. 3. Heat exchanger according to claim 1, characterized in that the packing elements are formed from a one-piece or multi-piece, temperature-resistant metal braid ( 22 ). 4. Heat exchanger according to claim 1, characterized in that the packing elements made of metal felt strips sets are. 5. Heat exchanger according to claim 1, characterized in that the packing elements from one or more pieces Metal felt plate are formed.   6. Heat exchanger according to claim 3 or 5, characterized records that the packing elements to the profile tube bracket are prepunched. 7. Heat exchanger according to claim 2 or 4, characterized in that the strips ( 17 , 18 ; 19 , 20 ; 21 ) are stamped prefabricated components in adaptation to a mutual profile pipe enclosure adjacent pipe rows. 8. Heat exchanger according to claim 2 or 4, characterized in that the strips ( 17 , 18 ; 19 , 20 ; 21 ) with mutual profile tube enclosing adjacent tube rows are guided or drawn through the matrix ( 3 ). 9. Heat exchanger according to claim 1 or 8, characterized in that the packing elements of an "endless" through the profile tube bundle guided or drawn strips ( 21 ) are formed. 10. Heat exchanger according to claim 9, characterized in that the strip ( 21 ) is guided or pulled in a zigzag shape through the tube bundle. 11. Heat exchanger according to claim 9 or 10, characterized in that the strip ( 21 ) with continuous change of its direction course each around the individual profile tubes ( 13 ) outermost rows of tubes ( 24 ; 25 ) leads around. 12. Heat exchanger according to one or more of claims 9 to 11, characterized in that the respective strip fenende with an input or output side angeord Neten profile tube ( 13 'or 13 '') of an outermost row of tubes ( 24 or 25 ) - optionally with the interposition of pipe clamping strips ( 26 , 27 or 28 , 29 ), sleeves or the like - is connected. 13. Heat exchanger according to one or more of claims 1, 2, 4, 7 or 8, characterized in that in each case two adjacent individual strips ( 17 , 18 ; 19 , 20 ), under locally tongs-like profile tube enclosure, with guide or housing wall sections ( 30 ; 31 ) of the matrix ( 3 ). 14. Heat exchanger according to claim 13, characterized in that adjacent strips ( 17 , 18 ; 19 , 20 ), at the ends, with mutual clamping contact, through recesses of slatted frame parts of the housing or guide walls leads and to these by means of outer bent or bent end parts or tongues ( 32 , 33 ; 34 , 35 ) are attached. 15. Heat exchanger according to claim 13 or 14, characterized in that adjacent strips ( 17 , 18 ; 19 , 20 ) are connected to one another at the ends and / or to housing wall sections ( 30 ; 31 ) of the matrix ( 3 ) by welding or soldering.