DE1669882U - HEAT EXCHANGER. - Google Patents

Description

TTärnetauacher

The following are named as £ rf index: Director, Dipl.-Ing. Stefan Guozky

Dipl.Ing.Roland Kemmetmüller.

The invention is eich the task of a mrraetauacher adt aligned or offset, flowed inside and to create essentially cross-flow pipes on the outside, a high heat transfer with low flow resistance of the medium flowing around the pipes this medium large flow velocities, ao result in the known tfärmetauschem of this type when flowing around the Tubes through turbulence high form resistances & s will then the ratio of heat dissipation xu flow resistance is unfavorable and the entire system economically

This love tan de is made according to the invention Moving the flow over the pipes helped the eddy formations of the external flowing medium and a foro-resistance-free Flow around the pipes, especially in the case of large ones Flow velocities, enables «According to pus characteristics the invention is the eddy-free flow of the outside over the

pSSf

"7th I.

1 Drilling of flowing medium forced by guide profiles, the ■: _y «wipe pipes lying one behind the other in a row and / or

i? '

; - »wipe adjacent rows of pipes are provided.

p The tubes dee heat exchanger according to the invention are either | i: in axial? Direction flowed through pipes or form part of $ 'centrifugal disregard! those that are flown through in a known manner inside rotating f "

% In the drawing, the subject matter of the invention is in

! for example, shown in some embodiments.

Fig.1 shows in plan a v? Ärmetauacher with Inside, in the axial direction, through-flow tubes, in section. In the 2 and 3, such a system is associated with one another Cracks illustrated, with the pipes acting as centrifugal separators are trained; here FIG. 2 is a section along the line II - II the Figure 3 la elevation and Figure 3 is a plan cut after the

■ Line III - III of Fig.2. Fig. 4 shows another embodiment

game of the subject matter of the invention also cut and in the I
I ground plan Fig. 5 and 6 show details of further

Leadership foimen. All of Bind's figures are more schematic. I In the sample embodiment according to Fig. 1, the Sr-

Ι aiming for an eddy-free en 3 flow over the tube 1 above all I profile body 3 is provided between the individual Kohrreinen

I are used. This profile body 3 are formed by metal sheets ^

* who rush to their prayer e.g. through punk tschwei. unity held together are. Furthermore, a number of intermediate pieces 2 are located between the tubes 1 Profile body 3 and the intermediate pieces 2 equidistant

■ Ströjaungswege given. The direction of flow is indicated by arrows interpreted. The intermediate pieces 2 are one behind the other

17f 1669 882. Waagncr-Biro Aktiengesellschaft. Vienna, Austria); Vcrtr .: Dr H. Coiler, Dr.-Ing. W. Högcr, Dr.-Ing. E. Maicr, Pat.-AnwäTtc, Stuttgart-O. I heat exchanger. 10. 11. 51. W 4319. Austria 23. 7. 51. (T. 9; line 2)

*'· IN THE

lying pipes 1 in a row to be gas, liquid and dust tight tied together »whereby in one annex adt several such juxtaposed wall-forming rows of tubes divide the entire transversely flowing medium into strictly divided partial flows divided and thus the crossing of the medium by one TelletrosB in another is excluded, LIe entry points 5 and the exit satellites 6 for this medium are provided in the form of a nozzle or a diffuser in order to achieve the Flow also at the inlet and outlet is free and with pressure To lead TÜok profit. In this embodiment, the Pipes 1 Flows straight through in axial direction, the exchange oit deia cross-flowing medium takes place through the pipe walls and via the intermediate pieces 2 instead of * The tubes 1 of the individual rows of tubes are offset from one another.

In the complex, the lst illustrated by Figures 3 and 3 _9, the individual tubes form 1 parts of centrifugal separators. As can be seen from the floor plan of the Firr3, this results in a favorable Maritime Administration arrangement for this combination of a / ärmetausohers with Sliehkraf tabscheidern. The raw gas space is marked 11 «The raw gas flows in the direction of the arrow» 21 through the lead *; Apparatus 13 in the ale Kliehkraf tabsoheider auesre formed tubes 1. <\ m the customer of the fcbscbeider presents the suua ^ eochiedene dust at pemRß arrow ei 22 the separator and gets into the p: etui ns-an en 3taubrauns 14 »The reing & s durolis places this"? fcubröai.i in the Heinrrasphren 15, which in the no -asraum 16 open, the arrows indicate -Rio 23 · in dec? plan iixxch i ^r ii '<3 are the left and right axial SWEi 2wei tangential 2inlauf-LEITAP χ · rats displayed * Oelbstvbrständlich Königg ^ sn in such Anlap. ; e also only asial or only tangential such apparatus V92 * - # rendiinr: to find.

17f 1669 882. Waagner-Birö Akticngc-Seilschaft. Vienna, Austria); Vcrtr ■ Dr

M.iicr, Pal.-Anwältc, Stuttgart-O I heat exchangers. 10. 11. 51. W 4319. Austria 23. 7. 51. (T. 9 · Ζ 2)

7-1 K

The design shown in Figures 2 and 3 is mainly tfuch, advantageous because in Multi-cell systems, the sur available% rwetaußenflächeη eo ipoo ratio "·

are moderately small · To still a good ^ 'ärmeaustauach receivable mentioned above, the transverse flow is performed quickly and verluetfrei, as already in the example of the Fi, has been described 1 ×?.

In the elevation of FIG. 2 it can be seen that the individual separators of the various rows are aligned here · The profile bodies 3 accordingly have a somewhat different shape than in the case of the straight line starkeT at points of curvature of the flow paths guide plates 7 are disposed, which help to reduce the Üffilenkwiderstände "the iintritts and exits points for the transversely flowing medium can be formed düsenföxmlg ¹ and manner of a diffuser to the outlet, also in this system at the inlet ·

In the embodiment according to Figure 4, the profiling in addition to the intermediate pieces 2 also by appropriately trained Wall parts 4 of the Hohre 1 given. By ribs 8, which are essentially lying transversely to the sand parts 4 results in a subdivision of the transversely traversed medium also in one direction • encircled to the axis of the tubes 1 ·

In the case of a special form of training, it is in

As shown in FIG. 5, the riobre 1 are intermediate pieces and the profile body 3 iffl area lying on top of each other Pipes 1 of different rows 3tö: ^ imgn ^ ege with tearing and closing Duroh cross-sections given. At 17 is this passage cross-section big, small at 18. The change takes place on the whole steadily · This construction i3t the vbri: freedom

17f. 1 669 882. Waagncr-Biro Aktiengesellschaft, Vienna (Austria); Vcrtr .: Dr.

H. Göller. Dr.-Ing. W. Högcr. Dr.-lng. E.

• f Mayr. Pat.-Anwälic, Stuttgart-O. | Warmth

i exchanger. 11/10/51. W 4319 Ostcr-

j \ | · reich 23. 7. 51. (T. 9; line 2)

^ <tor Strutting also to the deflection plate with a small radius of curvature

|| The Qeechwin idigkelt is guaranteed at 18 at these points of the strömend® medium increased «This is therefore beneficial. E well in the intermediate pieces 2 between the tubes 1 of a row the conduction of heat through the strong metal piling slows down 1st ■ The rapidly flowing medium then increases the heat transfer again and thus also the heat conduction «Ionleruag, which is to be determined arithmetically and experimentally, With this type of training, you can use the entire 'exchange area always approximately constant thermal conductivity values or thermal passage numbers to be obtained

In a similar sense is also with the execution after

I yig · 6 a change in the passage cross-section can be seen «Hler

However, this change follows through the pipes 1, the intermediate pieces 2 and the profile bodies 3 with reference to a whole row of nohrs As you can see, the free passage cross-section for the cross medium flowing through on entry at 19 small and on exit toe »20 large · Here, for the medium flowing outwards, there is essentially one constant execution speed with simultaneous given a corresponding change in volume.

In both embodiments according to FIGS. 5 and 6, the tubes labeled 1 can either be flat tubes or parts of FliehkTaft-ataiibabecheidern. I the ^ rfincking is on the illustrated huaϋ \ error-

I bel games not limited. The change in the free:) passage

? cross-section according to FIG. 5 can also be used with an aolchen

I be connected to the embodiment according to Fig.6. The Z ^ ischenstiiciic between

<The pipes a Ueihe can each one with the drill; Tück

I form or can be used as a separate body. The profile

i - 5 -

17f. 1669S82. Waagncr-Biro Aktiengesellschaft. Vienna, Austria); Rep .: Dr. H. Coiler. Dr.-Ing. W. Högcr. Dr.-Ing. E. Mayr. Pat. Attorney c. Stuttgart-O. | Heat exchanger. 10. 11. 51. W 4319. Austria 23. 7. 51. (T. 9; line 2)

. ι 54

body aw is oh en the pipe re i hay let aioh also be arranged free-standing and bears are in all cases related, continuous Form walls, especially not with lower flow velocities euaamnen with the inserted, also wall-forming profile bodies exact flow channels that can be dimensioned so that a absolute drainage of the flow is inherent in it. This freedom from demolition In particular, entry is also made through the sinusoidal nozzles the transversely flowing lledium for the whole to be traversed Channel favorably influenced "

Claims (1)

requirements: 1 * Heat exchangers with aligned or staggered, clay flows through and outside essentially transverse flow, characterized by a guidance of the flow over the drilling "(1) weloUe eddy formations of the aaSenetrösaenden oil prevents and a shape-retandand-free ureturning of the tubes (I) ₉ ine -" especially at high flow velocities, enables 2 «* heat exchanger according to claim 1, characterized by« net, dmB vie eddy-free flow of the outside over the pipes (1) flowing medium is forced by guide profiles (2,3,4), the swiechen pipes (1) lying one behind the other in a row and / or are provided between adjacent Rohrreiheti. 3 _# Y / S.rmetau shear that are? Given EADERSHIP profile between successive Hohren (1) through Z ^ ischenslrücTie (2) that "it the tubes a piece form or according to claims 1 and 3, characterized ale separate bodies are soldered end the Flihxungsprofile between adjacent rows of pipes are provided as special profile bodies (3) or as appropriately designed wall parts (4) of the pipes (1), 4 * ^; Heat exchanger according to Claims 1 to 3, characterized in that the pipes (1) are pipes through which there is flow in the axial direction, the heat exchange taking place through the pipe tubes and the intermediate pieces (2), 5 · '/ arm exchangers according to claims 1 to 5, characterized in that the waraetauGiegen ^ .oi.ire (1) form parts of Fliehloraf tabschei der η, which in a well-known way flow through inside rotating (l ^r iri « ^ »3) · - 7 ■ - 669 882. Waagncr-Biro Akticngc- slfp July 23, 51 (T. 9; line 2) • 7.1. β «heat exchanger nadbi the claims 1 bia 5, thereby characterized in that the intermediate pieces (2) the rear lying pipes (l) are connected in a row to form gas-, liquid- and dust-tight walls, being in a system with several such adjacent wall-forming "rows of ears" the entire cross-flowing medium into strictly divided partial flows divided and thus the crossing of the i * edium of a partial atom is excluded from another 7 «heat exchanger according to claims 1 to S, thereby characterized in that the profile body lying between the P-ear rows (3) form continuous walls 8 «heat exchanger according to claims 1 to 7, characterized characterized in that equiaiatante by the Pührungsprofile (2,3,4) Flow patterns are given (> 'ig >> 1 to 4) 9 «heat exchanger according to claims 1 to 7, characterized characterized in that through the intermediate pieces (2) of the rows of tubes and the ProfilXkörper (3) between the rows of tubes in the area of each other Opposite tubes (1) with different rows of flow paths BU and decreasing free passage cross-sections are given (Fig, 5). 10, heat exchanger according to claims 1 to 7, characterized characterized in that the intermediate pieces (3) and profile grains (3) with Relation to an entire row of ronr are provided in such a way that the frfcio Passage cross section for the medium flowing through from the inlet (bsi 19) until the exit (at 30) changes, in particular increases (Fig. 6) 669 882. Waagnc ^ Biro Mrtcngc- 11 «heat exchanger according to claims 1 to 10, daroh marked that the for the qasrdurchatTömer.de medium seen entry points (5) nozzle-shaped and the exit points (6) are planned in advance (ttg.l). 13 "H & anetauscher according to claims 1 to 10 ₉ da" h characterized that in addition to the guide profiles (2, 3, 4) rough white at three points of strong curvature of the flow-white steering echo (7) are arranged (Fig. 2 ) · 13 · Heat exchanger according to claims 1 to 12, calibrated by Hippen (8), which are essentially transverse to the Flow profiles (4) lie (^ ig.4). 14, heat exchanger according to claims 1 to IS, characterized in that the profile body (3) in the pipes (l) · The intermediate pieces (2) are supported, for example by tSbe fu.dgl. -S-