US2056492A - Heat exchanger - Google Patents
Heat exchanger Download PDFInfo
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- US2056492A US2056492A US754411A US75441134A US2056492A US 2056492 A US2056492 A US 2056492A US 754411 A US754411 A US 754411A US 75441134 A US75441134 A US 75441134A US 2056492 A US2056492 A US 2056492A
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- tubes
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- headers
- conduit
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- 238000010276 construction Methods 0.000 description 13
- 238000005192 partition Methods 0.000 description 10
- 239000000463 material Substances 0.000 description 7
- 239000007788 liquid Substances 0.000 description 5
- 239000002184 metal Substances 0.000 description 4
- 229910052751 metal Inorganic materials 0.000 description 4
- 238000013517 stratification Methods 0.000 description 3
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- 230000005484 gravity Effects 0.000 description 1
- 238000009434 installation Methods 0.000 description 1
- 150000002739 metals Chemical class 0.000 description 1
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- 230000003134 recirculating effect Effects 0.000 description 1
- 230000001105 regulatory effect Effects 0.000 description 1
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- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 description 1
Images
Classifications
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F28—HEAT EXCHANGE IN GENERAL
- F28F—DETAILS OF HEAT-EXCHANGE AND HEAT-TRANSFER APPARATUS, OF GENERAL APPLICATION
- F28F9/00—Casings; Header boxes; Auxiliary supports for elements; Auxiliary members within casings
- F28F9/26—Arrangements for connecting different sections of heat-exchange elements, e.g. of radiators
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F28—HEAT EXCHANGE IN GENERAL
- F28D—HEAT-EXCHANGE APPARATUS, NOT PROVIDED FOR IN ANOTHER SUBCLASS, IN WHICH THE HEAT-EXCHANGE MEDIA DO NOT COME INTO DIRECT CONTACT
- F28D7/00—Heat-exchange apparatus having stationary tubular conduit assemblies for both heat-exchange media, the media being in contact with different sides of a conduit wall
- F28D7/0058—Heat-exchange apparatus having stationary tubular conduit assemblies for both heat-exchange media, the media being in contact with different sides of a conduit wall the conduits for only one medium being tubes having different orientations to each other or crossing the conduit for the other heat exchange medium
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F28—HEAT EXCHANGE IN GENERAL
- F28F—DETAILS OF HEAT-EXCHANGE AND HEAT-TRANSFER APPARATUS, OF GENERAL APPLICATION
- F28F13/00—Arrangements for modifying heat-transfer, e.g. increasing, decreasing
- F28F13/06—Arrangements for modifying heat-transfer, e.g. increasing, decreasing by affecting the pattern of flow of the heat-exchange media
- F28F13/12—Arrangements for modifying heat-transfer, e.g. increasing, decreasing by affecting the pattern of flow of the heat-exchange media by creating turbulence, e.g. by stirring, by increasing the force of circulation
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F28—HEAT EXCHANGE IN GENERAL
- F28F—DETAILS OF HEAT-EXCHANGE AND HEAT-TRANSFER APPARATUS, OF GENERAL APPLICATION
- F28F9/00—Casings; Header boxes; Auxiliary supports for elements; Auxiliary members within casings
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F28—HEAT EXCHANGE IN GENERAL
- F28F—DETAILS OF HEAT-EXCHANGE AND HEAT-TRANSFER APPARATUS, OF GENERAL APPLICATION
- F28F9/00—Casings; Header boxes; Auxiliary supports for elements; Auxiliary members within casings
- F28F9/007—Auxiliary supports for elements
- F28F9/013—Auxiliary supports for elements for tubes or tube-assemblies
Definitions
- This invention relates to improvements in heat exchangers, and more particularly to a unit for transferring heat from one fluid, through a metal wall to another fluid.
- a general object of the invention may be stated as the elimination of the foregoing difficulties by the provision of a heat exchanger so arranged as to facilitate access to the interior of the tubes, at the same time permitting access to the exterior of each of the tubes by the disposition thereof in a layer or layers in each group or pass, the tubes of each pass being supported at the ends and intermediately, but in such a manner that the tubes may be distorted or flexed, within limits, for the purpose of removing foreign matter, such as scale, from both the inside and the outside surfaces of the tubes.
- a further object of the invention is the provision of flow directing elements outside of the tubes, resulting in a more desirable flow of fluid adjacent the exterior tube surfaces, whereby to prevent stratification of the fluid about the tubes.
- Yet another object of the invention is attained in a provision for adjusting, at will, the fiow of the fluids, by gravity, through the unit.
- An additional object is attained in a novel construction of manifold or header elements, such as to permit the use of a standard stock tubing in straight lengths, with plain ends, and without any special fabrication Whatever, and such as to permit any desired arrangement of chambers in the headers, with appropriate inlet and outlet connections to and from each of such chambers.
- An objective attained in present improvements consists in improved facilities for adjusting the elements supporting the several passes of the exchanger, whereby to enable an easy and quick variation in height of the different parts of the system, and thus to facilitate changes in inclination of the conduits, and modification of rate of flow.
- the realization of full facilities for adjustment also is in part attained in a portable or semi-portable assembly requiring no floor anchorage, and in which the upright supporting elements arev or may be adjustably secured to a base structure.
- header or manifold elements provided withremovable partitions, so as to be selectively chambered, and provided with connections such that certain or all of the header chambers may be selectively connected among themselves, or the uid from one circuit of the system directed into the other after passing any selected number of passes of the assembly.
- Fig. 1 is a side elevation of a preferred Vform of exchanger assembly, constructed in accordance with my invention
- Fig. 2 is a sectional elevation illustrating the supporting structure, as viewed along line 2 2 of Fig. 1
- Fig. 3 is a fragmentary vertical section of a header, trough and tube assembly as viewed along line 3 3 of Fig; 4 the header being of a form shown in Fig. 13
- Fig. 4 is a transverse sectional elevation through one end portion of one of the passes of the device, as viewed along line 4 4 of Figs. 3 and 13
- Fig. 5 is a sectional elevation taken in a vertical plane transversely of one of the header elements and as viewed along line 5 5 of Fig. 3; Fig.
- FIG. 6 is a fragmentary sectional detail, showing the man- 50 ner of assembly of the adjustable supporting elements, the section being taken along line 6 6 of Fig.5;
- Fig. 'i is a sectional elevation, in a horizontal plane, as viewed along line 1 7 of Fig. 6;
- Fig. 8 is a fragmentary top or plan View of one of 55 the passes of the exchanger, showing particularly the preferred location of baffle or deector members for imparting a tortuous path to the fluid about the tubes;
- Fig. 9 is a horizontal section taken transversely of one of the header elements, and illustrating a preferred arrangement for reinforcing and strengthening the side walls of the header;
- l() is a fragmentary side elevation of an exchanger unit which is or may be similar to that shown by Fig. 1, except as embodying a unitary base structure common to the several uprights of the supporting frame;
- Fig. 11 is a sectional elevation taken in a horizontal plane, and as viewed along line II-I I of Fig. 10, showing a base structure modified somewhat in respect to that shown by Fig. 1;
- Fig. 12 is a transverse section of the structure shown by Figs. 10 and 11, and as viewed along line I2--I2 of the latter figure, and
- Fig. 13 is a side elevation illustrating diagrammatically the provision of certain valved connections whereby any of the several headers may be selectively interconnected, or connections established between the headers and the trough or conduit elements about the tubes.
- a preferred embodiment of my device includes a plurality of superposed headers or manifold elements Ill disposed in vertically aligned relation at the opposite ends of a supporting structure including upright elements I I hereinafter described.
- the headers or manifolds I are each of box-like shape, being preferably rectangular in horizontal as well as vertical section, and preferably of cast construction.
- Each of the header elements is provided with a detachable closure I2, constituting the outside wall portion, and which is detachably secured in place as by cap screws I3 or equivalent fastenings.
- each of the headers is provided with one or more rows of horizontally aligned openings such as I4, into which are inserted the end portions of tubes I5, my preference being to project the ends, at the time of construction, somewhat inwardly of the headers, the projecting ends then being rolled or expanded into fluid-tight engagement with the inner surface of the manifold, (Fig. 3) whereby to obviate threaded connections at this point.
- This arrangement is of particular advantage because of my present preference to employ a thin-walled ⁇ flexible tubing conducing to rapidity and efficiency of heat transfer through the tube Wall, the thin wall tubing further resulting in a high degree of flexibility, desirable for purposes hereinafter appearing.
- headers I0 are provided with a double row of tube openings, one row being disposed above the other, (Fig. 5).
- the preferred arrangement is to dispose the headers or manifold elements I 0, at opposite ends of the tubes and of the assembly, in vertically staggered relation, so that a desirable fall is provided, say between the uppermost header I Il on one end, and the uppermost header on the opposite end of the device.
- the same relation prevails, in turn, between the upper header, say at the left of Fig. 1, and the second highest header disposed, say at the right hand end of the device.
- the tubes are desirably disposed at an appreciable angle to the horizontal, and thus the openings therefor are inclined, as shown, (Figs. 3 and 9), at a corresponding angle.
- My preference is to construct each pass, between opposite headers, of a series of laterally adjacent tubes spaced from each other only to a slight extent, but with those of each row of each pass located in a common plane.
- a trough member I6 Extending between, and carried by each pair of opposed headers I9, is a trough member I6.
- These troughs are constructed by preference of a sheet material of substantial gauge, preferably a metal so selected as to resist any corrosive effect of fluids to be handled thereby.
- the trough ends are flared outwardly to result in projections or flanges I'l, and lie in the planes of the rear walls of the adjacent headers, to which they may be secured as by cap screws I8.
- the troughs I6 are of such a width as to enclose and embrace the series of tubes I5 constituting the associated pass, and are preferably of such a depth as to extend appreciably above the group of tubes located therein.
- the metal of the troughs, and the connections to the manifolds or headers are such as to permit a certain flexibility of connection incident to alteration in height and slope of the passes and headers, by means hereinafter described.
- each of the troughs I 6 as an intermediate support for the tubes of the associated pass.
- a plurality of elements I9 extending transversely of the several tubes, and serving as supports or rests for the tubes of each pass, between their ends.
- the elements I9 are arranged, preferably, as shown by Fig. 8, in zig-zag fashion, and alternately at greater and lesser angles to the tubes, thus imparting a back and forth movement to the Huid in the trough and around the tubes.
- the mem- 1 bers I9 function as deflectors of fluid vertically of the trough, being provided with suitably shaped surfaces 20 which tend to prevent stratication of the fluid flowing through the troughs.
- Each member I9 thus serves as a baffle, causing that stratum of fluid flowing nearest the bottom of the trough to be deflected upwardly in adjacence to the uppermost or outermost tubes.
- any number of the elements I9 may be employed as desired, and their angles varied according to conditions of flow.
- the elements I9 may be secured in piace as by welding them to the bottom of the trough or outer conduit.
- each of the troughs I 8 is provided with a bottom discharge opening 2
- is provided witha closure IMA, (Fig. 3), which may be considered either as a valve or as a removable door or plate.
- That portion of the device including the tubes is adapted normally for closed circulation of a fluid usually and preferably introduced to the lowermost header I0 as through an opening 22.
- the header is of a heavy wall construction, one of the end Walls thereof may be tapped, as with a standard pipe thread, to which an inlet connection is thus made as by a standard pipe tting.
- the same arrangement may conveniently be employed in connection with the uppermost header I0, into which thereis provided a tapped aperture 23 employed as a discharge opening or outlet from the closed circulating system.
- An inlet for the open circulating portions of the device, including the trough I6, may -be disposed as shown, and may include a pipe end 24 directed into the uppermost trough. Drainage for the open circulating fluid is provided for by a suitable drainage tting 25 which may be directed into a reservoir (not shown), a drain, or piped for return purposes depending upon the nature of the particular installation and intended use of the device.
- a series of adjustable hook elements 26 each engaging one of a series of notches or recessed seats 2l on the upright frame members, the hooks each being provided on one side with a saddle portion in which rest transverse bridge members 28 extending across a pair of the hooks and disposed beneath the headers and between the ends of the troughs.
- the vertical adjustment provided by the elements 26 enables the headers to be located at selected heights and spacing along the vertical members II, thus permitting a variation in fall through the troughs, as well as the tubes, and providing a substantial range of adjustment of flow of each of the fluids through the unit.
- suitable valves may be provided in the inlet 24, the outlet 25, and in the lines connected at the points 22 and 23.
- each of the foot elements 3E provides a suitable base of support for the corresponding upright I I, obviating any necessity for the usual fixed anchorage of such uprights to a oor or other subjacent support.
- a modified base arrangement appears in Figs. 10, 11, and 12, according to which there are provided a pair of longitudinal sill or base elements 34 preferably consisting of stock channel members, and to the upper ange of each of which is secured, as by bolting, foot members 35 generallf,7 resembling or similar tothe elements 32 of Figs. l and 2.
- the elements 35 may be provided with slotted openings 36 to receive securement bolts 3l, thus providing for adjustment of the distances between centers of the uprights.
- the parallel sill members 34 are maintained in spaced assembled relation through the use of tubular vspacers 38 (Fig. 12) Within each of which extends a tie rod or bolt 39 projecting through and laterally beyond the opposite sill members 34, and exteriorly engaged by assembly nuts 40.
- the headers, and hence the tubes may be selectively interconnected so as to shunt out certain of the passes of tubes while ernploying a greater number of the troughs or outer conduits.
- the headers III are so cast or otherwise formed as removably to receive, either a single horizontal partition (Fig. 3) or a double horizontal partition structure formed of plate elements 46 (Fig. 5) between which may be disposed a vertical partition 41.
- the partitions are positioned within the header through the provision of grooves or recesses 48 in the inner walls of the header, and also in the partition 41.
- Suitable pipe openings 49 are provided, preferably a pair in the top wall and a pair in the bottom wall of each header, and which serve to receive inlet and outlet pipes 50, provided with suitable valves hereinafter described.
- Fig. 13 An example selected to yillustrate the possibilities of regulating or varying the course of uid through the device as a result of the provisions of the removable partitions and closures, as well as valved connections 50 and 50', is illustrated diagrammatically by Fig. 13.
- iiuid No. 1 is introduced to the lowermost right hand header IIJ, ilowing upwardly through the tubes of the lowermost pass, into the lowermost chamber of the lower left hand header, out through the connection 50, thence through valve 5 I
- This valve being open, reintroduces this ud to the uppermost chamber of the same header through connection upwardly through the tubes of the pass above, and into the lower chamber of the second right hand header, and outwardly through connection 50.
- fluid No. 1 is introduced to the uppermost trough or outer conduit as through connection 24 heretofore referred to in describing Fig. 1.
- fluid No. 2 is introduced through a connection 50'; a valve 58 connecting the connections 50'and 50 may be considered as closed, because of which the second uid proceeds upwardly through the tubes of the rst pass into the lowermost chamber of the upper left hand header I0, thence outwardly Athrough a connection 50, through an open valve 60 and connection 50' into the upper chamber of the header last mentioned. From this point the second fluid moves through the tubes of the uppermost pass, and into the uppermost right hand header l0.
- the pipe connections such as 55 may, when not in use, be conveniently closed by standard 4pipe caps 65 (Figs. 4 and 8), and such of the threaded openings 49 into the headers, as are not in use, are conveniently closed as by standard threaded plugs (not shown).
- Other forms of fittings and connections may of course be utilized in lieu of the standard pipe fittings, which are herein suggested as a matter of convenience because of ready availability.
- FIGs. 3 and 9 illustrate a further provision consisting'of a recess or notch 15 utilized as best appears in Fig. 3, to receive the associated bridge piece 28, this interengaging relation of parts serving to prevent any endwise movement of the header and trough assembly.
- a variation in the quantities of either fluid handled in a unit of time by the device may be made through wide limits, without seriously affecting the efficiency of exchange, and such variation of flow of each uid handled may, within wide limits, be made independently of the quantity of the other iiuid handled.
- the present manifold and tube construction serves materially to increase the length of travel of the uid flowing outside of the tubes, and minimizes the tendency of such fluid to short circuit within the exchanger. There is thus attained a higher degree of heat transfer, due to higher velocities of iiow, while at the same time sufficient time is allowed for full transfer to take place, since the outside fluid is compelled to cross and recross the unit over its full length, as such uid moves from top to bottom of the device. It will app-ear that the presently described manifold or header construction permits placing the tubes much closer together than is possible according to prevailing practice. This permits the tubes of each pass to be disposed in a common plane, or several such planes, resulting in complete fluid coverage of the outside tube surface, and still permits the high velocity of flow necessary for efficient operation.
- a plurality of flexible tubes of thin wall type disposed in a series .of passes, with adjacent passes of opposite inclination with respect to a horizontal plane therebetween, a conduit about the tubes of each of said passes, headers interconnecting the tubes o-f adjacent passes, disposed beyond the ends of said conduits, and forming closures therefor, the conduits and tubes being so formed and connected to the headers as to permit of variation in inclination, means for supporting the conduits, tubes and headers, including vertical rack members, and supports adjustably suspended i-n spaced seats therefor on the rack members.
- a heat exchanger including a plurality of superposed, inclined conduits, a plurality of tubes disposed in laterally adjacent relation in a cornmon plane transverse of each conduit, a header or manifold, forming a chamber at each end of certain o-f the conduits, and interconnecting the tubes Within adjacent conduits, and means Within the conduits, tending to effect a movement of fluid fr0-m side to side across the tubes therein.
- a heat exchanger including a plurality of inclined superposed groups of fluid conducting elements, the conducting elements of each group being disposed parallel to a common axis and adapted for separately handling two fluids, one of said groups including a conduit for one of said fluids, a plurality yof tubes in laterally adjacent relation, in said conduit, and adapted to conduct the other of said fluids, headers common to said tubes, disposed at each end of each conduit, and forming the ends of said conduits, the tubes land conduits being formed of a flexible material and so connected to the headers as to permit of variation in inclination, a movable supporting structure for said groups of elements, including upright rack elements having defined supporting seats, and supporting elements selectively engaging said seats.
- a plurality of groups of inclined fluid conducting elements those of each group adapted for separately carrying different iiuids and including a plurality of laterally adjacent parallel tubes of flexible construction and a trough of rectangular section surrounding said tubes and disposed with its axis parallel thereto, means in the troughs and tubes for imparting a tortuous movement to the several circulating fluids, and manifolds connecting corresponding ends of adjacent tube groups, the troughs and tubes being flexibly constructed and joined to the manifolds, to permit variation in inclination.
- said manifold having an opposite open side, provided with a removable closure, a partition element removably .disposed inl the manifold, and means other than the tubes for selectively interconnecting the chambers within certain of the manifold.
- a manifold connecting the tubes of the adjacent pass, said manifold having a plane Wall portion apertured to receive the tubeends of a given pass, the tube ends being deformed into fluid-tight connection with said walll portion, a conduit of flexible material about the tubes of each pass, tube-supporting elements within said conduits, formed to provide a tortuous path of fluid iiow laterally across the tubes therein, and vertically adjustable means supporting the conduits near their opposite ends and adapted to permit a variation in inclination of the tubes and conduits of each pass.
- a heat exchanging device a plurality of tubes arranged in groups extending lengthwise of the device, adjacent groups being of opposite inclination, a header element constituting a chamber at each end of each group of tubes, a conduit closed at its ends by, and forming a support for opposite headers, and extending therebetween, and a baflle member disposed within said conduit at an angle to the line of flow therein, the baffle supportingly en-gaging the tubes between their ends and adapted to direct the fluid in the conduit from one side to the other, and across the tubes therein.
- a-plurality of tubes disposed in superposed groups or passes, those of each pass being arranged in laterally adjacent, parallel relation, a conduit surrounding the tubes of each pass, and a plurality of baflies in the lower portion of said conduit, arranged at an anglegto each other and to the axes of the tubes, whereby to direct a ilow of liquid in a direction at an angle to the axes of said tubes, and to oppose straticationrof liquid within the conduit.
- a'group of tubes of relatively'thi'n y flexible material arranged in a plane transverse of they structure and having relatively rigid end connections, a liquid-receiving conduit disposed around said tubes and an element disposed between said tubes and the adjacent wall of said conduit, said element constituting a combined deflector or baffle for liquid flow Within said conduit, and an intermediate support for said tubes, being arranged to oppose stratification of liquid within the conduit, in either horizontal or vertical planes.
- a plurality of tubes arranged with their axes parallel, a conduit about said tubes, a ⁇ manifold at each end of the tubes and a tube support Within said conduit, intermediate the ends of said tubes, said support having a surface adapted and disposed to deflect a fluid stream both horizontally and vertically from an axial course through said conduit.
- a heat exchanging device a plurality of tubes arranged with their axes parallel to each other, manifolds at the opposite ends of said tubes, each of said manifolds having a wall portion apertured to receive the tube ends, a conduit extending along the said tubes, and a pair of baflie members disposed along the lower portion of said conduit, and arranged to direct a iiow of fluid therein, toward opposite sides of the conduit.
- a heat exchanging device including a plurality of tubes arranged in superposed groups, a trough extended along each group of tubes, and a pair of ow control elements in each trough, presented at different angles to the flow therein, and adapted toy prevent stratification of liquid ow in vertical planes, adjacent said tubes.
- a support including vertical members provided with notches, a plurality of troughs extending crosswise of the device and between said vertical members, the troughs being supported near their opposite ends by said vertical members, means selectively engaging the notches for separately adjusting the height of the ends of each trough with respect to said vertical members, a header at each end of each trough, and forming the end Walls of the troughs, each of said headers being of relatively rigid, box-like construction and detachably secured to the troughs, the inner wall of each header being provided with at least one horizontal row of apertures, a plurality of circulating tubes in each trough, and disposed in laterally adjacent spaced relation along the lower part thereof with the tube ends inserted in the apertures in opposite headers and rolled into fluid-tight engagement therewith, each of the headers having a removable outer Wall portion adapted, upon removal, to provide access to the end connections of the tubes connected into the
- a heat exchanger including an inclined conduit, a plurality of tubes Within the conduit, means for separately circulating fluids through the conduit and tubes, means within the tubes for causing a turbulence of fluid in proceeding therethrough, and means within the conduit tending to cause a liow therethrough in a direc-A tion other than parallel to the tubes.
- an inclined conduit In a heat exchanger, an inclined conduit, a plurality of tubes within the conduit, means for supplying separate circulating fluids to the conduit and tubes, a spiral element within each of certain of the tubes, and baille elements Within the conduit, adapted to'direct a fluid flow in crossing and re-crossing relation to the tubes.
- a heat exchanger including a plurality of inclined conduits, tubes Within the conduits, chambered headers connecting certain of the tubes at their corresponding ends, but normally out of communication with the conduits, and means for connecting at least one of the header chambers selectively to the conduits or to another header chamber.
- a heat exchanger including a plurality of inclined conduit elements, a tube element in each conduit element, a header element connected to each end of each tube element, and valved connections for selectively interconnecting said elements.
- a plurality of oppositely inclined passes each including an outer conduit, tubes interiorly thereof and headers connected to the opposite ends of the tubes, a plurality of upright supports related in pair on opposite sides of the passes, and provided with vertically spaced notches, a hook member on each upright selectively engageable with the notches thereon, a bridge piece between opposite hook members, by which the passes are supported, longitudinal sill pieces forming a base, and adjustable connections between the uprights and sill pieces.
- a heat exchanger of a type including a ,plurality of inclined passes, each comprising tubes and a conduit, headers at the ends of each pass, the headers being connected to the tubes, a removable partition in one of the headers for selectively dividing it into a plurality of chambered portions, and connections other than the said tubes, to each of the chambers of the header.
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- Engineering & Computer Science (AREA)
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- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Heat-Exchange Devices With Radiators And Conduit Assemblies (AREA)
Description
M. W. sTOUT HEAT EXCHANGER cft. 6, 1936.
Filed Nov. 23, 1934 4 sheets-sheet 1 INVENTOR.
@ma ma@ M W. Smm www HEAT EXCHANGER Filed NOV. 23, 1934 4 Sheets-Sh-eec 2 NVENTOR.
M. W. STOUT HEAT EXCHANGERl 4 sheets-sheet4 s:
INVENTR.
Filed NOV. 25, 1934..l n
@sin H936. M. W. S11-@UT HEAT EXCHANGER www Filed Nov. 23,- 1934 4 Sheets-@Sheet 4 INVENToR.
Patented Oct. 6, 1936 PATENT OFFICE HEAT EXCHANGER Minor W. Stout,
Kansas City, Mo.
Application November 23, 1934, Serial No. I754,411
20 Claims.
This invention relates to improvements in heat exchangers, and more particularly to a unit for transferring heat from one fluid, through a metal wall to another fluid.
A number of devices are known, for the purpose of effecting transfer of heat between fluids; such heat exchangers have heretofore presented the disadvantages of being diicult to clean, particularly internally; further of being expen- U sive in construction and possessing but a small range of adaptability for handling different quantities of the respective fluids. A further notable disadvantage exists in the short path of travel, in a device of the heretofore prevailing, tubular constructions, of the fluid flowing outside the tubes.
A general object of the invention may be stated as the elimination of the foregoing difficulties by the provision of a heat exchanger so arranged as to facilitate access to the interior of the tubes, at the same time permitting access to the exterior of each of the tubes by the disposition thereof in a layer or layers in each group or pass, the tubes of each pass being supported at the ends and intermediately, but in such a manner that the tubes may be distorted or flexed, within limits, for the purpose of removing foreign matter, such as scale, from both the inside and the outside surfaces of the tubes.
A further object of the invention is the provision of flow directing elements outside of the tubes, resulting in a more desirable flow of fluid adjacent the exterior tube surfaces, whereby to prevent stratification of the fluid about the tubes.
Yet another object of the invention is attained in a provision for adjusting, at will, the fiow of the fluids, by gravity, through the unit. This facility for control, in connection with adjustments and changes in the course of the fluid made possible by the use of valves and connections, results in a wide range of possible variations in the unit quantities of either fluid handled by the device, as well as in the rate and extent of heat transfer between fluids.
An additional object is attained in a novel construction of manifold or header elements, such as to permit the use of a standard stock tubing in straight lengths, with plain ends, and without any special fabrication Whatever, and such as to permit any desired arrangement of chambers in the headers, with appropriate inlet and outlet connections to and from each of such chambers.
Still a further object is attained by the conthe full Width of the unit, the arrangement fur- 5 ther being such that either or both fluids traverse each pass of tubes in the exchanger in a direction and in a path other than parallel to the axes of the tubes.
An objective attained in present improvements consists in improved facilities for adjusting the elements supporting the several passes of the exchanger, whereby to enable an easy and quick variation in height of the different parts of the system, and thus to facilitate changes in inclination of the conduits, and modification of rate of flow. The realization of full facilities for adjustment also is in part attained in a portable or semi-portable assembly requiring no floor anchorage, and in which the upright supporting elements arev or may be adjustably secured to a base structure.
Another object is attained in an improved arrangement of header or manifold elements, provided withremovable partitions, so as to be selectively chambered, and provided with connections such that certain or all of the header chambers may be selectively connected among themselves, or the uid from one circuit of the system directed into the other after passing any selected number of passes of the assembly.
The foregoing and other objects and advantages of the invention will be apparent as the description proceeds and reference is had to the accompanying drawings, in which:
Fig. 1 is a side elevation of a preferred Vform of exchanger assembly, constructed in accordance with my invention; Fig. 2 is a sectional elevation illustrating the supporting structure, as viewed along line 2 2 of Fig. 1; Fig. 3 is a fragmentary vertical section of a header, trough and tube assembly as viewed along line 3 3 of Fig; 4 the header being of a form shown in Fig. 13; Fig; 4 is a transverse sectional elevation through one end portion of one of the passes of the device, as viewed along line 4 4 of Figs. 3 and 13; Fig. 5 is a sectional elevation taken in a vertical plane transversely of one of the header elements and as viewed along line 5 5 of Fig. 3; Fig. 6 is a fragmentary sectional detail, showing the man- 50 ner of assembly of the adjustable supporting elements, the section being taken along line 6 6 of Fig.5; Fig. 'i is a sectional elevation, in a horizontal plane, as viewed along line 1 7 of Fig. 6; Fig. 8 is a fragmentary top or plan View of one of 55 the passes of the exchanger, showing particularly the preferred location of baffle or deector members for imparting a tortuous path to the fluid about the tubes; Fig. 9 is a horizontal section taken transversely of one of the header elements, and illustrating a preferred arrangement for reinforcing and strengthening the side walls of the header; Fig. l() is a fragmentary side elevation of an exchanger unit which is or may be similar to that shown by Fig. 1, except as embodying a unitary base structure common to the several uprights of the supporting frame; Fig. 11 is a sectional elevation taken in a horizontal plane, and as viewed along line II-I I of Fig. 10, showing a base structure modified somewhat in respect to that shown by Fig. 1; Fig. 12 is a transverse section of the structure shown by Figs. 10 and 11, and as viewed along line I2--I2 of the latter figure, and Fig. 13 is a side elevation illustrating diagrammatically the provision of certain valved connections whereby any of the several headers may be selectively interconnected, or connections established between the headers and the trough or conduit elements about the tubes.
As illustrated, a preferred embodiment of my device includes a plurality of superposed headers or manifold elements Ill disposed in vertically aligned relation at the opposite ends of a supporting structure including upright elements I I hereinafter described. The headers or manifolds I are each of box-like shape, being preferably rectangular in horizontal as well as vertical section, and preferably of cast construction. Each of the header elements is provided with a detachable closure I2, constituting the outside wall portion, and which is detachably secured in place as by cap screws I3 or equivalent fastenings. The opposite or rear wall of each of the headers is provided with one or more rows of horizontally aligned openings such as I4, into which are inserted the end portions of tubes I5, my preference being to project the ends, at the time of construction, somewhat inwardly of the headers, the projecting ends then being rolled or expanded into fluid-tight engagement with the inner surface of the manifold, (Fig. 3) whereby to obviate threaded connections at this point. This arrangement is of particular advantage because of my present preference to employ a thin-walled `flexible tubing conducing to rapidity and efficiency of heat transfer through the tube Wall, the thin wall tubing further resulting in a high degree of flexibility, desirable for purposes hereinafter appearing.
As appears from the drawings, at least certain of the headers I0 are provided with a double row of tube openings, one row being disposed above the other, (Fig. 5).
The preferred arrangement is to dispose the headers or manifold elements I 0, at opposite ends of the tubes and of the assembly, in vertically staggered relation, so that a desirable fall is provided, say between the uppermost header I Il on one end, and the uppermost header on the opposite end of the device. The same relation prevails, in turn, between the upper header, say at the left of Fig. 1, and the second highest header disposed, say at the right hand end of the device. The tubes are desirably disposed at an appreciable angle to the horizontal, and thus the openings therefor are inclined, as shown, (Figs. 3 and 9), at a corresponding angle. My preference is to construct each pass, between opposite headers, of a series of laterally adjacent tubes spaced from each other only to a slight extent, but with those of each row of each pass located in a common plane.
Extending between, and carried by each pair of opposed headers I9, is a trough member I6. These troughs are constructed by preference of a sheet material of substantial gauge, preferably a metal so selected as to resist any corrosive effect of fluids to be handled thereby. The trough ends are flared outwardly to result in projections or flanges I'l, and lie in the planes of the rear walls of the adjacent headers, to which they may be secured as by cap screws I8. The troughs I6 are of such a width as to enclose and embrace the series of tubes I5 constituting the associated pass, and are preferably of such a depth as to extend appreciably above the group of tubes located therein. The metal of the troughs, and the connections to the manifolds or headers are such as to permit a certain flexibility of connection incident to alteration in height and slope of the passes and headers, by means hereinafter described.
It is my preference to employ each of the troughs I 6 as an intermediate support for the tubes of the associated pass. To this end there are located, at intervals along the trough, a plurality of elements I9 extending transversely of the several tubes, and serving as supports or rests for the tubes of each pass, between their ends.
The elements I9 are arranged, preferably, as shown by Fig. 8, in zig-zag fashion, and alternately at greater and lesser angles to the tubes, thus imparting a back and forth movement to the Huid in the trough and around the tubes.
Besides serving the purposes noted, the mem- 1 bers I9 function as deflectors of fluid vertically of the trough, being provided with suitably shaped surfaces 20 which tend to prevent stratication of the fluid flowing through the troughs. Each member I9 thus serves as a baffle, causing that stratum of fluid flowing nearest the bottom of the trough to be deflected upwardly in adjacence to the uppermost or outermost tubes. Obviously, any number of the elements I9 may be employed as desired, and their angles varied according to conditions of flow. The elements I9 may be secured in piace as by welding them to the bottom of the trough or outer conduit.
As appears in Fig. 1, each of the troughs I 8 is provided with a bottom discharge opening 2|, at one end; the discharge openings are, however, staggered in location, so that, proceeding according to the normal line of flow from top to bottom of the device, the uppermost trough will be provided with a discharge opening adjacent the second trough, while the latter trough is provided with an opening at the opposite end, and adjacent the third trough, and so through the series of troughs in the unit. So as to enable selective circulation in the troughs, in a manner and for a purpose later appearing, each opening 2| is provided witha closure IMA, (Fig. 3), which may be considered either as a valve or as a removable door or plate.
As is seen from the drawings, that portion of the device including the tubes, is adapted normally for closed circulation of a fluid usually and preferably introduced to the lowermost header I0 as through an opening 22. Since the header is of a heavy wall construction, one of the end Walls thereof may be tapped, as with a standard pipe thread, to which an inlet connection is thus made as by a standard pipe tting. The same arrangement may conveniently be employed in connection with the uppermost header I0, into which thereis provided a tapped aperture 23 employed as a discharge opening or outlet from the closed circulating system. An inlet for the open circulating portions of the device, including the trough I6, may -be disposed as shown, and may include a pipe end 24 directed into the uppermost trough. Drainage for the open circulating fluid is provided for by a suitable drainage tting 25 which may be directed into a reservoir (not shown), a drain, or piped for return purposes depending upon the nature of the particular installation and intended use of the device.
As a convenient means of supporting the circulating elements upon the frame II, I have shown a series of adjustable hook elements 26, each engaging one of a series of notches or recessed seats 2l on the upright frame members, the hooks each being provided on one side with a saddle portion in which rest transverse bridge members 28 extending across a pair of the hooks and disposed beneath the headers and between the ends of the troughs. The vertical adjustment provided by the elements 26 enables the headers to be located at selected heights and spacing along the vertical members II, thus permitting a variation in fall through the troughs, as well as the tubes, and providing a substantial range of adjustment of flow of each of the fluids through the unit. For additional adjustment and regulation of fluid flow, suitable valves, (not shown), may be provided in the inlet 24, the outlet 25, and in the lines connected at the points 22 and 23.
Further facilities for adjustably locating the supporting uprights II, are found in the structure sho-wn by Fig. 1, and include a base or foot member 35 for each of the vertical uprights. Each element 3l) is shown as of modied rectangular shape (Fig. 2) and includes a pair of doWnturned flange members 3|. Supported by the foot 30 is a bolting plate 32, shaped, according to the drawings, as a four leaf clover, and centrally of which is secured, as by welding, the upright II with which the piece is associated. The element 32 is detachably secured as by bolts 33 to the associated element 30. It will thus appear that each of the foot elements 3E) provides a suitable base of support for the corresponding upright I I, obviating any necessity for the usual fixed anchorage of such uprights to a oor or other subjacent support.
A modified base arrangement appears in Figs. 10, 11, and 12, according to which there are provided a pair of longitudinal sill or base elements 34 preferably consisting of stock channel members, and to the upper ange of each of which is secured, as by bolting, foot members 35 generallf,7 resembling or similar tothe elements 32 of Figs. l and 2. In the case of the modified structure, the elements 35 may be provided with slotted openings 36 to receive securement bolts 3l, thus providing for adjustment of the distances between centers of the uprights. The parallel sill members 34 are maintained in spaced assembled relation through the use of tubular vspacers 38 (Fig. 12) Within each of which extends a tie rod or bolt 39 projecting through and laterally beyond the opposite sill members 34, and exteriorly engaged by assembly nuts 40.
Depending upon the nature and temperature differences between the two or more uids to be handled through the exchanger, it may, under certain conditions, be desirable to utilize only one or more of the tube passes, or only one or more troughs of the exchanger, excludingtheremander :from service, or to employ certain passes of tubes for one fluid and otherv passes of tubes for another iluid. Optionally, by the provisions embodied in the 'present structure for realizing such selective circulation, the headers, and hence the tubes, may be selectively interconnected so as to shunt out certain of the passes of tubes while ernploying a greater number of the troughs or outer conduits. By the present improvements provision is also made for recirculation of iiuid, so that a given uid proceeds, for example, rst through one or more passes of tubes and thence into one or more passes of the troughs. To the end of thus selectively circulating or recirculating the fluids, the headers III are so cast or otherwise formed as removably to receive, either a single horizontal partition (Fig. 3) or a double horizontal partition structure formed of plate elements 46 (Fig. 5) between which may be disposed a vertical partition 41. The partitions are positioned within the header through the provision of grooves or recesses 48 in the inner walls of the header, and also in the partition 41. Suitable pipe openings 49 are provided, preferably a pair in the top wall and a pair in the bottom wall of each header, and which serve to receive inlet and outlet pipes 50, provided with suitable valves hereinafter described.
f An example selected to yillustrate the possibilities of regulating or varying the course of uid through the device as a result of the provisions of the removable partitions and closures, as well as valved connections 50 and 50', is illustrated diagrammatically by Fig. 13. In this example iiuid No. 1 is introduced to the lowermost right hand header IIJ, ilowing upwardly through the tubes of the lowermost pass, into the lowermost chamber of the lower left hand header, out through the connection 50, thence through valve 5 I This valve, being open, reintroduces this ud to the uppermost chamber of the same header through connection upwardly through the tubes of the pass above, and into the lower chamber of the second right hand header, and outwardly through connection 50. Upon proceeding upwardly through pipe 52, fluid No. 1 is introduced to the uppermost trough or outer conduit as through connection 24 heretofore referred to in describing Fig. 1.
It may here be noted as my preference, whether i the troughs I6 are open or closed at the top, to employ a splash-box 53 about the inlet 24, the box 53 being provided with an internal baie 54 tending to direct the inflowing stream downwardly and along the axes of the tubes of the uppermost pass. Upon entering the trough I6 of the upper pass, the first uid proceeds downwardly, to discharge through opening 2I into the trough of the second highest pass. In order to permit either introduction or discharge of iiuid to or from the troughs or outer conduits, I provide, preferably, a pair of pipe connections 55 in Y the side walls of at least one, preferably the lower from which the uid is withdrawn through, Vor
enters by the connections 55, have their bottom openings closed by the valves or doors 2 IA..
In the example according to Fig. 1'3', fluid No. 2 is introduced through a connection 50'; a valve 58 connecting the connections 50'and 50 may be considered as closed, because of which the second uid proceeds upwardly through the tubes of the rst pass into the lowermost chamber of the upper left hand header I0, thence outwardly Athrough a connection 50, through an open valve 60 and connection 50' into the upper chamber of the header last mentioned. From this point the second fluid moves through the tubes of the uppermost pass, and into the uppermost right hand header l0. From the single chamber of this last header the pipe 6I now directs the fluid into the trough of the second pass from the bottom ofthe assembly, thence into the 'lowermost trough and out of the system through a pipe 62. For convenience in following the diagram, the course of iiuid No. 1 is indicated by the arrows shown in solid lines, while the course of iiuid No. 2 is indicated by the arrows shown in broken lines. Fluid No. 2 may, for example, be considered as steam, with or without accompanying condensate, and the counter current iluid may be considered as fresh boiler feed water, for example,
From the foregoing it will appear by the selective chambering of the headers through the provisions of removable partitions 46 and/or 41, and through the selective closure of valves such as 5|, 58, 60, etc., any desired circuit of either or both of the fluids may be effected through the diierent passes of the system. It will ofcourse be understood that the valves and branched connections may be employed ancillary to any selected number of headers in the system.
The pipe connections such as 55 may, when not in use, be conveniently closed by standard 4pipe caps 65 (Figs. 4 and 8), and such of the threaded openings 49 into the headers, as are not in use, are conveniently closed as by standard threaded plugs (not shown). Other forms of fittings and connections may of course be utilized in lieu of the standard pipe fittings, which are herein suggested as a matter of convenience because of ready availability.
There has heretofore been discussed the possibility of constructingY the troughs or outer conduits I6 of either open or closed top construction. According to the latter practice it is of course possible to utilize these elements to conduct fluid under some pressure. In ordinary practice, however, if only one of the fluids be under substantial pressure, such fluid is, at least initially, confined to the tube and header portions of the system. In case such pressures are substantial, I'have found it expedient to provide, at least within certain of the headers, an internal tension element to prevent undue deflection of they header walls under the inuence of the pressure. A suggested provision of this kind is illustrated by Fig. 9, according to which the upper and lower walls of the header are bridged by a tie rod lo, threaded at its opposite ends as at 1|, one end engaginga tapped recess 'l2 in one of the walls, while the oppositeend projects through the wall to receive a nut 13. A polygonal or squared shank portion 14 facilitates threading up the connection 'il and 12 internally of the header. Figs. 3 and 9 illustrate a further provision consisting'of a recess or notch 15 utilized as best appears in Fig. 3, to receive the associated bridge piece 28, this interengaging relation of parts serving to prevent any endwise movement of the header and trough assembly.
It will have appeared from the nature and location of the baiile elements I9, that the fluid in proceeding from end to end of each of the troughs I6, is caused to pursue a tortuous cours-e, crossing and recrossing the tubes. I have determined that the rate and efficiency of heat exchange are further increased by imparting a certain tortuous movement or turbulence to the fluid within the tubes. This is accomplished in the illustrated eX- ample through the agency of spiral members 76, each of which is required to extend only over a portion of the length of the tube, say from its entrance end. Provision for securement of the spiral element within each tube, consists of a downturned lug or ear l1, which may engage a notch and thus prevent either longitudinal or rotative movement of the thimble.
The possibilities for externally circulating, in selective courses, the several fluids, has been heretofore referred to in connection with Fig. 13. The action of the fluids, when the device is in normal use for effecting exchange of heat between uids, each circulating entirely through its own system, may be briefly reviewed forsake of completeness as follows:
The first uid'entering, say at a substantial velocity, through the pipe connection 22 (Fig. l) in the lowest headeror manifold, passes back and forth in an upward direction within the several passes or groups of tubes I5, until it leaves theunit through the discharge opening 23 in the uppermost manifold. The second uid, entering through inlet 24, travels in the troughs and Outside of the tubes, back and forth in a downward direction. Due to the preferred use of a thin-wall material in the tubes, the second fluid is thus brought into intimate thermal contact with the first fluid, and a highly efficient transfer of heat is effected between the iluids. A variation in the quantities of either fluid handled in a unit of time by the device, may be made through wide limits, without seriously affecting the efficiency of exchange, and such variation of flow of each uid handled may, within wide limits, be made independently of the quantity of the other iiuid handled.
It will appear from the preceding description that, as compared with older devices intended for heat interchange purposes, the present manifold and tube construction serves materially to increase the length of travel of the uid flowing outside of the tubes, and minimizes the tendency of such fluid to short circuit within the exchanger. There is thus attained a higher degree of heat transfer, due to higher velocities of iiow, while at the same time sufficient time is allowed for full transfer to take place, since the outside fluid is compelled to cross and recross the unit over its full length, as such uid moves from top to bottom of the device. It will app-ear that the presently described manifold or header construction permits placing the tubes much closer together than is possible according to prevailing practice. This permits the tubes of each pass to be disposed in a common plane, or several such planes, resulting in complete fluid coverage of the outside tube surface, and still permits the high velocity of flow necessary for efficient operation.
The described construction permits a wide choice inselec'tion of materials for the tubes and troughs due to the expedients for fastening the tubes and bailles to the manifolds. Thus any material which is capable of fabrication, maybe employed, and certain metals may thus be utilized, which because of certain natural characteristics, are difficult to bend or weld. 1
While the invention has been described by making detailed reference to a p-resently preferred embodiment thereof, it is manifest that such .description is to be considered only in an illustra.- tive, and not in a limiting sense, since the various parts may be modified, certain thereof omitted, or others added, without departing from the spirit and full intendment of the invention as defined by the claims hereunto appended.
I claim as my invention:
1. In a heat exchanger, a plurality of flexible tubes of thin wall type, disposed in a series .of passes, with adjacent passes of opposite inclination with respect to a horizontal plane therebetween, a conduit about the tubes of each of said passes, headers interconnecting the tubes o-f adjacent passes, disposed beyond the ends of said conduits, and forming closures therefor, the conduits and tubes being so formed and connected to the headers as to permit of variation in inclination, means for supporting the conduits, tubes and headers, including vertical rack members, and supports adjustably suspended i-n spaced seats therefor on the rack members.
2. A heat exchanger including a plurality of superposed, inclined conduits, a plurality of tubes disposed in laterally adjacent relation in a cornmon plane transverse of each conduit, a header or manifold, forming a chamber at each end of certain o-f the conduits, and interconnecting the tubes Within adjacent conduits, and means Within the conduits, tending to effect a movement of fluid fr0-m side to side across the tubes therein.
3. A heat exchanger including a plurality of inclined superposed groups of fluid conducting elements, the conducting elements of each group being disposed parallel to a common axis and adapted for separately handling two fluids, one of said groups including a conduit for one of said fluids, a plurality yof tubes in laterally adjacent relation, in said conduit, and adapted to conduct the other of said fluids, headers common to said tubes, disposed at each end of each conduit, and forming the ends of said conduits, the tubes land conduits being formed of a flexible material and so connected to the headers as to permit of variation in inclination, a movable supporting structure for said groups of elements, including upright rack elements having defined supporting seats, and supporting elements selectively engaging said seats.
4. In a heat exchanger, a plurality of groups of inclined fluid conducting elements, those of each group adapted for separately carrying different iiuids and including a plurality of laterally adjacent parallel tubes of flexible construction and a trough of rectangular section surrounding said tubes and disposed with its axis parallel thereto, means in the troughs and tubes for imparting a tortuous movement to the several circulating fluids, and manifolds connecting corresponding ends of adjacent tube groups, the troughs and tubes being flexibly constructed and joined to the manifolds, to permit variation in inclination.
5. In a heat exchanging device, a plurality of superposed groups of tubes of flexible, thin wall type, extended lengthwise of the device, the tubes of each group being disposed in a common plane, a conduit of flexible construction, about each group of tubes, a manifold carried by the ends of the conduit at each end of each group of tubes,
and `having an apertured closed side, the apertures adapted to receive the ends of said tubes, said manifold having an opposite open side, provided witha removable closure, a partition element removably .disposed inl the manifold, and means other than the tubes for selectively interconnecting the chambers within certain of the manifold.
6. Ina heat exchanger consisting of a plurality of tubes .of a thin-wall type arranged in superposed inclined passes, a manifold connecting the tubes of the adjacent pass, said manifold having a plane Wall portion apertured to receive the tubeends of a given pass, the tube ends being deformed into fluid-tight connection with said walll portion, a conduit of flexible material about the tubes of each pass, tube-supporting elements within said conduits, formed to provide a tortuous path of fluid iiow laterally across the tubes therein, and vertically adjustable means supporting the conduits near their opposite ends and adapted to permit a variation in inclination of the tubes and conduits of each pass.
i7. In a heat exchanging device, a plurality of tubes arranged in groups extending lengthwise of the device, adjacent groups being of opposite inclination, a header element constituting a chamber at each end of each group of tubes, a conduit closed at its ends by, and forming a support for opposite headers, and extending therebetween, and a baflle member disposed within said conduit at an angle to the line of flow therein, the baffle supportingly en-gaging the tubes between their ends and adapted to direct the fluid in the conduit from one side to the other, and across the tubes therein.
8. In a heat exchanging device, a-plurality of tubes disposed in superposed groups or passes, those of each pass being arranged in laterally adjacent, parallel relation, a conduit surrounding the tubes of each pass, and a plurality of baflies in the lower portion of said conduit, arranged at an anglegto each other and to the axes of the tubes, whereby to direct a ilow of liquid in a direction at an angle to the axes of said tubes, and to oppose straticationrof liquid within the conduit.
9. 'In a heat exchanger, a'group of tubes of relatively'thi'n y flexible material arranged in a plane transverse of they structure and having relatively rigid end connections, a liquid-receiving conduit disposed around said tubes and an element disposed between said tubes and the adjacent wall of said conduit, said element constituting a combined deflector or baffle for liquid flow Within said conduit, and an intermediate support for said tubes, being arranged to oppose stratification of liquid within the conduit, in either horizontal or vertical planes.
10. In a heat exchanging device, a plurality of tubes arranged with their axes parallel, a conduit about said tubes, a` manifold at each end of the tubes and a tube support Within said conduit, intermediate the ends of said tubes, said support having a surface adapted and disposed to deflect a fluid stream both horizontally and vertically from an axial course through said conduit.
11. In a heat exchanging device, a plurality of tubes arranged with their axes parallel to each other, manifolds at the opposite ends of said tubes, each of said manifolds having a wall portion apertured to receive the tube ends, a conduit extending along the said tubes, and a pair of baflie members disposed along the lower portion of said conduit, and arranged to direct a iiow of fluid therein, toward opposite sides of the conduit.
12. In a heat exchanging device including a plurality of tubes arranged in superposed groups, a trough extended along each group of tubes, and a pair of ow control elements in each trough, presented at different angles to the flow therein, and adapted toy prevent stratification of liquid ow in vertical planes, adjacent said tubes.
13. In a heat exchanging device arranged for concurrent movement of two fluids in opposite directions, a support including vertical members provided with notches, a plurality of troughs extending crosswise of the device and between said vertical members, the troughs being supported near their opposite ends by said vertical members, means selectively engaging the notches for separately adjusting the height of the ends of each trough with respect to said vertical members, a header at each end of each trough, and forming the end Walls of the troughs, each of said headers being of relatively rigid, box-like construction and detachably secured to the troughs, the inner wall of each header being provided with at least one horizontal row of apertures, a plurality of circulating tubes in each trough, and disposed in laterally adjacent spaced relation along the lower part thereof with the tube ends inserted in the apertures in opposite headers and rolled into fluid-tight engagement therewith, each of the headers having a removable outer Wall portion adapted, upon removal, to provide access to the end connections of the tubes connected into the header.
14. A heat exchanger including an inclined conduit, a plurality of tubes Within the conduit, means for separately circulating fluids through the conduit and tubes, means within the tubes for causing a turbulence of fluid in proceeding therethrough, and means within the conduit tending to cause a liow therethrough in a direc-A tion other than parallel to the tubes.
15. In a heat exchanger, an inclined conduit, a plurality of tubes within the conduit, means for supplying separate circulating fluids to the conduit and tubes, a spiral element within each of certain of the tubes, and baille elements Within the conduit, adapted to'direct a fluid flow in crossing and re-crossing relation to the tubes.
16. A heat exchanger including a plurality of inclined conduits, tubes Within the conduits, chambered headers connecting certain of the tubes at their corresponding ends, but normally out of communication with the conduits, and means for connecting at least one of the header chambers selectively to the conduits or to another header chamber.
17. A heat exchanger including a plurality of inclined conduit elements, a tube element in each conduit element, a header element connected to each end of each tube element, and valved connections for selectively interconnecting said elements.
18. In a heat exchanger assembly, a plurality of oppositely inclined outer conduits, headers at the ends thereof, tubes within the outer conduits interconnecting the headers, a plurality of upright members provided with vertical rows of recessed seats, a suspension element on each upright member, selectively engaging the seats thereon, bridge pieces carried by the suspension elements, supporting the conduits headers and tubes, and supports at the bottom of the upright members, with respect to which said members are adjustable.
19. In a heat exchanger assembly, a plurality of oppositely inclined passes, each including an outer conduit, tubes interiorly thereof and headers connected to the opposite ends of the tubes, a plurality of upright supports related in pair on opposite sides of the passes, and provided with vertically spaced notches, a hook member on each upright selectively engageable with the notches thereon, a bridge piece between opposite hook members, by which the passes are supported, longitudinal sill pieces forming a base, and adjustable connections between the uprights and sill pieces.
20. In a heat exchanger of a type including a ,plurality of inclined passes, each comprising tubes and a conduit, headers at the ends of each pass, the headers being connected to the tubes, a removable partition in one of the headers for selectively dividing it into a plurality of chambered portions, and connections other than the said tubes, to each of the chambers of the header.
MINOR W. STOUT.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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US754411A US2056492A (en) | 1934-11-23 | 1934-11-23 | Heat exchanger |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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US754411A US2056492A (en) | 1934-11-23 | 1934-11-23 | Heat exchanger |
Publications (1)
Publication Number | Publication Date |
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US2056492A true US2056492A (en) | 1936-10-06 |
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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US754411A Expired - Lifetime US2056492A (en) | 1934-11-23 | 1934-11-23 | Heat exchanger |
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US4106558A (en) * | 1975-08-06 | 1978-08-15 | Societe Anonyme Francaise Du Ferodo | Deflector for heat exchanger tube, its manufacturing method and exchanger comprising such deflectors |
US8534346B1 (en) * | 2006-11-16 | 2013-09-17 | Climatecraft Technologies, Inc. | Flexible heat exchanger |
US20210404752A1 (en) * | 2020-06-29 | 2021-12-30 | Lummus Technology Llc | Heat exchanger hanger system |
US11719141B2 (en) | 2020-06-29 | 2023-08-08 | Lummus Technology Llc | Recuperative heat exchanger system |
-
1934
- 1934-11-23 US US754411A patent/US2056492A/en not_active Expired - Lifetime
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US4106558A (en) * | 1975-08-06 | 1978-08-15 | Societe Anonyme Francaise Du Ferodo | Deflector for heat exchanger tube, its manufacturing method and exchanger comprising such deflectors |
US8534346B1 (en) * | 2006-11-16 | 2013-09-17 | Climatecraft Technologies, Inc. | Flexible heat exchanger |
US20210404752A1 (en) * | 2020-06-29 | 2021-12-30 | Lummus Technology Llc | Heat exchanger hanger system |
US11719141B2 (en) | 2020-06-29 | 2023-08-08 | Lummus Technology Llc | Recuperative heat exchanger system |
US11821699B2 (en) * | 2020-06-29 | 2023-11-21 | Lummus Technology Llc | Heat exchanger hanger system |
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