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US3170512A - Heat exchanger - Google Patents

Heat exchanger
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US3170512A
US3170512AUS268945AUS26894563AUS3170512AUS 3170512 AUS3170512 AUS 3170512AUS 268945 AUS268945 AUS 268945AUS 26894563 AUS26894563 AUS 26894563AUS 3170512 AUS3170512 AUS 3170512A
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heat exchange
porous
heat
jacket
tube
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US268945A
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John F D Smith
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Carrier Corp
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Carrier Corp
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Description

Feb. 23, 1965 J. F. D. SMITH HEAT EXCHANGER Filed March 29, 1963 FIG. 4
FIG. I
INVENTOR. JOHN F. D. SMITH.
ATTORNEY.
United States Patent 3,170,512 HEAT EXCHANGER John F. D. Smith, Fayetteville, N.Y., assignor to Carrier Corporation, Syracuse, N.Y., a corporation of Delaware Filed Mar. 29, 1963, Ser. No. 268,945 3 Claims. (Cl. 165110) This invention relates generally to heat exchange apparatus. More particularly, this invention pertains to improved heat exchange tubes for use in condensers.
Typical construction of condensers herein under consideration, comprises an enclosed shell having a plurality of heat exchange tubes disposed therein forming interior passageways. The shell is provided with suitable connections for passing two fluid mediums in heat exchange relationship with each other such that heat is transferred from one of the mediums to the other. The heat exchange tubes conduct a first fluid medium through their interior and provide a surface over which a second fluid medium in the gaseous state may flow. The temperature difference between these two fluid mediums is such that the second fluid medium will condense by dissipating its heat of condensation to the first fluid medium.
A substantial quantity of heat may be rejected in this manner; however, the heat transfer capacity of a given size condenser is limited to a great extent by the temperature difference between the two fluid mediums and is also highly dependent upon the contact surface available for heat transfer.
It is an object of this invention to improve the heat transfer performance of condensers for use in refrigeration systems and the like.
Another object of this invention is to provide a heat exchange tube having a porous heat transfer surface and an arrangement for drainage of condensate.
These and other objects of this invention are achieved in the illustrated embodiments by providing a condenser having a plurality of horizontal heat exchange tubes disposed Within its outer shell. These tubes are each comprised of an impervious metal pipe substantially covered by a porous metal jacket to define an elongated opening along the bottom of the jacket. Portions of the pipe and jacket are in spaced relation forming a plurality of annular passageways in communication with the opening in the bottom so that condensate formed in the porous jacket may flow into the passageways and drain out the opening into a drain trough.
The porous jacket is formed of a compacted metal powder that provides a very large surface area in relation to its volume available for heat transfer and may be any metal possessing good thermal conducting characteristics, for example, electrolytically produced dendritic copper powder. The term porous as used herein is defined as the characteristic of a body having a large number of minute internal cavities of capillary size which form surface interstices in communication with a number of the internal cavities to provide minute passageways whereby a fluid medium may pass through the body.
The various features and advantages of this invention will become apparent from the following description when considered in connection with the drawings wherein:
FIGURE 1 is a diagrammatic sectional view of a condenser having heat exchange tubes in accordance with this invention;
FIGURE 2 is an end view of a heat exchange tube as contemplated by this invention;
FIGURE 3 is a sectional view of the heat exchange tube shown in FIGURE 2;
FIGURE 4 is a sectional view of the heat exchange tube in a modified form as contemplated by this invention.
3,170,512 Patented Feb. 23, 1965 Referring more particularly to the drawings, FIG- URE 1 shows a condenser 11 having anouter shell 13 with a plurality of heat exchange tubes 15 horizontally disposed therein and supported by thetube sheets 16. Condenser 11 is provided withconnections 17 and 19 for conduction of a first fluid medium which passes through the interior of the heat exchange tubes 15. A second condensable medium enters the condenser 11 atconnection 21 located in the upper portion of theshell 13 and the formed condensate leaves the bottom of theshell 13 from adrain connection 23.
The construction of heat exchange tubes 15 in accordance with this invention is shown by FIGURES 1 and 2. Animpervious metal pipe 25 has formed therein a plurality ofannular indentations 27 spaced along the longitudinal axis ofpipe 25. Aporous metal jacket 29 substantially covers theimpervious metal pipe 25 and defines an elongated opening 31 (FIGURE 2) extending along the bottom of thejacket 29. Fixed within the opening is atrough 32 as disclosed in US. Patent No. 2,983,115 and is incorporated herein by reference. Theporous metal jacket 29 andannular indentations 27 combine to form therebetween the walls of internalannular passageways 33 which communicates with the opening 31 at the bottom ofjacket 29. Theimpervious pipe 25 andporous jacket 29 may be mechanically bonded totogether by any suitable method such as brazing to form a good thermal bond therebetween.
Theporous metal jacket 29 employed by this invention is generally a preformed body formed of a compacted metal powder, for example, electrolytically produced dendritic copper powder. The process used to compact the metal powder may be any number of techniques in the powder metallurgical art providing the resulting compact remains porous as heretofore defined. It is desirable that the compact be sintered to provide rigidity, however, the operation must be such that the internal cavities are not sealed off from communication with each other.
In FIGURE 4, there is shown a modification of the heat exchange tube 15 as contemplated by this invention. In this construction theimpervious metal pipe 25 is provided with a plurality of extended fins 35 thereon and is the type frequently employed in heat exchangers. The sameporous metal jacket 29, heretofore described, substantially covers the extended fins 35 and may also be mechanically bonded thereto. A plurality of internalannular passageways 33 which communicate with the opening 31 (FIGURE 2) are again formed between theimpervious pipe 25 andporous jacket 29 defined by the extended fins 35. Thetrough 32 is included in this construction.
The operation is such that the first fluid medium passing through the interior of the heat exchange tubes 15 removes heat from a condensable medium delivered into thecondenser shell 13 throughconnection 21. The condensable medium enters the many internal cavities of theporous jacket 29 wherein it gives up its heat of condensation and condenses. The condensate continues on through theporous jacket 29 into theinternal passageways 33 wherein it is conducted to theelongated opening 31 for drainage into thetrough 32. Asecondary tube sheet 34 is provided at one end adjacent one of thetube sheets 16 and interconnects thetrough 32 of each tube to theconnection 23 for drainage from condenser 11.
In addition to the high heat transfer performance obtained by this invention, other advantages are provided over prior art condensers. For example, it is possible to reduce the size and obtain the same capacity due to the large heat transfer area provided by the porous metal jacket without a proportional increase in volume.
Various other advantages and applications will occur 3 to those skilled in the art and it is understood that this invention is not limited to the described embodiments but may be otherwise practiced within the scope of the following appended claims:
I claim:
1. A condenser comprising an elongated, heat conducting, impervious, metal, heat exchange tube, the enterior surface of said heat exchange tube having a shape defining a plurality of substantially circumferentially extending, substantially annular, grooves; a porous heat conducting, metal jacket being secured in heat exchange relation with substantially the entire exterior surface of said heat exchange tube and defining with said annular grooves a plurality of condensate passages; said porous metal jacket having formed therein an opening extending below and in communication with each said annular passage of said heat exchange tube, said opening defining a passage for the removal of condensate from said plurality of condensate passages.
2. A condenser as defined in claim 1 further including a relatively impervious, channel shaped, trough member, secured to said porous jacket and extending below said opening formed in said porous metal jacket, said trough being adapted to pass condensate from said plurality of condensate passages to a desired location.
3. A condenser of a type adapted to condense re-,
frigerant vapor for use in a refrigeration system comprising a condenser shell having a passage for admitting refrigerant vapor into said shell and a passage for withdrawing refrigerant condensate therefrom; a plurality of hollow impervious, metal heat exchange tubes disposed substantially horizontally within said shell, each said heat exchange tubes having an exterior surface having a shape defining a plurality of substantially circumferentially extending, substantially annular, grooves; a porous heat conducting metal jacket being secured in heat ex 1 impervious channel shaped trough member secured to said porous jacket and extending below said opening formed in said porous metal jacket, said trough being adapted to pass condensate from said plurality of condensate passages; a pair of tube sheets supporting said heat exchange tubes within said shell and defining with said shell a passage for the admission and withdrawal of a cooling heat exchange fluid for passage through the interior of said heat exchange tubes; a third tube sheet disposed adjacent and in spaced relation with one of said 1 pair of tube sheets, said third tube sheet defining with said one tube sheet a chamber for the collection and withdrawal of condensate, said channel shaped trough member extending through said third tube sheet and being open to said chamber formed between said third tube sheet and said one tube sheet so as to discharge condensatedrained from said condensate passages, along said trough, into said chamber.
References Cited by the Examiner UNITED STATES PATENTS 2,361,854 10/44 McCormack 62505 2,941,759 6/60 Rice et al 133 2,983,115 5/61 Caswell 165110 X CHARLES SUKALO, Primary Examiner.
KENNETH W. SPRAGUE, Examiner.

Claims (1)

1. A CONDENSER COMPRISING AN ELONGATED, HEAT CONDUCTING, IMPERVIOUS METAL, HEAT EXCHANGER TUBE, THE ENTERIOR SURFACE OF SAID HEAT EXCHANGE TUBE HAVING A SHAPE DEFINING A PLURALITY OF SUBSTANTIALLLY CIRCUMFERENTIALLY EXTENDING, SUBSTANTIALLY ANNULAR, GROOVES; A POROUS HEAT CONDUCTING, METAL JACKET BEING SECURED IN HEAT EXCHANGE RELATION WITH SUBSTANTIALLY THE ENTIRE EXTERIOR SURFACE OF SAID HEAT EXCHANGE TUBE AND DEFINING WITH SAID ANNULAR GROOVES A PLURALITY OF CONDENSATE PASSAGE; SAID POROUS METAL JACKET HAVING FORMED THEREIN AN OPENING EXTEND-
US268945A1963-03-291963-03-29Heat exchangerExpired - LifetimeUS3170512A (en)

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Cited By (29)

* Cited by examiner, † Cited by third party
Publication numberPriority datePublication dateAssigneeTitle
US3315736A (en)*1964-09-171967-04-25Continental Oil CoCondenser in sample fractionating system
US3394756A (en)*1967-05-011968-07-30United Aircraft CorpPorous plate condenser
US3428126A (en)*1967-02-151969-02-18Olin MathiesonHeating unit
US3565166A (en)*1966-02-011971-02-23United Aircraft CorpPorous plate condenser-separator
JPS4819250U (en)*1971-07-131973-03-05
US3797559A (en)*1969-07-311974-03-19Union Carbide CorpRotary heat exchanger and apparatus
US3905203A (en)*1973-06-151975-09-16Carlyle W JacobRefrigeration and water condensate removal apparatus
US4064914A (en)*1974-05-081977-12-27Union Carbide CorporationPorous metallic layer and formation
US4108241A (en)*1975-03-191978-08-22The United States Of America As Represented By The Administrator Of The National Aeronautics And Space AdministrationHeat exchanger and method of making
US4150551A (en)*1975-01-151979-04-24Paul EislerCooling apparatus
DE3101574A1 (en)*1980-01-211982-02-18Cummins Engine Co., Inc., 47201 Columbus, Ind. FILTER AND COOLING DEVICE FOR THE LUBRICANT CIRCUIT OF INTERNAL COMBUSTION ENGINES AND OIL FILTERS AND ADAPTERS FOR FITTING SUCH AN OIL FILTER TO THE ENGINE BLOCK
US4355636A (en)*1979-07-211982-10-26Dragerwerk AgHumdifier and heater for air to be inhaled for connection to an inhalation conduit of a respirator
US4359086A (en)*1981-05-181982-11-16The Trane CompanyHeat exchange surface with porous coating and subsurface cavities
US4453496A (en)*1981-08-011984-06-12Miura Co., Ltd.Multitubular once-through boiler
US4495988A (en)*1982-04-091985-01-29The Charles Stark Draper Laboratory, Inc.Controlled heat exchanger system
WO1985001571A1 (en)*1983-10-051985-04-11Vapor CorporationShell and tube heat transfer apparatus and process therefor
US4548262A (en)*1983-03-311985-10-22Hull Francis RCondensing gas-to-gas heat exchanger
US4593754A (en)*1980-06-241986-06-10Holl Richard AShell and tube heat transfer apparatus and process therefor
USRE35283E (en)*1988-11-011996-06-25Helmich; Arthur R.High efficiency water distiller
US5540277A (en)*1991-10-101996-07-30Societe Nationale Elf AquitaineMethod for improving heat and mass transfers toward and/or through a wall
US6666909B1 (en)*2000-06-062003-12-23Battelle Memorial InstituteMicrosystem capillary separations
US20050229553A1 (en)*2000-06-062005-10-20Tegrotenhuis Ward EConditions for fluid separations in microchannels, capillary-driven fluid separations, and laminated devices capable of separating fluids
US20060032242A1 (en)*2003-01-272006-02-16Tegrotenhuis Ward EMethods for fluid separations, and devices capable of separating fluids
EP1662213A1 (en)*2004-11-242006-05-31Daewoo Electronics CorporationCooling system with economiser circuit
US20080099191A1 (en)*2005-02-022008-05-01Carrier CorporationParallel Flow Heat Exchangers Incorporating Porous Inserts
US7540475B2 (en)2005-09-162009-06-02Battelle Memorial InstituteMixing in wicking structures and the use of enhanced mixing within wicks in microchannel devices
US20090255290A1 (en)*2008-04-012009-10-15Battelle Memorial InstituteMethods For Separating a Fluid, And Devices Capable Of Separating a Fluid
WO2014194045A1 (en)*2013-05-312014-12-04Corrosion Monitoring Service, Inc.Corrosion resistant air preheater with lined tubes
US10323888B2 (en)*2016-04-182019-06-18Corrosion Monitoring Service Inc.System and method for installing external corrosion guards

Citations (3)

* Cited by examiner, † Cited by third party
Publication numberPriority datePublication dateAssigneeTitle
US2361854A (en)*1940-12-271944-10-31Gen Motors CorpRefrigerating apparatus
US2941759A (en)*1957-01-141960-06-21Gen Dynamics CorpHeat exchanger construction
US2983115A (en)*1958-02-031961-05-09Carrier CorpHeat transfer device with condensate drainage means

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication numberPriority datePublication dateAssigneeTitle
US2361854A (en)*1940-12-271944-10-31Gen Motors CorpRefrigerating apparatus
US2941759A (en)*1957-01-141960-06-21Gen Dynamics CorpHeat exchanger construction
US2983115A (en)*1958-02-031961-05-09Carrier CorpHeat transfer device with condensate drainage means

Cited By (35)

* Cited by examiner, † Cited by third party
Publication numberPriority datePublication dateAssigneeTitle
US3315736A (en)*1964-09-171967-04-25Continental Oil CoCondenser in sample fractionating system
US3565166A (en)*1966-02-011971-02-23United Aircraft CorpPorous plate condenser-separator
US3428126A (en)*1967-02-151969-02-18Olin MathiesonHeating unit
US3394756A (en)*1967-05-011968-07-30United Aircraft CorpPorous plate condenser
US3797559A (en)*1969-07-311974-03-19Union Carbide CorpRotary heat exchanger and apparatus
JPS4819250U (en)*1971-07-131973-03-05
US3905203A (en)*1973-06-151975-09-16Carlyle W JacobRefrigeration and water condensate removal apparatus
US4064914A (en)*1974-05-081977-12-27Union Carbide CorporationPorous metallic layer and formation
US4150551A (en)*1975-01-151979-04-24Paul EislerCooling apparatus
US4108241A (en)*1975-03-191978-08-22The United States Of America As Represented By The Administrator Of The National Aeronautics And Space AdministrationHeat exchanger and method of making
US4355636A (en)*1979-07-211982-10-26Dragerwerk AgHumdifier and heater for air to be inhaled for connection to an inhalation conduit of a respirator
DE3101574A1 (en)*1980-01-211982-02-18Cummins Engine Co., Inc., 47201 Columbus, Ind. FILTER AND COOLING DEVICE FOR THE LUBRICANT CIRCUIT OF INTERNAL COMBUSTION ENGINES AND OIL FILTERS AND ADAPTERS FOR FITTING SUCH AN OIL FILTER TO THE ENGINE BLOCK
US4593754A (en)*1980-06-241986-06-10Holl Richard AShell and tube heat transfer apparatus and process therefor
US4359086A (en)*1981-05-181982-11-16The Trane CompanyHeat exchange surface with porous coating and subsurface cavities
US4453496A (en)*1981-08-011984-06-12Miura Co., Ltd.Multitubular once-through boiler
US4495988A (en)*1982-04-091985-01-29The Charles Stark Draper Laboratory, Inc.Controlled heat exchanger system
US4548262A (en)*1983-03-311985-10-22Hull Francis RCondensing gas-to-gas heat exchanger
WO1985001571A1 (en)*1983-10-051985-04-11Vapor CorporationShell and tube heat transfer apparatus and process therefor
USRE35283E (en)*1988-11-011996-06-25Helmich; Arthur R.High efficiency water distiller
US5540277A (en)*1991-10-101996-07-30Societe Nationale Elf AquitaineMethod for improving heat and mass transfers toward and/or through a wall
US7344576B2 (en)2000-06-062008-03-18Battelle Memorial InstituteConditions for fluid separations in microchannels, capillary-driven fluid separations, and laminated devices capable of separating fluids
US20050229553A1 (en)*2000-06-062005-10-20Tegrotenhuis Ward EConditions for fluid separations in microchannels, capillary-driven fluid separations, and laminated devices capable of separating fluids
US6666909B1 (en)*2000-06-062003-12-23Battelle Memorial InstituteMicrosystem capillary separations
US20060032242A1 (en)*2003-01-272006-02-16Tegrotenhuis Ward EMethods for fluid separations, and devices capable of separating fluids
US7051540B2 (en)2003-01-272006-05-30Battelle Memorial InstituteMethods for fluid separations, and devices capable of separating fluids
EP1662213A1 (en)*2004-11-242006-05-31Daewoo Electronics CorporationCooling system with economiser circuit
US20080099191A1 (en)*2005-02-022008-05-01Carrier CorporationParallel Flow Heat Exchangers Incorporating Porous Inserts
US7540475B2 (en)2005-09-162009-06-02Battelle Memorial InstituteMixing in wicking structures and the use of enhanced mixing within wicks in microchannel devices
US20090211735A1 (en)*2005-09-162009-08-27Battelle Memorial InstituteMixing in Wicking Structures and the Use of Enhanced Mixing Within Wicks in Microchannel Devices
US7926793B2 (en)2005-09-162011-04-19Battelle Memorial InstituteMixing in wicking structures and the use of enhanced mixing within wicks in microchannel devices
US20090255290A1 (en)*2008-04-012009-10-15Battelle Memorial InstituteMethods For Separating a Fluid, And Devices Capable Of Separating a Fluid
US8438873B2 (en)*2008-04-012013-05-14Battelle Memorial InstituteMethods for separating a fluid, and devices capable of separating a fluid
WO2014194045A1 (en)*2013-05-312014-12-04Corrosion Monitoring Service, Inc.Corrosion resistant air preheater with lined tubes
US11149945B2 (en)2013-05-312021-10-19Corrosion Monitoring Service, Inc.Corrosion resistant air preheater with lined tubes
US10323888B2 (en)*2016-04-182019-06-18Corrosion Monitoring Service Inc.System and method for installing external corrosion guards

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