US1291632A - Heat-interchanging apparatus. - Google Patents
Heat-interchanging apparatus. Download PDFInfo
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- US1291632A US1291632A US15180217A US15180217A US1291632A US 1291632 A US1291632 A US 1291632A US 15180217 A US15180217 A US 15180217A US 15180217 A US15180217 A US 15180217A US 1291632 A US1291632 A US 1291632A
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- Prior art keywords
- tubes
- gills
- heat
- vertical
- heated
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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
- 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
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
- Y10T—TECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
- Y10T29/00—Metal working
- Y10T29/49—Method of mechanical manufacture
- Y10T29/4935—Heat exchanger or boiler making
- Y10T29/49377—Tube with heat transfer means
- Y10T29/49378—Finned tube
- Y10T29/4938—Common fin traverses plurality of tubes
Definitions
- This invention relates to apparatus of thekind by which there is secured an interchange of heat between two fluids while one flows in streams upwardly between metal strips, plates or gills (hereinafter called gills) constituting part ofa structure separating it from the other fluid.
- gills metal strips, plates or gills
- the object of the present invention is to overcome or mitigate this disadvantage and it is achieved by, arranging that the width of the gills in the region or regions aforesaid shall be increased to compensate for variationin the temperature of the streams of fluid that flow between the gills, so that the heat transference shall be more effective.
- the gi ls in lieu of being of constant width, are made wider at the top than at the bottom, it being convenient to make the gills with a gradual taper from the bottom to the top.
- Such gills may be bi-laterally symmetrical with regard to the vertical plane containin the. axes of the set-of heatmg tubes, or t e increase of width of the gllls may be located more to one side of the said vertical plane than the other.
- the diameter of the tubes may advantageously be as small as possible in relation to the width of the gills having regard to the heating agent used and the heat required to be supplled to the gills so as to leave a large proportion of the space between the gills as unrestricted vertical air assages that are freely open at all parts or passage of air and radiant heat.
- the invention in addition to being applicable to tubular heat interchanging apparatus of the kind described in my said former specification can also be applied to other constructions of heat interchanging apparatus as for instance one comprising a vertical chamber through which a heating agent is caused to flow and provided with external gills between which air is caused to flow.
- suc gills as a whole may be diminished to secure a more uniform heat transference.
- Figures 1 and 2 are elevations at right angles to one another and Fig. 3 a vertical transverse section On the line A A of Fig. 1 showing a heat radiator of the type described in my said former specification but provided with gills according to the present invention.
- Fig. at is a horizontal section on the line B B of Fig. 3.
- Fig. 5 is a similar view to Fig. 4 showing a modification.
- Figs. 6, 7 and 8 are similar views to Fig. 3 showing modified arrangements.
- Fig. 9 is a vertical transverse section of another type of heat interchanging apparatus having gills according to the invention applied thereto.
- the metal gills a that are fixed upon the heating tube 6 connected to the end headers of the heat radiator instead of bein made of constantwidth as before, are ma e wider at the top than at the bottom, it being convenient to make them with a gradual taper from the bottom to the top for the purpose hereinbefore set forth.
- Such gills- may be bi-laterally symmetrical with regard to the vertical plane containing the axes of the vertical set of heating tubes b as shown in Fig. 7, or the increase of width of the gills may be located more to one side of the said vertical plane than the other, as shown in Fig. 3,
- Fig. 5 may be arranged in contacting pairs as shown in Fig. 5.
- the latter arrangement is equivalent to employing gill material of varying thickness in cross section which may be adopted to obtain increased contact area with the heating tubes.
- the heating tubes 6 are arranged with their axes in two vertical planes but with no two axes in the same horizontal plane so that air has free access to the tubes all around them.
- the gills a of gradually increasing width from hot tom to top are each shown as arranged sym- 'contact with one another,
- the tubes mav be similarly arranged in two vertical sets when the gills are arranged to overlap one another sidewise as in Fig. 3, if desired and as shown in Fig. 8. In this example pairs of tubes are shown arranged in the same horizontal plane.
- the heating tubes 2 are expanded into a plate 6 at each end, such plates j. forming parts of pressed steel headers of which the parts f constitute covers which are bolted to the plates 6.
- the plates 6 of tWo adjacent radiator sections can be bolted together in after removing their covers f, to form a longer radiator.
- Fig. 9 shows gills of tapered shape applied in apparatus constructed according to the invention described in my former specification No. 684 of 1916 and designed for use as a water cooler, such apparatus comprising two plates 9 arranged to form between them a passage way It for one of the fluids, say a heated fluid is caused to flow, and provided on their outer sides with gills a of tapered shape.
- the apparatus may be used as a water cooler, the heated water to be cooled being caused to flow through the passageway h and air for naeneea cooling purposes being caused to flow through a casing 71 and thereby constrained to flow between the gills a.
- tapered gills as and for the purpose hereinbefore described, can advantageously be used in heat exchanging apparatus of various kinds where air isv caused to flow between the gills to carry ofl heat therefrom and each gill is heated along its length to substantially the same or to an increasing temperature through its attachment to the tubes, chamber or equivalent carrying it and containing the heating.
- Heat interchanging apparatus comprising a hollow structure through which a heated fluid can pass and elongated metal strips attached to and heated by said structure and between which the fluid to be heated is capable of flowing lengthwise of the strips, the part of the structure to which each strip is attached being designed to be heated to substantially the same temperature and each strip increasing in width along its lengthin the direction of flow of the fluid to be heated, and terminating substantially atits widest part.
- Heat interchanging apparatus comprising a hollow structure comprising adjacent tubular sections through which a heated fluid can pass and elongated metal strips attached transversely to and heated by said tubular sections along their length and between which the fluid to be heated is capable of flowing lengthwise of the strips, said strips being made of increased width along their length from the portions thereof with which the fluid to be heated first comes in contact.
- Heat interchanging apparatus comprising a hollow vertically arranged structure through which a heated fluid canflow horizontally in one direction bnly and vertically arranged elongated metal strips attached to and heatedby said structure alon their length and between which the flui to be heated is capable of flowing lengthwise of the strips, said strips being made of tapering width with their smaller width at the lower part of the apparatus where the fluid to be heated first enters between them and terminating substantially at their widest upper ends.
- Heat interchanging apparatus comprising horizontal tubes, verticalside headers connected to opposite ends of said tubes, one of said headers constituting an inlet header and the other an outlet header and vertical elongated metal strips each secured to all the tubes, said strips being of greater width at their upper ends than at their lower ends.
- Heat interchanging apparatus comprising horizontal tubcs, vertical side headprising horizontal tubes, vertical side headers connected to the opposite ends of said tubes, and each in communication along its height with said tubes, and elongated vertical metal strips each secured on all the tubes, one of said headers having an aperture at itslower end and the other having an aperture at its upper end for passage of heated fluid, one of said headers having a removable cover in which one of said apertures is formed.
- Heat interchanging apparatus comprising horizontal tubes, vertical side headers connected to the opposite ends of said tubes, and each in communication along its height with said tubes, and elongated vertical metal strips each secured on all the tubes,
- each of said headers having an aperture at its lower end and the other having an aperture at its upper end for passage of heated fluid, each of said headers having a removable cover in which one of said apertures is formed.
- Heat interchanging apparatus comprising horizontal tubes, vertical side headers connected to said tubes, and vertical metal strips each secured on all the tubes and made of gradually increasing width in an upward direction, adjacent strips being arranged to overlap one another sidewise.
- Heat interchanging apparatus coinprising horizontal tubes, vertical side headers connected to said tubes, and vertical metal strips each secured on all the tubes and made of gradually increasing width in an upward direction, the tubes adjacent to one edge of each strip being equally distant from such edge.
- Heat interchanging apparatus comprising a vertical series of horizontal tubes, side headers connected to the ends of said tubes and vertical metal strips secured on all the tubes and made of tapering width 111 I an upward direction, one edge of each strip being vertical'and parallel to the vertical set of tubes. 4
- Heat interchanging apparatus comprising a vertical series of horizontal tubes, side headers connected to the ends-of said tubes and vertical metal strips on all the tubes and made of tapering width in an upward direction, adjacent strips being arranged to overlap one another sidewise.
- Heat interchanging apparatus comprising a vertical series of horizontal tubes, side headers connected to the ends of said tubes and vertical metal strips secured on all the tubes and made of tapering width in an upward direction, said strips being spaced apart on said tubes, some of said strips being arranged to extend laterally from said tubes to a greater extent than others.
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- Engineering & Computer Science (AREA)
- Physics & Mathematics (AREA)
- Thermal Sciences (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Heat-Exchange Devices With Radiators And Conduit Assemblies (AREA)
Description
E. L. PEASE.
HEAT INTERCHANGING APPARATUS. APPLICATION man mini. 1. I917 11,291,632. Patented Jan. 14,1919.
2 SHEETS-SHEEI' I.
M &Q7( 64% 4 AW MW ED STATES PATENT orrion.
. EDWARD LLOYD PEASE, OF DARLINGTON, ENGLAND.
HEAT-INTERCHANGING APPARATUS.
Specification of Letters Patent.
' Patented Jan. 14, 1919.
Application filed March 1, 1917. Serial No. 151,802.
This invention relates to apparatus of thekind by which there is secured an interchange of heat between two fluids while one flows in streams upwardly between metal strips, plates or gills (hereinafter called gills) constituting part ofa structure separating it from the other fluid. Where the stream paths referred-to are relatively long and the tendency of the other fluid is to maintain the structure at a uniform temperature, it will be obvious that the heat transference will not be constant throughout but will vary and diminish over the region or regions where the difference between the temperatures of the two fluids being dealt with more nearly approaches equality.
The object of the present invention is to overcome or mitigate this disadvantage and it is achieved by, arranging that the width of the gills in the region or regions aforesaid shall be increased to compensate for variationin the temperature of the streams of fluid that flow between the gills, so that the heat transference shall be more effective.
One form of apparatus to which the invention is particularly applicable is described in the specification of my application for Letters Patent Serial No. 55,814 filed 14th October, 1915.
Thus, in the specific case of the heat interchanging apparatus or radiator described in the application just referred to, it will be understood that since the heating agent flows in parallel through the various horizontal tubes of the vertical set thereof and consequently heats all the tubes ractically to the same degree, the air ascending between the gills, each of which is traversed by all the tubes, will become increased in temperature as the upper part of the apparatus is approached. Consequently, the heat from the upper tubes will not be so readily dissipated as from the lower ones.
Accordin to the present invention however the gi ls in lieu of being of constant width, are made wider at the top than at the bottom, it being convenient to make the gills with a gradual taper from the bottom to the top. Such gills may be bi-laterally symmetrical with regard to the vertical plane containin the. axes of the set-of heatmg tubes, or t e increase of width of the gllls may be located more to one side of the said vertical plane than the other. The diameter of the tubes may advantageously be as small as possible in relation to the width of the gills having regard to the heating agent used and the heat required to be supplled to the gills so as to leave a large proportion of the space between the gills as unrestricted vertical air assages that are freely open at all parts or passage of air and radiant heat.
The invention in addition to being applicable to tubular heat interchanging apparatus of the kind described in my said former specification can also be applied to other constructions of heat interchanging apparatus as for instance one comprising a vertical chamber through which a heating agent is caused to flow and provided with external gills between which air is caused to flow.
Furthermore, in cases where there may be a substantial difference in temperature between various parts of the a paratus to which the gills are applied, suc gills as a whole may be diminished to secure a more uniform heat transference.
In the accompanying drawings, Figures 1 and 2 are elevations at right angles to one another and Fig. 3 a vertical transverse section On the line A A of Fig. 1 showing a heat radiator of the type described in my said former specification but provided with gills according to the present invention. Fig. at is a horizontal section on the line B B of Fig. 3. Fig. 5 is a similar view to Fig. 4 showing a modification. Figs. 6, 7 and 8 are similar views to Fig. 3 showing modified arrangements. Fig. 9 is a vertical transverse section of another type of heat interchanging apparatus having gills according to the invention applied thereto.
As'will be seen from Figs. 6 and 7, the metal gills a that are fixed upon the heating tube 6 connected to the end headers of the heat radiator, instead of bein made of constantwidth as before, are ma e wider at the top than at the bottom, it being convenient to make them with a gradual taper from the bottom to the top for the purpose hereinbefore set forth. Such gills-may be bi-laterally symmetrical with regard to the vertical plane containing the axes of the vertical set of heating tubes b as shown in Fig. 7, or the increase of width of the gills may be located more to one side of the said vertical plane than the other, as shown in Fig. 3,
where one edge of each gill is parallel to' to equal extents'as shown in Figs. 1 and 4.-, or
they may be arranged in contacting pairs as shown in Fig. 5. The latter arrangement is equivalent to employing gill material of varying thickness in cross section which may be adopted to obtain increased contact area with the heating tubes.
-In Fig. 6 the heating tubes 6 are arranged with their axes in two vertical planes but with no two axes in the same horizontal plane so that air has free access to the tubes all around them. In this example, the gills a of gradually increasing width from hot tom to top are each shown as arranged sym- 'contact with one another,
metrically with reference to the tubes. The tubes mav be similarly arranged in two vertical sets when the gills are arranged to overlap one another sidewise as in Fig. 3, if desired and as shown in Fig. 8. In this example pairs of tubes are shown arranged in the same horizontal plane.
In Figs. 1 and 2, the heating tubes 2; are expanded into a plate 6 at each end, such plates j. forming parts of pressed steel headers of which the parts f constitute covers which are bolted to the plates 6. With such a construction the plates 6 of tWo adjacent radiator sections can be bolted together in after removing their covers f, to form a longer radiator.
Fig. 9 shows gills of tapered shape applied in apparatus constructed according to the invention described in my former specification No. 684 of 1916 and designed for use as a water cooler, such apparatus comprising two plates 9 arranged to form between them a passage way It for one of the fluids, say a heated fluid is caused to flow, and provided on their outer sides with gills a of tapered shape. In this example the apparatus may be used as a water cooler, the heated water to be cooled being caused to flow through the passageway h and air for naeneea cooling purposes being caused to flow through a casing 71 and thereby constrained to flow between the gills a.
As will be obvious, tapered gills as and for the purpose hereinbefore described, can advantageously be used in heat exchanging apparatus of various kinds where air isv caused to flow between the gills to carry ofl heat therefrom and each gill is heated along its length to substantially the same or to an increasing temperature through its attachment to the tubes, chamber or equivalent carrying it and containing the heating.
agent.
What I claim is 1. Heat interchanging apparatus comprising a hollow structure through which a heated fluid can pass and elongated metal strips attached to and heated by said structure and between which the fluid to be heated is capable of flowing lengthwise of the strips, the part of the structure to which each strip is attached being designed to be heated to substantially the same temperature and each strip increasing in width along its lengthin the direction of flow of the fluid to be heated, and terminating substantially atits widest part.
2. Heat interchanging apparatus comprising a hollow structure comprising adjacent tubular sections through which a heated fluid can pass and elongated metal strips attached transversely to and heated by said tubular sections along their length and between which the fluid to be heated is capable of flowing lengthwise of the strips, said strips being made of increased width along their length from the portions thereof with which the fluid to be heated first comes in contact.
3. Heat interchanging apparatus comprising a hollow vertically arranged structure through which a heated fluid canflow horizontally in one direction bnly and vertically arranged elongated metal strips attached to and heatedby said structure alon their length and between which the flui to be heated is capable of flowing lengthwise of the strips, said strips being made of tapering width with their smaller width at the lower part of the apparatus where the fluid to be heated first enters between them and terminating substantially at their widest upper ends.
4. Heat interchanging apparatus comprising horizontal tubes, verticalside headers connected to opposite ends of said tubes, one of said headers constituting an inlet header and the other an outlet header and vertical elongated metal strips each secured to all the tubes, said strips being of greater width at their upper ends than at their lower ends. a
5. Heat interchanging apparatus comprising horizontal tubcs, vertical side headprising horizontal tubes, vertical side headers connected to the opposite ends of said tubes, and each in communication along its height with said tubes, and elongated vertical metal strips each secured on all the tubes, one of said headers having an aperture at itslower end and the other having an aperture at its upper end for passage of heated fluid, one of said headers having a removable cover in which one of said apertures is formed.
7. Heat interchanging apparatus comprising horizontal tubes, vertical side headers connected to the opposite ends of said tubes, and each in communication along its height with said tubes, and elongated vertical metal strips each secured on all the tubes,
-one of said headers having an aperture at its lower end and the other having an aperture at its upper end for passage of heated fluid, each of said headers having a removable cover in which one of said apertures is formed.
8. Heat interchanging apparatus comprising horizontal tubes, vertical side headers connected to said tubes, and vertical metal strips each secured on all the tubes and made of gradually increasing width in an upward direction, adjacent strips being arranged to overlap one another sidewise.
9. Heat interchanging apparatus coinprising horizontal tubes, vertical side headers connected to said tubes, and vertical metal strips each secured on all the tubes and made of gradually increasing width in an upward direction, the tubes adjacent to one edge of each strip being equally distant from such edge.
10. Heat interchanging apparatus comprising a vertical series of horizontal tubes, side headers connected to the ends of said tubes and vertical metal strips secured on all the tubes and made of tapering width 111 I an upward direction, one edge of each strip being vertical'and parallel to the vertical set of tubes. 4
11. Heat interchanging apparatus comprising a vertical series of horizontal tubes, side headers connected to the ends-of said tubes and vertical metal strips on all the tubes and made of tapering width in an upward direction, adjacent strips being arranged to overlap one another sidewise.
12. Heat interchanging apparatus comprising a vertical series of horizontal tubes, side headers connected to the ends of said tubes and vertical metal strips secured on all the tubes and made of tapering width in an upward direction, said strips being spaced apart on said tubes, some of said strips being arranged to extend laterally from said tubes to a greater extent than others.
Signed at London, England, this 8th day of February, 1917.
WILLIAM Gross, GHAnms Emms'r Bnonermu.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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US15180217A US1291632A (en) | 1917-03-01 | 1917-03-01 | Heat-interchanging apparatus. |
Applications Claiming Priority (1)
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US15180217A US1291632A (en) | 1917-03-01 | 1917-03-01 | Heat-interchanging apparatus. |
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US1291632A true US1291632A (en) | 1919-01-14 |
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US15180217A Expired - Lifetime US1291632A (en) | 1917-03-01 | 1917-03-01 | Heat-interchanging apparatus. |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3012760A (en) * | 1957-03-01 | 1961-12-12 | Carrier Corp | Air conditioning units |
US20110100610A1 (en) * | 2009-10-29 | 2011-05-05 | Wistron Corporation | Heat Dissipating Device And Heat Dissipating Fin |
-
1917
- 1917-03-01 US US15180217A patent/US1291632A/en not_active Expired - Lifetime
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3012760A (en) * | 1957-03-01 | 1961-12-12 | Carrier Corp | Air conditioning units |
US20110100610A1 (en) * | 2009-10-29 | 2011-05-05 | Wistron Corporation | Heat Dissipating Device And Heat Dissipating Fin |
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