US2813701A - Cross-flow heat exchanger - Google Patents

Cross-flow heat exchanger Download PDF

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US2813701A
US2813701A US453767A US45376754A US2813701A US 2813701 A US2813701 A US 2813701A US 453767 A US453767 A US 453767A US 45376754 A US45376754 A US 45376754A US 2813701 A US2813701 A US 2813701A
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openings
inlet header
gas flow
inlet
header
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US453767A
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Fenger Christian
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Raytheon Technologies Corp
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United Aircraft Corp
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F28HEAT EXCHANGE IN GENERAL
    • F28DHEAT-EXCHANGE APPARATUS, NOT PROVIDED FOR IN ANOTHER SUBCLASS, IN WHICH THE HEAT-EXCHANGE MEDIA DO NOT COME INTO DIRECT CONTACT
    • F28D9/00Heat-exchange apparatus having stationary plate-like or laminated conduit assemblies for both heat-exchange media, the media being in contact with different sides of a conduit wall
    • F28D9/0062Heat-exchange apparatus having stationary plate-like or laminated conduit assemblies for both heat-exchange media, the media being in contact with different sides of a conduit wall the conduits for one heat-exchange medium being formed by spaced plates with inserted elements
    • F28D9/0068Heat-exchange apparatus having stationary plate-like or laminated conduit assemblies for both heat-exchange media, the media being in contact with different sides of a conduit wall the conduits for one heat-exchange medium being formed by spaced plates with inserted elements with means for changing flow direction of one heat exchange medium, e.g. using deflecting zones
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F28HEAT EXCHANGE IN GENERAL
    • F28FDETAILS OF HEAT-EXCHANGE AND HEAT-TRANSFER APPARATUS, OF GENERAL APPLICATION
    • F28F2210/00Heat exchange conduits
    • F28F2210/02Heat exchange conduits with particular branching, e.g. fractal conduit arrangements
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F28HEAT EXCHANGE IN GENERAL
    • F28FDETAILS OF HEAT-EXCHANGE AND HEAT-TRANSFER APPARATUS, OF GENERAL APPLICATION
    • F28F2250/00Arrangements for modifying the flow of the heat exchange media, e.g. flow guiding means; Particular flow patterns
    • F28F2250/10Particular pattern of flow of the heat exchange media
    • F28F2250/104Particular pattern of flow of the heat exchange media with parallel flow

Definitions

  • An object of this invention is to provide a condenser or heat exchanger which will reduce the friction pressure drop for the condensing fluid of a finned-plate type of cross-flow condenser or heat exchanger without increasing the outside dimensions and without changing the inlet and outlet temperatures of the two fluids or reducing their respective flow rates.
  • Another object of this invention is to provide a condenser or heat exchanger in which the condensing fluid occupies successively decreasing numbers of interplate spaces as it traverses therethrough.
  • a further object of this invention is to provide a condenser or heat exchanger in which the condensing fluid is introduced from both sides of the unit.
  • Fig. 1 is a perspective view of a condenser or heat exchanger of a finned-plate cross-flow type having successively reduced free flow areas extending in the direction of condensing fluid flow.
  • Fig. 2 is a figure taken along the line 22 of Fig. 1.
  • Fig. 3 is a figure taken along the line 33 of Fig. 1.
  • Fig. 4 is a modification of the invention showing the condensing fluid conduit assemblies being reduced from three conduits to one.
  • Fig. 5 is a modification of the invention showing the condensing fluid conduit assemblies being reduced from four conduits to one.
  • This heat exchanger is a finned-plate, cross-flow type of one-pass arrangement and comprises a main gas flow duct or chamber 3 and a condensing fluid header system 5.
  • the gas flow duct or chamber 3 is formed rectangular in shape having a top 6, a bottom 7, and sides 8 and 9.
  • Top 6 and bottom 7 are formed as a solid plate while the sides 8 and 9 are each formed as a plate having rectangular openings 16 therein extending from one end to the other of the heat exchanger.
  • the sides 8 and 9 are also connected by the plates forming the condensing fluid conduit assemblies 10 through the gas flow duct or chamber 3.
  • Sides 8 and 9 need not be formed from two plates with rectangular openings, the sides could be comprised merely of rectangular strips attached between adjacent open ends of the fluid conduit assemblies.
  • Each condensing fluid conduit assembly 10 is formed in a like manner. As viewed in Figs. 1, 2 and 3, it comprises two end plates 12 of Y-shape having parallel tines 12a, a short V section 12b, and a base 1eg12c.
  • Two outside plates 11 connect the outer sides of the two end plates of Y-shape. Each plate 11 has three sections, 11a connects the outer edges of tines 12a, 11b connects the outer edges of the V-section 12b, and 110 connects the outer edges of the base leg 12c.
  • An inner U-shaped plate 13 connects the inner sides of the two end plates of Y-shape. Each plate 13 has four sections,
  • the condensing fluid header system 5 has two main inlet headers, 20 and 22, and four main outlet headers, 24, 26, 28 and 30.
  • Main inlet header 20 is located on the side of the heat exchanger numbered 9 and the main inlet header-22 is located on the side of the heat exchanger numbered 8.
  • Each main inlet header is positioned away from its side and approximately halfway between the ends.
  • the main outlet headers are located each at approximately one corner edge of the heat exchanger.
  • Each inlet header is connected to the gas flow duct or chamber 3 around the rectangular openings 16 of the side on which it is located, which cooperate with the rectangular openings of the free ends of the tines 12a by an inlet header adapter 32.
  • Each inlet header adapter comprises two triangular plates 34 spaced apart and an end strip 36 which connects the two triangular plates together along the two sides located away from the heat exchanger. This construction leaves a long rectangular opening which is a little larger in each dimension than a rectangular opening 16.
  • Inlet header adapters 32 are fixed to the heat exchanger on each side, one for each rectangular opening 16 which cooperates with the rectangular openings of the free ends of the The rectangular opening of each inlet header adapter is positioned over its respective opening 16 (see Fig. 3).
  • Each inlet header is attached to its adapters 32 at the apex of the triangular shape away from 'the heat exchanger.
  • Each inlet header, 20, 22, can be formed as a series of conduit sections attached to the plate 34 at each end and between the plates 34 in the center section with holes 40 in the plates connecting the conduit sections together and to each adapter, or it can be formed as a single conduit extending through holes in the adapters with openings in the conduit connecting the interior of the conduit with the interior of the adapter.
  • Baflles 36a are also provided in each inlet header adapter 32 extending between the two triangular plates for distributing a fluid more evenly from the point of entry into the adapter to the rectangular opening.
  • the outlet headers are connected in pairs to the gas flow duct or chamber 3 around the rectangular opening 16, of the side of the gas flow duct or chamber 3 on which they are located, which cooperate with the rectangular openings of the free ends of the base legs by an outlet header adapter 50.
  • Each outlet header adapter comprises two side plates 52 spaced apart, an end strip 54 which connects the ends of the plates 52 located away from the heat exchanger together and a front and back plate 56 which connects the plates 52 together at their front and back ends of the heat exchanger.
  • plates 54 and 56 of each adapter abut their respective outlet headers and theassociated side plates 52 are contoured to the shape of the pipe to abut therewith.
  • a hole 58 is provided in the header tolconnect the interior of the outlet header with the interior of the adapter.
  • the gas. passingtherethrough enters at the front of the gas flow duct or chamber 3 as viewed in Fig. l and passes over the surfaces-of the condensing fluid conduit assemblies 10 and fins 19.
  • This gas flow exits from theother end of the gas flow duct or chamber 3;
  • the flow of gas may be directed'into the heat exchanger gas flow ducts or chamber 3 in any manner desired and it may be collected or exhausted atthe other end by any desirable'rneans.
  • the fluidpassing through the condensing fluid header system 5 enters the open ends of the main inlet headers 20,
  • the '22 (as indicated by the arrows in Fig. 1) and passes through the header adapters 32 to the rectangular openings 16 of the sides 3 and 9 of the heat exchanger which cooperate with the rectangular openings of the free ends of the tines 12a of the condensing fluidconduit assemblies.
  • the condensing fluid then passes through the condensing fluid conduit assemblies to the opposite side of the condenser or heat exchanger to the rectangular openings of the free ends of the base legs 120. From there the condensing fluid is received in an outlet header adapter and conducted to two outlet headers. The fluid then passes out the open ends of the main outlet headers (as shown by the arrows in Fig. 1).
  • FIG. 4 and Fig. 5 of the condensing fluid conduit assembly may be used when a greater reduction of free flow area through a condenser is desired.
  • Figure 4 shows a reduction of three conduits to one and
  • Fig. 5 shows a reduction of four conduits to one.
  • each fluid conduit assembly comprising two inlet conduits connected to one outlet conduit, said inlet and outlet conduits lying in different horizontal planes, two opposite sides of said gas flow chamber having openings therein lying in different horizontal planes, one fluid conduit assembly having its two inlet conduits cooperating with two openings of one side of said chamber and its one outlet conduit cooperating with one opening of the other side of said gas flow chamber, another fluid conduit assembly having its two inlet conduits cooperating with two openings of said other side of said chamber and its one outlet'conduit cooperating with one opening of said one side.
  • a gas flow chamber a plurality of fluid conduit assemblies, each having conduits at one end lying" in vertically spaced planes merging into a single conduit at the other end thereof, two opposite sides of said gas flow chamber having vertically spaced openings therein, one fluidconduit assembly connecting two spaced openings of one side'of said chamber to one opening of the other side of said chamber; another fluid conduit assembly connecting two spaced-openings of said other side to one opening of said one side, a main inlet header extending along one side of said gas flow chamber, two inlet header adapters, one inlet header adapter connecting said maininlet header to one of said two openings of said one side, the other inlet'header adapter connecting said main inlet header to the other of said two openings of said one side, a second main inletheaderextending along the other side of said gas flow chamber, two inlet header adapters, one inlet header adapter connecting said second main inlet header to one of'said'two openings of said other side, the other inlethead
  • a gas flow chamber a plurality of fluid conduit assemblies, each having two vertically spaced conduits at one end connectedto a single conduit at the other end, two opposite sides of said gas flow chamber having openings therein, one fluid conduit assembly connecting two adjacent openings of one side to one opening of the other side, another fluid conduit assembly connectingtwo adjacent openings of said other side to one opening of said'one side, a first main inlet header extending along one side of said gas flow chamber, two inlet header adapters, one inlet header adapter connecting said first main inlet header to one of the two openings of said one side,- the other inlet header adapter connecting said first main inlet header-to the other of the two openings of said one side, a second main inlet header, extending along the other side of said gas flow chamber, two inlet header adapters, one inlet header adapter connecting said second main inlet header to one of the'two openings of said.
  • the other inlet header adapter connecting said second main inlet header to the other of the two openings of said other side, four main outlet headers, one extending along each side of said first and'second main inlet headers, two outlet header adapters, one outlet header adapter connecting the two main outlet headers extending along each sideof said first main inlet header to the one opening of said one side, the other outlet header adapter connecting the two main outlet headers extending along each side of said second inlet header to the one opening of said other side.
  • each fluid conduit assembly comprising two vertically spaced inlet conduits connected to one outlet conduit, two opposite sides of said gas flow chamber having vertically spaced openings therein, one fluid conduit assembly having its two inlet conduits cooperating with two adjacent openings of one side and its oneoutlet conduit cooperating with, the one openingof the other side'within" said gas flow chamber, another fluid conduit assembly having its two inlet conduits eooperating with two adjacent openings of said other side and its one outlet conduit cooperating with one opening of said one side of said gas flow chamber, a main inlet header extending along one side of said gas flow chamber, two inlet header adapters, one inlet header adapter connecting said main inlet header to one of said two openings of said one side, the other inlet header adapter connecting said main inlet header to the other of said two openings of said one side, a second main inlet header extending along the other side of said gas flow chamber, two inlet header adapters, one in
  • a gas flow chamber said gas flow chamber having two opposing sides, each side of said gas flow chamber having a series of rectangular openings extending from the top to the bottom, a plurality of fluid conduit assemblies, each having two vertically spaced ducts at one end merging into a single duct at the other end thereof, one fluid conduit assembly connecting two vertically spaced rectangular openings of one side to one rectangular opening of the other side, another fluid conduit assembly connecting two vertically spaced rectangular openings of said other side to one rectangular opening of said one side.
  • a gas flow chamber said gas flow chamber having two opposing sides, each side of said gas flow chamber having a series of rectangular openings extending from the top to the bottom, a plurality of fluid conduit assemblies, each fluid conduit assembly including two vertically spaced inlet conduits connected to one outlet conduit, one fluid conduit assembly having its two inlet conduits cooperating with two adjacent rectangular openings of one side and its one outlet conduit cooperating with one rectangular opening of the other side, another fluid conduit assembly having its two vertically spaced inlet conduits cooperating with two adjacent rectangular openings of said other side and its one outlet conduit cooperating with one opening of said one side.
  • a gas flow chamber said gas flow chamber having two opposing sides, each side of said gas flow chamber having a series of rectangular openings extending from the top to the bottom, a plurality of fluid conduit assemblies, each fluid conduit assembly including two vertically spaced rectangular inlet conduits connected to one rectangular outlet conduit, one fluid conduit assembly having its two inlet conduits cooperating with two adjacent rectangular openings of one side and its one outlet conduit cooperating with one rectangular opening of the other side, another fluid conduit assembly having its two inlet conduits cooperating with two adjacent rectangular openings of said other side and its one outlet conduit cooperating with one opening of said one side, a first main inlet header extending along one side of said gas flow chamber, two inlet header adapters, one inlet header adapter connecting said main inlet header to one of the two openings of said one side, the other inlet header adapter connecting said main inlet header to the other of the two openings of said one side, a second main inlet header extending along the other side of said gas flow chamber, two inlet header adapters, one inlet
  • a rectangular gas flow chamber having a series of rectangular openings extending from the top to the bottom of each side, a plurality of fluid conduit assemblies, each fluid conduit assembly comprising two vertically spaced inlet conduits of rectangular cross section connected to one outlet conduit of rectangular cross section, said two inlet conduits extending in a parallel relationship for their length, the two inlet conduits being connected to the one outlet conduit by a V-shaped conduit member, one fluid conduit assembly havingits two inlet conduits connected one each around one of the adjacent rectangular openings of one side and its one outlet conduit connected around one rectangular opening of the other side, another fluid conduit assembly having its two inlet conduits connected one each around one of the adjacent rectangular openings vof said other side and its one outlet conduit connected around one rectangular opening of said one side.
  • each fluid conduit assembly comprising two vertically spaced inlet conduits connected to one outlet conduit, two opposite sides of said gas flow chamber having vertically spaced openings therein, one fluid conduit assembly having its two inlet conduits cooperating with two adjacent openings -of one side'and its one outlet conduit cooperating with one opening of the other side of said gas flow chamber, another fluid conduit assembly having its two inlet conduits cooperating with two adjacent openings of said other side and its one outlet conduit cooperating with one opening of said one side, a main inlet header extending along one side of said gas flow chamber, two inlet header adapters, one inlet header adapter connecting said main inlet header to one of said two openings of said one side, the other inlet header adapter connecting said main inlet header to the other of said two openings of said one side, a second main inlet header extending along the other side of said gas flow chamber, two inlet header adapters, one inlet header adapter connecting said second main inlet header to one of
  • a gas flow chamber having two opposing sides, each side of said gas flow chamber having a series of rectangular openings extending from the top to the bottom, a plurality of fluid conduit assemblies, each fluid conduit assembly including two vertically spaced inlet conduits connected to one outlet conduit, each fluid conduit assembly having its two inlet conduits connected to two adjacent rectangular openings of a side and its one outlet conduit connected to one rectangular opening of the other side, said fluid conduit assemblies being alternately positioned from the top to bottom of said gas flow chamber, one having its two inlet conduits connected to one side and the next having its two inlet conduits connected to the other side.
  • a gas flow chamber said gas flow chamber having two opposing sides, each side of said gas flow chamber having a series ofrectangular openings extending from the top to the bottom, a plurality of fluid conduit assemblies, each fluid conduit assembly including two vertically spaced inlet conduits connected to one outlet conduit, one fluid conduit assembly having its two inlet conduits cooperating with two adjacent rectangular openings of one side and its one outlet conduit cooperating with one rectangular opening of the other side, another fluid conduit assembly having its two inlet conduits cooperating with the two adjacent rectangular openings" of saidotlier side and its.
  • Y 12' In 'con'ibinatioma rectangular gas flow chamber, two" opposing sides ofsaid'gas flow chamber having a series of'rectang'ula'r' openings extending from the top to the bottom of each side, a plurality offiuid conduit ass'emblesfeach fluid conduit assembly comprising two vertically spaced inlet conduits of rectangular cross section connected tofone'outlet conduit of rectangular cross.
  • sectionfsa'id tw'o inletconduits extending in a parallel relationship for their length, the two inlet conduits being connectedto the one outlet conduit by a V-shaped conduit member, a first fluid conduit assembly having its two inlet conduits connected one each around one of the rectangnlaropenings of one side and its one outlet conduit connected around one rectangular opening of the other side, a second'fluid conduit assembly having its two inletconduits connected one each around one of the rectangular openings of said other side and its one outlet conduit connected around one rectangular opening ofsaid one side, am'ain inlet header extending along one side. of said gas flowchamber, two inlet header adapters, one inlet header adapter connecting said main inlet header to one: of said rectangularopenings connected to one of the two inlet conduits of the-first fluid conduit assembly,
  • a gas flow chamber a plurality of fluidconduit assemblies, each having two vertically spaced conduits at one end merging into a single conduit at the other end thereof, two opposite sides of said gas flow chamber each having at least three vertically spaced openings therein, one fluid conduit assembly having its vertically spaced conduits connected to the upper two openings in one side of said chamber, and having its single conduit connected to the upper opening in the other side ofsaid chamber, and another of said conduit assemblies havingits vertically spaced conduits connected to the lower two of said three openings at'said other side of said chamber and having its single conduit connected to the lower of said t-hree'openi'ngs at said one side of said chamber.
  • a gas flow chamber closed at the top and bottom andon two opposite sides, a plurality of vertically spaced openings in said closed sides, and a pluralityof'fluidconduit assemblies each having two vertically spaced inlet conduits which register with adjacent openings in onesideof saidchamber and merge into a single outlet conduit which registers with an opening in the opposite side of said chamber.

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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

Nov. 19, 1957 C. FENGER CROSS-FLOW HEAT EXCHANGER Filed Sept. 2. 1954 United States Patent CROSS-FLOW HEAT EXCHANGER Christian Fenger. Glastonbury, Conn., assignor to United Aircraft Corporation, East Hartford, Conn., a corporation of Delaware Application September 2, 1954, Serial No. 453,767 14 Claims. (Cl. 257-245) This invention relates to a condenser or surface type heat exchanger.
An object of this invention is to provide a condenser or heat exchanger which will reduce the friction pressure drop for the condensing fluid of a finned-plate type of cross-flow condenser or heat exchanger without increasing the outside dimensions and without changing the inlet and outlet temperatures of the two fluids or reducing their respective flow rates.
Another object of this invention is to provide a condenser or heat exchanger in which the condensing fluid occupies successively decreasing numbers of interplate spaces as it traverses therethrough.
A further object of this invention is to provide a condenser or heat exchanger in which the condensing fluid is introduced from both sides of the unit.
Further objects and advantages will be apparent from the following specification and drawing:
Fig. 1 is a perspective view of a condenser or heat exchanger of a finned-plate cross-flow type having successively reduced free flow areas extending in the direction of condensing fluid flow.
Fig. 2 is a figure taken along the line 22 of Fig. 1.
Fig. 3 is a figure taken along the line 33 of Fig. 1.
Fig. 4 is a modification of the invention showing the condensing fluid conduit assemblies being reduced from three conduits to one.
Fig. 5 is a modification of the invention showing the condensing fluid conduit assemblies being reduced from four conduits to one.
Referring to the figures, the invention is shown embodied in a fluid-to-gas condenser or heat exchanger 1. This heat exchanger is a finned-plate, cross-flow type of one-pass arrangement and comprises a main gas flow duct or chamber 3 and a condensing fluid header system 5. The gas flow duct or chamber 3 is formed rectangular in shape having a top 6, a bottom 7, and sides 8 and 9. Top 6 and bottom 7 are formed as a solid plate while the sides 8 and 9 are each formed as a plate having rectangular openings 16 therein extending from one end to the other of the heat exchanger. The sides 8 and 9 are also connected by the plates forming the condensing fluid conduit assemblies 10 through the gas flow duct or chamber 3. Sides 8 and 9 need not be formed from two plates with rectangular openings, the sides could be comprised merely of rectangular strips attached between adjacent open ends of the fluid conduit assemblies.
Each condensing fluid conduit assembly 10 is formed in a like manner. As viewed in Figs. 1, 2 and 3, it comprises two end plates 12 of Y-shape having parallel tines 12a, a short V section 12b, and a base 1eg12c. Two outside plates 11 connect the outer sides of the two end plates of Y-shape. Each plate 11 has three sections, 11a connects the outer edges of tines 12a, 11b connects the outer edges of the V-section 12b, and 110 connects the outer edges of the base leg 12c. An inner U-shaped plate 13 connects the inner sides of the two end plates of Y-shape. Each plate 13 has four sections,
tines 12a.
2,813,701 Patented Nov. 19, 1957 ice the two upper free ends of the tines 12a are not connected by a plate thereby forming rectangular openings. These condensing fluid conduits 10 are fixed in the gas flow duct or chamber 3 extending from side to side with the rectangular openings being positioned each over a rectangular opening 16 of the sides. The condensing fluid conduits 10 are stacked alternately with the base leg of one facing in one direction, then in the other (see Fig. 1). While five condensing fluid conduit assemblies are shown any number desired may be used. Further, fins 19 are provided on plates 11 and 13. Only a few of these are shown at the upper left corner so that the arrangement of the condensing fluid conduit assemblies 10 may be clearly viewed. These fins aid heat transfer and strengthen plates 11 and. 13. Fins may be installed inside the fluid conduit assemblies, each fin having the shape of end plates 12.
The condensing fluid header system 5 has two main inlet headers, 20 and 22, and four main outlet headers, 24, 26, 28 and 30. Main inlet header 20 is located on the side of the heat exchanger numbered 9 and the main inlet header-22 is located on the side of the heat exchanger numbered 8. Each main inlet header is positioned away from its side and approximately halfway between the ends. The main outlet headers are located each at approximately one corner edge of the heat exchanger.
, Each inlet header is connected to the gas flow duct or chamber 3 around the rectangular openings 16 of the side on which it is located, which cooperate with the rectangular openings of the free ends of the tines 12a by an inlet header adapter 32. Each inlet header adapter comprises two triangular plates 34 spaced apart and an end strip 36 which connects the two triangular plates together along the two sides located away from the heat exchanger. This construction leaves a long rectangular opening which is a little larger in each dimension than a rectangular opening 16. Inlet header adapters 32 are fixed to the heat exchanger on each side, one for each rectangular opening 16 which cooperates with the rectangular openings of the free ends of the The rectangular opening of each inlet header adapter is positioned over its respective opening 16 (see Fig. 3).
Each inlet header is attached to its adapters 32 at the apex of the triangular shape away from 'the heat exchanger. Each inlet header, 20, 22, can be formed as a series of conduit sections attached to the plate 34 at each end and between the plates 34 in the center section with holes 40 in the plates connecting the conduit sections together and to each adapter, or it can be formed as a single conduit extending through holes in the adapters with openings in the conduit connecting the interior of the conduit with the interior of the adapter. Baflles 36a are also provided in each inlet header adapter 32 extending between the two triangular plates for distributing a fluid more evenly from the point of entry into the adapter to the rectangular opening.
The outlet headers are connected in pairs to the gas flow duct or chamber 3 around the rectangular opening 16, of the side of the gas flow duct or chamber 3 on which they are located, which cooperate with the rectangular openings of the free ends of the base legs by an outlet header adapter 50. Each outlet header adapter comprises two side plates 52 spaced apart, an end strip 54 which connects the ends of the plates 52 located away from the heat exchanger together and a front and back plate 56 which connects the plates 52 together at their front and back ends of the heat exchanger. This construction leaves in Fig. 1, plates 54 and 56 of each adapter abut their respective outlet headers and theassociated side plates 52 are contoured to the shape of the pipe to abut therewith. At the point where each outlet header 2d, 26, 28 and 30, is connected to an adapter 50, a hole 58 is provided in the header tolconnect the interior of the outlet header with the interior of the adapter.
In this condenser or heat exchanger arrangement the gas. passingtherethrough enters at the front of the gas flow duct or chamber 3 as viewed in Fig. l and passes over the surfaces-of the condensing fluid conduit assemblies 10 and fins 19. This gas flow exits from theother end of the gas flow duct or chamber 3; The flow of gas may be directed'into the heat exchanger gas flow ducts or chamber 3 in any manner desired and it may be collected or exhausted atthe other end by any desirable'rneans. The fluidpassing through the condensing fluid header system 5 enters the open ends of the main inlet headers 20,
'22 (as indicated by the arrows in Fig. 1) and passes through the header adapters 32 to the rectangular openings 16 of the sides 3 and 9 of the heat exchanger which cooperate with the rectangular openings of the free ends of the tines 12a of the condensing fluidconduit assemblies. The condensing fluid then passes through the condensing fluid conduit assemblies to the opposite side of the condenser or heat exchanger to the rectangular openings of the free ends of the base legs 120. From there the condensing fluid is received in an outlet header adapter and conducted to two outlet headers. The fluid then passes out the open ends of the main outlet headers (as shown by the arrows in Fig. 1).
An important feature ofthis invention resides in the condensing fluid conduits which, as viewed'from the ends of the gas flow chamber, define horizontal Y-shaped passageways, or ducts, which produce a single passage at one side and a double'passage at the, opposite side of -the chamber, all of which passages lie in diflerent horizontal planes. It will be noted that the inlet headers 20. and 22 have twin header adapters 32 which connectwith the double passages only of the fluid conduits on their respective sides, whereas the outlet headers24, 26 and 28, 30 at the corners connect with the single passages ot the fluid conduitson their respective sides.
As a result of this construction, fluid entering the con duits from either inlet header or 22 first flows through the parallel inlet passages of the conduits 10, wherein it is in, contact with maximum condensing surface. As the fluid traversing the conduit 10 condenses and becomes reduced in volume, however, it enters the single outlet passage of conduit 10 wherein the initial high rate of condensation is continued irrespective of the decreased volume of fluid since the reduced cross section of the duct maintains the initial high velocity.
The modification shown in Fig. 4 and Fig. 5 of the condensing fluid conduit assembly may be used when a greater reduction of free flow area through a condenser is desired. Figure 4 shows a reduction of three conduits to one and Fig. 5 shows a reduction of four conduits to one.
Although a specific heat exchanger has been shown and described herein for the purpose of illustration, it will be evident to those skilled in the art that this invention is capable of various modifications and adaptations within the scope of the appended claims.
I claim:
1. In combination, a gas flow chamber, a plurality of fluid conduit assemblies, each fluid conduit assembly comprising two inlet conduits connected to one outlet conduit, said inlet and outlet conduits lying in different horizontal planes, two opposite sides of said gas flow chamber having openings therein lying in different horizontal planes, one fluid conduit assembly having its two inlet conduits cooperating with two openings of one side of said chamber and its one outlet conduit cooperating with one opening of the other side of said gas flow chamber, another fluid conduit assembly having its two inlet conduits cooperating with two openings of said other side of said chamber and its one outlet'conduit cooperating with one opening of said one side.
2. In combination, a gas flow chamber, a plurality of fluid conduit assemblies, each having conduits at one end lying" in vertically spaced planes merging into a single conduit at the other end thereof, two opposite sides of said gas flow chamber having vertically spaced openings therein, one fluidconduit assembly connecting two spaced openings of one side'of said chamber to one opening of the other side of said chamber; another fluid conduit assembly connecting two spaced-openings of said other side to one opening of said one side, a main inlet header extending along one side of said gas flow chamber, two inlet header adapters, one inlet header adapter connecting said maininlet header to one of said two openings of said one side, the other inlet'header adapter connecting said main inlet header to the other of said two openings of said one side, a second main inletheaderextending along the other side of said gas flow chamber, two inlet header adapters, one inlet header adapter connecting said second main inlet header to one of'said'two openings of said other side, the other inletheader adapter connecting said second main inlet header to the other of said two openings of said other side.
3. In combination, a gas flow chamber, a plurality of fluid conduit assemblies, each having two vertically spaced conduits at one end connectedto a single conduit at the other end, two opposite sides of said gas flow chamber having openings therein, one fluid conduit assembly connecting two adjacent openings of one side to one opening of the other side, another fluid conduit assembly connectingtwo adjacent openings of said other side to one opening of said'one side, a first main inlet header extending along one side of said gas flow chamber, two inlet header adapters, one inlet header adapter connecting said first main inlet header to one of the two openings of said one side,- the other inlet header adapter connecting said first main inlet header-to the other of the two openings of said one side, a second main inlet header, extending along the other side of said gas flow chamber, two inlet header adapters, one inlet header adapter connecting said second main inlet header to one of the'two openings of said. other side, the other inlet header adapter connecting said second main inlet header to the other of the two openings of said other side, four main outlet headers, one extending along each side of said first and'second main inlet headers, two outlet header adapters, one outlet header adapter connecting the two main outlet headers extending along each sideof said first main inlet header to the one opening of said one side, the other outlet header adapter connecting the two main outlet headers extending along each side of said second inlet header to the one opening of said other side.
4. In combination, a 'gas' flow chamber, a plurality of fluid conduit assemblies, each fluid conduit assembly comprising two vertically spaced inlet conduits connected to one outlet conduit, two opposite sides of said gas flow chamber having vertically spaced openings therein, one fluid conduit assembly having its two inlet conduits cooperating with two adjacent openings of one side and its oneoutlet conduit cooperating with, the one openingof the other side'within" said gas flow chamber, another fluid conduit assembly having its two inlet conduits eooperating with two adjacent openings of said other side and its one outlet conduit cooperating with one opening of said one side of said gas flow chamber, a main inlet header extending along one side of said gas flow chamber, two inlet header adapters, one inlet header adapter connecting said main inlet header to one of said two openings of said one side, the other inlet header adapter connecting said main inlet header to the other of said two openings of said one side, a second main inlet header extending along the other side of said gas flow chamber, two inlet header adapters, one inlet header adapter connecting said second main inlet header to one of said two openings of said other side, the other inlet header adapter connecting said second main inlet header to the other of said two openings of said other side, four main outlet headers, one extending along each side of said first and second main inlet headers, two outlet header adapters, one outlet header adapter connecting the two main outlet headers extending along each side of said first main inlet header to said one opening of said one side, the other outlet header adapter connecting the two main outlet headers extending along each side of said second inlet header to said one opening of said other side.
5. In combination, a gas flow chamber, said gas flow chamber having two opposing sides, each side of said gas flow chamber having a series of rectangular openings extending from the top to the bottom, a plurality of fluid conduit assemblies, each having two vertically spaced ducts at one end merging into a single duct at the other end thereof, one fluid conduit assembly connecting two vertically spaced rectangular openings of one side to one rectangular opening of the other side, another fluid conduit assembly connecting two vertically spaced rectangular openings of said other side to one rectangular opening of said one side.
6. In combination, a gas flow chamber, said gas flow chamber having two opposing sides, each side of said gas flow chamber having a series of rectangular openings extending from the top to the bottom, a plurality of fluid conduit assemblies, each fluid conduit assembly including two vertically spaced inlet conduits connected to one outlet conduit, one fluid conduit assembly having its two inlet conduits cooperating with two adjacent rectangular openings of one side and its one outlet conduit cooperating with one rectangular opening of the other side, another fluid conduit assembly having its two vertically spaced inlet conduits cooperating with two adjacent rectangular openings of said other side and its one outlet conduit cooperating with one opening of said one side.
7. In combination, a gas flow chamber, said gas flow chamber having two opposing sides, each side of said gas flow chamber having a series of rectangular openings extending from the top to the bottom, a plurality of fluid conduit assemblies, each fluid conduit assembly including two vertically spaced rectangular inlet conduits connected to one rectangular outlet conduit, one fluid conduit assembly having its two inlet conduits cooperating with two adjacent rectangular openings of one side and its one outlet conduit cooperating with one rectangular opening of the other side, another fluid conduit assembly having its two inlet conduits cooperating with two adjacent rectangular openings of said other side and its one outlet conduit cooperating with one opening of said one side, a first main inlet header extending along one side of said gas flow chamber, two inlet header adapters, one inlet header adapter connecting said main inlet header to one of the two openings of said one side, the other inlet header adapter connecting said main inlet header to the other of the two openings of said one side, a second main inlet header extending along the other side of said gas flow chamber, two inlet header adapters, one inlet header adapter connecting said secondmain inlet header to one of the two openings of said, other side, the other inlet header adapter connecting: said second main inlet header to the other of the two openings of said other side.
8. In combination, a rectangular gas flow chamber,- two opposing sides of said gas flow chamber having a series of rectangular openings extending from the top to the bottom of each side, a plurality of fluid conduit assemblies, each fluid conduit assembly comprising two vertically spaced inlet conduits of rectangular cross section connected to one outlet conduit of rectangular cross section, said two inlet conduits extending in a parallel relationship for their length, the two inlet conduits being connected to the one outlet conduit by a V-shaped conduit member, one fluid conduit assembly havingits two inlet conduits connected one each around one of the adjacent rectangular openings of one side and its one outlet conduit connected around one rectangular opening of the other side, another fluid conduit assembly having its two inlet conduits connected one each around one of the adjacent rectangular openings vof said other side and its one outlet conduit connected around one rectangular opening of said one side.
9. In combination, a gas flow chamber, a plurality of fluid conduit assemblies, each fluid conduit assembly comprising two vertically spaced inlet conduits connected to one outlet conduit, two opposite sides of said gas flow chamber having vertically spaced openings therein, one fluid conduit assembly having its two inlet conduits cooperating with two adjacent openings -of one side'and its one outlet conduit cooperating with one opening of the other side of said gas flow chamber, another fluid conduit assembly having its two inlet conduits cooperating with two adjacent openings of said other side and its one outlet conduit cooperating with one opening of said one side, a main inlet header extending along one side of said gas flow chamber, two inlet header adapters, one inlet header adapter connecting said main inlet header to one of said two openings of said one side, the other inlet header adapter connecting said main inlet header to the other of said two openings of said one side, a second main inlet header extending along the other side of said gas flow chamber, two inlet header adapters, one inlet header adapter connecting said second main inlet header to one of said two openings of said other side, the other inlet header adapter connecting said second main inlet header to the other of said two openings of said other side, each inlet header adapter having baffles therein for more evenly distributing a fluid as it passes from an inlet header to an opening in a side.
10. In combination, a gas flow chamber. said gas flow chamber having two opposing sides, each side of said gas flow chamber having a series of rectangular openings extending from the top to the bottom, a plurality of fluid conduit assemblies, each fluid conduit assembly including two vertically spaced inlet conduits connected to one outlet conduit, each fluid conduit assembly having its two inlet conduits connected to two adjacent rectangular openings of a side and its one outlet conduit connected to one rectangular opening of the other side, said fluid conduit assemblies being alternately positioned from the top to bottom of said gas flow chamber, one having its two inlet conduits connected to one side and the next having its two inlet conduits connected to the other side.
11. In combination, a gas flow chamber, said gas flow chamber having two opposing sides, each side of said gas flow chamber having a series ofrectangular openings extending from the top to the bottom, a plurality of fluid conduit assemblies, each fluid conduit assembly including two vertically spaced inlet conduits connected to one outlet conduit, one fluid conduit assembly having its two inlet conduits cooperating with two adjacent rectangular openings of one side and its one outlet conduit cooperating with one rectangular opening of the other side, another fluid conduit assembly having its two inlet conduits cooperating with the two adjacent rectangular openings" of saidotlier side and its. one outlet conduit'cooperating with the" one" opening of said'one side,-a first main inle't' header extending along one side of said gas flow chamber; two inletheader adapters, one inlet headefadapter connecting said main iiilfheade'r to one of the two openings of said one sidefthe other inlet header adapter connecting said m'airi 'i'nlefheader to the other of the two openings of said one 'side, a' secondimain inlet header extending along the other side of saidga's flow chamber, two inlet header adapters, one'inlef header adapter connecting said second main inletheader theme of the two openings of said other side, the otherlinlet headeradapter connecting said second main ir'ilet header to the other of the two openings of said oth'er'side, each inlet header adapter having baflies therein for more evenly distributing a fluid as it passes from an inlet header to an opening in a side.
Y 12'. In 'con'ibinatioma rectangular gas flow chamber, two" opposing sides ofsaid'gas flow chamber having a series of'rectang'ula'r' openings extending from the top to the bottom of each side, a plurality offiuid conduit ass'emblesfeach fluid conduit assembly comprising two vertically spaced inlet conduits of rectangular cross section connected tofone'outlet conduit of rectangular cross. sectionfsa'id tw'o inletconduits extending in a parallel relationship for their length, the two inlet conduits being connectedto the one outlet conduit by a V-shaped conduit member, a first fluid conduit assembly having its two inlet conduits connected one each around one of the rectangnlaropenings of one side and its one outlet conduit connected around one rectangular opening of the other side, a second'fluid conduit assembly having its two inletconduits connected one each around one of the rectangular openings of said other side and its one outlet conduit connected around one rectangular opening ofsaid one side, am'ain inlet header extending along one side. of said gas flowchamber, two inlet header adapters, one inlet header adapter connecting said main inlet header to one: of said rectangularopenings connected to one of the two inlet conduits of the-first fluid conduit assembly,
anotheri'nle't header"adapter-connecting said main inlet header tothe other otsaid rectangular openings connected to"th'e other of the two inlet conduits" of the first fluid conduitassembly, a second main inlet header extending alo'ngtheother side of said gas flow chamber, two inlet header adapters,'one inlet header adapter connecting said second main inlet header to one of said rectangular openings connected to one of the two inlet conduits of the secondfiuidconduit assembly, another inlet header adapter connecting said second main inlet header to the other of said rectangular openings'connected to the other of the two inlet conduits of the second fluid conduit assembly.
' 13 In combination, a gas flow chamber, a plurality of fluidconduit assemblies, each having two vertically spaced conduits at one end merging into a single conduit at the other end thereof, two opposite sides of said gas flow chamber each having at least three vertically spaced openings therein, one fluid conduit assembly having its vertically spaced conduits connected to the upper two openings in one side of said chamber, and having its single conduit connected to the upper opening in the other side ofsaid chamber, and another of said conduit assemblies havingits vertically spaced conduits connected to the lower two of said three openings at'said other side of said chamber and having its single conduit connected to the lower of said t-hree'openi'ngs at said one side of said chamber.
14, In combination, a gas flow chamber closed at the top and bottom andon two opposite sides, a plurality of vertically spaced openings in said closed sides, and a pluralityof'fluidconduit assemblies each having two vertically spaced inlet conduits which register with adjacent openings in onesideof saidchamber and merge into a single outlet conduit which registers with an opening in the opposite side of said chamber.
I Rogers etal Apr. 8, 1952 Jendrassik Nov. 11, 1952
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Cited By (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3394926A (en) * 1964-05-26 1968-07-30 Whirlpool Co Absorber apparatus for a refrigeration system
US4116271A (en) * 1975-02-04 1978-09-26 Guido Amandus De Lepeleire Counter-current bumped plates heat exchanger
US4484622A (en) * 1982-04-27 1984-11-27 The Garrett Corporation Integral header heat exchanger
US20100065262A1 (en) * 2008-09-18 2010-03-18 Multistack Llc Double inlet heat exchanger
US20100288380A1 (en) * 2007-11-27 2010-11-18 Benoit Sicre Fluid distribution element for a fluid-conducting device, in particular for multichannel-like fluid-conducting appliances which are nested in each other
CN104654842A (en) * 2015-02-13 2015-05-27 华北电力大学(保定) Flow channel-type heat exchanger
US20180328673A1 (en) * 2017-05-12 2018-11-15 The Boeing Company Hollow Lattice Thermal Energy Storage Heat Exchanger
US11518502B2 (en) * 2019-04-30 2022-12-06 Textron Innovations Inc. Energy absorption stabilizers and methods

Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2591878A (en) * 1948-09-22 1952-04-08 Gen Motors Corp Oxygen regenerator
US2617634A (en) * 1942-05-22 1952-11-11 Jendrassik George Heat exchanger

Patent Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2617634A (en) * 1942-05-22 1952-11-11 Jendrassik George Heat exchanger
US2591878A (en) * 1948-09-22 1952-04-08 Gen Motors Corp Oxygen regenerator

Cited By (11)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3394926A (en) * 1964-05-26 1968-07-30 Whirlpool Co Absorber apparatus for a refrigeration system
US4116271A (en) * 1975-02-04 1978-09-26 Guido Amandus De Lepeleire Counter-current bumped plates heat exchanger
US4484622A (en) * 1982-04-27 1984-11-27 The Garrett Corporation Integral header heat exchanger
US20100288380A1 (en) * 2007-11-27 2010-11-18 Benoit Sicre Fluid distribution element for a fluid-conducting device, in particular for multichannel-like fluid-conducting appliances which are nested in each other
US20100065262A1 (en) * 2008-09-18 2010-03-18 Multistack Llc Double inlet heat exchanger
US8844610B2 (en) * 2008-09-18 2014-09-30 Multistack, LLC Double inlet heat exchanger
CN104654842A (en) * 2015-02-13 2015-05-27 华北电力大学(保定) Flow channel-type heat exchanger
CN104654842B (en) * 2015-02-13 2017-06-06 华北电力大学(保定) A kind of flow passage type heat transfer device
US20180328673A1 (en) * 2017-05-12 2018-11-15 The Boeing Company Hollow Lattice Thermal Energy Storage Heat Exchanger
US11747094B2 (en) * 2017-05-12 2023-09-05 The Boeing Company Hollow lattice thermal energy storage heat exchanger
US11518502B2 (en) * 2019-04-30 2022-12-06 Textron Innovations Inc. Energy absorption stabilizers and methods

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