US1688700A - Regenerative air heater - Google Patents

Regenerative air heater Download PDF

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US1688700A
US1688700A US81336A US8133626A US1688700A US 1688700 A US1688700 A US 1688700A US 81336 A US81336 A US 81336A US 8133626 A US8133626 A US 8133626A US 1688700 A US1688700 A US 1688700A
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discharge
valves
inlet
heater
passageway
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US81336A
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Henry F Gauss
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Heine Boiler Co
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Heine Boiler Co
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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
    • F28D17/00Regenerative heat-exchange apparatus in which a stationary intermediate heat-transfer medium or body is contacted successively by each heat-exchange medium, e.g. using granular particles
    • YGENERAL 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
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10STECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10S165/00Heat exchange
    • Y10S165/009Heat exchange having a solid heat storage mass for absorbing heat from one fluid and releasing it to another, i.e. regenerator
    • Y10S165/037Heat exchange having a solid heat storage mass for absorbing heat from one fluid and releasing it to another, i.e. regenerator having flow diverting means, e.g. valve to selectively control flow through storage mass

Definitions

  • This invention relates to devices of the kind that are used for abstracting heat from one gaseous medium and transmitting said heat to a different gaseous medium of a lower temperature, and particularly to air heaters of the regenerative type, such as are used with boilers and other heating apparatus for heating air that is supplied to the furnace of the apparatus to support combustion.
  • the object of my invention is to provide a regenerative air heater that is highly eiiicient and inexpensive to construct.
  • Figure 1 of the drawings is a side elevational view of an airheater constructed in accordance with my invention, combined with a water tube boiler.
  • Figure 2 is a vertical transverse sectional view of said heater, taken on the line 2-2 of Figure 3.
  • Figure 3 isa vertical longitudinal sectional view of said heater, taken on the line 3-43 of Figure 2 and Figure i is a transverse sectional view, taken on the line H of Figure 8.
  • A designates a water tube-boileror'other heating apparatus
  • B designates a regenerative air heater arranged in: the path of travel of the gases or products of combustion which escape from said boiler
  • C designates a fan or other suitable suction device for causing the gases to circulate-through the heater B, asindicated by the arrows on in Figure 1-
  • D designates a fan or other suitable-device for causing air to circulate through said heater, as indicated by the arrows 1 in Figure 1 and then pass to the furnace of the: boiler A to support combustion.
  • the heater Bis preferably composed of a sheet metal casing 1 whose-interior is divides into two flues or passageways E and E by a partition 2, herein illustrated as being disposed vertically.
  • Each of said flues or passageways contains a means that is capable of absorbing heat from the gases which circulate through the: heater, and thereafter transmitting said-heat to the air which circulates through the. heater, said heat absorbing means preferably consisting of metal plates 3 arranged parallel in the fines E and E in spaced relation, asshownin Figure
  • the casing 1 of the heater isprovided at one end with an inlet portion 1 constructed p refer-ably in the form ot a. rectangular-shaped frame,
  • a discharge portion 1" which is also preferably constructed in the form of a rectangular-shaped frame.
  • the conduit t through which the heated air is conducted from the heater to the furnace of the boiler A extends transversely across the entire width of the discharge portion 1 of the casing of the heater in alignment with the lower halt of said discharge portion and the conduit 5 that leads from the heater to the device C which draws the gases through the heater extends transversely .across the entire width of the discharge portion 1 of the casing in alignment with the upper half of said discharge portion.
  • each of the tines E and E is provided with two sets of inlet valves or dampers G and 7 arranged one above the other, as shown in Figure 2, and at the discharge end of the heater each of said fines or passageways E and E is provided with two sets of discharge valves or dampers 6 and 7 arranged one above the other.
  • the valves or dampers just referred to preferably consist of hinged or oscillatin shutters arranged horizontally in the inlet portion 1 and in the discharge portion 1 of the casing of the heater, and said inlet port-ion and discharge portion are each provided with a vertical partition 2 arranged in alignment with the center partition 2 in the casing A, and a horizontallydisposed partition 8 that divides its upper half from its lower half.
  • the inlet end 1 of the casing of the heater is divided into “four separate and distinct portions, each of which is provided with a group of inlet valves, and the discharge portion 1 of the casing is also divided into four separate and distinct portions, each of which is equipped with a group of discharge valves.
  • the inlet valves 6 and 7 and the discharge valves 6" and 7 of the heater may be of any suitable type, but I prefer to construct each of said valves from a flat strip of metalthat is connected to a horizontally-disposed shaft 9 which is arranged transversely of the opening in which the valve is positioned, the shafts 9 of said valves being so disposed that the group of valves which constitute one closure are arranged in overlapping relation when they are in their closed position, as shown in Figure 3.
  • Each of the valve shafts 9 is provided at its outer end with an angularlydisposed arm 10 which is joined to an operating mechanism that is used to reverse the valves or change the position of the valves.
  • the operating mechanism may con-' sist of a longitudinally-shiftable operating bar 11 that is joined by bell crank levers 12 to links 13 which are attached to the arms 10 on the valve shafts 9.
  • the valve arms 10 are so disposed that the top group of inlet valves 6 of the passageway E and the bottom group of discharge valves 7 of said passageway are closed when the bottom group of inlet valves 7 and the top group of discharge valves 6 of the passageway E are closed.
  • the bottom group of inlet valves 7 and the top group of discharge valves 6 of the passageway E are open and the top group of inlet valves 6 and the bottom group of discharge valves 7* of the passageway E are also open.
  • the operating bar 11 is shifted longitudinally so as to reverse the position of the valves and cause gases to flow through the passageway E, and air to flow through the passageway E, the air abstracting heat from the heat absorbing means in the passageway E, and the heat absorbing means in the passageway E being raised to .a high temperature by the gases traveling through said passageway.
  • An air heaterof the construction ab ve described is inexpensive to build, as it is constructed principally from sheet metal elements, it is compact and it is exceptionally efiicieut, as each of the passageways E and E is provided with a heat absorbing means having a relatively great surface area.
  • a device for transmitting heat from one gaseous medium to another gaseous medium comprising a pair of passageways provided with a heat absorbing means, inlet ducts for supplying different gaseous mediumsarranged at one end of said passageways, discharge ducts at the opposite end of said passageways, top and bottom groups of inlet valves arranged at the inletend of each of said passageways for establishing and cutting off communication between said passageways and said inlet duct-s, top and bottom groups of discharge valves arranged at the discharge end of each of said passageways for establishing and cutting off communication between said passageways and said discharge ducts, said valves being so disposed that the top group of inlet valves and the bottom group of discharge valves of one passageway are open when the other inlet and discharge valves of said passageway are closed and the bottom group of inlet valves and the top group of discharge valves of the other passageway are open when the remaining valves of said other passageway are closed, and means for reversing the position of said valves.
  • An air heater comprising a casing divided into two passageways, a heat absorbing means in each of said passageways, an inlet at one end of said casing divided into four portions, an inlet duct that communicates with two of said portions, a separate inlet duct that communicates with the other two portions, a discharge at the opposite end of said casing divided into four portions, a discharge duct communicating with two of said discharge portions, a separate discharge duct communicating with the two remaining discharge portions, and closures for the four portions of the inlet and for the four portions of the discharge arranged so that two of the inlet closures and two of the discharge closures are normally open, and the remaining inlet and discharge closures are normally closed.
  • An air heater' comprising a casing provided with a longitudinally-disposed partition that divides the interior of said easing into two passageways, metal plates arranged in said passageways in spaced relation so as to serve as heat absorbing elements, an intake at one end of said casing divided into four per tions, an inlet duct that co-operates With two of said portions, a separate inlet duct that co-operat-es with the other two inlet portions, a discharge at the opposite end of said casing divided into four portions, a discharge duct that co-operates with two of said discharge portions, a separate discharge duct that cooperates with the two remaining discharge portions, a group of inlet valves arranged in each portion of said inlet, and a group of discharge valves arranged in each portion of said discharge, said valves being so disposed that one half of the inlet end of each passageway and one half of the discharge end of each passageway is normally open and the remaining half of the inlet and discharge ends of said passageways are normally closed, and a means for
  • An air heater comprising a casing divided into two passageways, heat absorbing elements in said passageways, rectangularshaped inlet and discharge portions at the opposite ends of said casing, two inlet ducts that co-operate with said inlet for supplying different gaseous mediums to one end of said passageways, two discharge ducts that cooperate with the opposite end of said passageways, four groups of valves in each of said inlet and discharge portions, each of which groups comprises a plurality of oscillating valves arranged in overlapping relation when they are closed, and an operating mechanism for said valves combined with same in such a manner that the inlet valves at the top side of one passageway and the discharge valves at the bottom side of said passageway, the inlet valves at the bottom side of the other passageway and the discharge valves at the top side of said other passageway are closed when the remaining valves of said respective passageways are open.
  • An air heater comprising a sheet metal casing provided. with a longitudinally-disposed partition that divides the interior of same into two passageways, parallel metal plates arranged in said passageways in spaced relation so as to constitute heat absorbing elements, rectangular-shaped frames at the opposite ends of said casing that constitute inlet and discharge portions for the casing, each of said frames having a vertical and a horizontal partition that divides the interior of same into four parts, two inlet ducts that cooperate with one of said frames, two outlet ducts that cooperate with the other frame, and hinged valves combined with said frames to serve as closures for the four parts of each of said frames, said valves being so arranged that one half of the valves of each frame are normally closed and the remaining valves are normally open.

Description

" Oct. 23, 1928. 1,688,700
H. F. GAUSS REGENERATIVE AIR HEATER Filed Jan. 14, 1926 /0 Avvzw rak f/ENRY A 64 05.2
W WW
A TTORNEYJ.
Patented Oct. 23, 1928,
UNITED STATES PATENT @FFHQE.
HENRY F. GAUSS, OF MOSCOW, IDAHO, ASSIGNGR TO EEINE BOILER CQMPAIIY, OF ST. LOUIS, MISSOURI, A COREORATIEGN 0F MISSOURI.
REGENERATIVE rinernn.
Application filed January 1 This invention relates to devices of the kind that are used for abstracting heat from one gaseous medium and transmitting said heat to a different gaseous medium of a lower temperature, and particularly to air heaters of the regenerative type, such as are used with boilers and other heating apparatus for heating air that is supplied to the furnace of the apparatus to support combustion.
The object of my invention is to provide a regenerative air heater that is highly eiiicient and inexpensive to construct.
Figure 1 of the drawings is a side elevational view of an airheater constructed in accordance with my invention, combined with a water tube boiler.
Figure 2 is a vertical transverse sectional view of said heater, taken on the line 2-2 of Figure 3.
Figure 3 isa vertical longitudinal sectional view of said heater, taken on the line 3-43 of Figure 2 and Figure i is a transverse sectional view, taken on the line H of Figure 8.
Referring to the drawings which illustrate the preferred "form ofmy invention, A designates a water tube-boileror'other heating apparatus, B designates a regenerative air heater arranged in: the path of travel of the gases or products of combustion which escape from said boiler, C designates a fan or other suitable suction device for causing the gases to circulate-through the heater B, asindicated by the arrows on in Figure 1-, and D designates a fan or other suitable-device for causing air to circulate through said heater, as indicated by the arrows 1 in Figure 1 and then pass to the furnace of the: boiler A to support combustion.
The heater Bis preferably composed of a sheet metal casing 1 whose-interior is divides into two flues or passageways E and E by a partition 2, herein illustrated as being disposed vertically. Each of said flues or passageways contains a means that is capable of absorbing heat from the gases which circulate through the: heater, and thereafter transmitting said-heat to the air which circulates through the. heater, said heat absorbing means preferably consisting of metal plates 3 arranged parallel in the fines E and E in spaced relation, asshownin Figure The casing 1 of the heater isprovided at one end with an inlet portion 1 constructed p refer-ably in the form ot a. rectangular-shaped frame,
4, ms. Serial no. erase.
and said casing is provided at its opposite end with a discharge portion 1" which is also preferably constructed in the form of a rectangular-shaped frame. The conduit 4: throughwhicl air is supplied to the heater extends transversely across the entire width of the in let portion 1 of the casing in alignment with the upper half of said inlet portion, and the conduit 5 through which gases are supplied to the heater also extends transversely across the entire width of the inlet portion 1 of the casing, but in alignment with the lower half of said inlet portion. The conduit t through which the heated air is conducted from the heater to the furnace of the boiler A extends transversely across the entire width of the discharge portion 1 of the casing of the heater in alignment with the lower halt of said discharge portion and the conduit 5 that leads from the heater to the device C which draws the gases through the heater extends transversely .across the entire width of the discharge portion 1 of the casing in alignment with the upper half of said discharge portion.
At the inlet end of the heater each of the tines E and E is provided with two sets of inlet valves or dampers G and 7 arranged one above the other, as shown in Figure 2, and at the discharge end of the heater each of said fines or passageways E and E is provided with two sets of discharge valves or dampers 6 and 7 arranged one above the other. The valves or dampers just referred to preferably consist of hinged or oscillatin shutters arranged horizontally in the inlet portion 1 and in the discharge portion 1 of the casing of the heater, and said inlet port-ion and discharge portion are each provided with a vertical partition 2 arranged in alignment with the center partition 2 in the casing A, and a horizontallydisposed partition 8 that divides its upper half from its lower half. Thus, as shown in Figure 2, the inlet end 1 of the casing of the heater is divided into "four separate and distinct portions, each of which is provided with a group of inlet valves, and the discharge portion 1 of the casing is also divided into four separate and distinct portions, each of which is equipped with a group of discharge valves.
The inlet valves 6 and 7 and the discharge valves 6" and 7 of the heater may be of any suitable type, but I prefer to construct each of said valves from a flat strip of metalthat is connected to a horizontally-disposed shaft 9 which is arranged transversely of the opening in which the valve is positioned, the shafts 9 of said valves being so disposed that the group of valves which constitute one closure are arranged in overlapping relation when they are in their closed position, as shown in Figure 3. Each of the valve shafts 9 is provided at its outer end with an angularlydisposed arm 10 which is joined to an operating mechanism that is used to reverse the valves or change the position of the valves. Thus, as shown diagrammatically in Figure 1, the operating mechanism may con-' sist of a longitudinally-shiftable operating bar 11 that is joined by bell crank levers 12 to links 13 which are attached to the arms 10 on the valve shafts 9. The valve arms 10 are so disposed that the top group of inlet valves 6 of the passageway E and the bottom group of discharge valves 7 of said passageway are closed when the bottom group of inlet valves 7 and the top group of discharge valves 6 of the passageway E are closed. At this time the bottom group of inlet valves 7 and the top group of discharge valves 6 of the passageway E are open and the top group of inlet valves 6 and the bottom group of discharge valves 7* of the passageway E are also open. Consequently, hot gases from the boiler will circulate longitudinally through the passageway E, asindicated by the arrows in Figure 3, and air will circulate longitudinally through the passageway E, thereby causing the heat absorbing means in the passageway E to be heated to a high temperature by the gases flowing through said passageway and causing the air flowing through the passageway E to be heated to a high degree by the heat absorbing means in said passageway E. At intervals the operating bar 11 is shifted longitudinally so as to reverse the position of the valves and cause gases to flow through the passageway E, and air to flow through the passageway E, the air abstracting heat from the heat absorbing means in the passageway E, and the heat absorbing means in the passageway E being raised to .a high temperature by the gases traveling through said passageway. I prefer to combine the inlet conduits and the discharge conduits for the gases and the air with the heater in such a way that the gases and the air circulate through the heater in substantially diagonal paths, so as to insure the gases and air circulating over substantially the entire area of the heat absorbing plates in the passageways E and E, this being accomplished by arranging the air supply conduit 4 in alignment with the upper half of the inlet end of the casing of the heater, arranging the air discharge conduit 4: in alignment with the lower half of the discharge end of the casing and arranging the gas supply conduit 5 and the gas discharge conduit 5 in alignment with the lower half and the upper half of the inlet and discharge ends respectively of the casing of the heater;
An air heaterof the construction ab ve described is inexpensive to build, as it is constructed principally from sheet metal elements, it is compact and it is exceptionally efiicieut, as each of the passageways E and E is provided with a heat absorbing means having a relatively great surface area.
Having thus described my invention, what I claim as new and desire to secure by Letters Patent, is:
1. A device for transmitting heat from one gaseous medium to another gaseous medium, comprising a pair of passageways provided with a heat absorbing means, inlet ducts for supplying different gaseous mediumsarranged at one end of said passageways, discharge ducts at the opposite end of said passageways, top and bottom groups of inlet valves arranged at the inletend of each of said passageways for establishing and cutting off communication between said passageways and said inlet duct-s, top and bottom groups of discharge valves arranged at the discharge end of each of said passageways for establishing and cutting off communication between said passageways and said discharge ducts, said valves being so disposed that the top group of inlet valves and the bottom group of discharge valves of one passageway are open when the other inlet and discharge valves of said passageway are closed and the bottom group of inlet valves and the top group of discharge valves of the other passageway are open when the remaining valves of said other passageway are closed, and means for reversing the position of said valves.
2. An air heater, comprising a casing divided into two passageways, a heat absorbing means in each of said passageways, an inlet at one end of said casing divided into four portions, an inlet duct that communicates with two of said portions, a separate inlet duct that communicates with the other two portions, a discharge at the opposite end of said casing divided into four portions, a discharge duct communicating with two of said discharge portions, a separate discharge duct communicating with the two remaining discharge portions, and closures for the four portions of the inlet and for the four portions of the discharge arranged so that two of the inlet closures and two of the discharge closures are normally open, and the remaining inlet and discharge closures are normally closed.
3. An air heater'comprising a casing provided with a longitudinally-disposed partition that divides the interior of said easing into two passageways, metal plates arranged in said passageways in spaced relation so as to serve as heat absorbing elements, an intake at one end of said casing divided into four per tions, an inlet duct that co-operates With two of said portions, a separate inlet duct that co-operat-es with the other two inlet portions, a discharge at the opposite end of said casing divided into four portions, a discharge duct that co-operates with two of said discharge portions, a separate discharge duct that cooperates with the two remaining discharge portions, a group of inlet valves arranged in each portion of said inlet, and a group of discharge valves arranged in each portion of said discharge, said valves being so disposed that one half of the inlet end of each passageway and one half of the discharge end of each passageway is normally open and the remaining half of the inlet and discharge ends of said passageways are normally closed, and a means for reversing said valves. l
4:. An air heater, comprising a casing divided into two passageways, heat absorbing elements in said passageways, rectangularshaped inlet and discharge portions at the opposite ends of said casing, two inlet ducts that co-operate with said inlet for supplying different gaseous mediums to one end of said passageways, two discharge ducts that cooperate with the opposite end of said passageways, four groups of valves in each of said inlet and discharge portions, each of which groups comprises a plurality of oscillating valves arranged in overlapping relation when they are closed, and an operating mechanism for said valves combined with same in such a manner that the inlet valves at the top side of one passageway and the discharge valves at the bottom side of said passageway, the inlet valves at the bottom side of the other passageway and the discharge valves at the top side of said other passageway are closed when the remaining valves of said respective passageways are open.
5. An air heater, comprising a sheet metal casing provided. with a longitudinally-disposed partition that divides the interior of same into two passageways, parallel metal plates arranged in said passageways in spaced relation so as to constitute heat absorbing elements, rectangular-shaped frames at the opposite ends of said casing that constitute inlet and discharge portions for the casing, each of said frames having a vertical and a horizontal partition that divides the interior of same into four parts, two inlet ducts that cooperate with one of said frames, two outlet ducts that cooperate with the other frame, and hinged valves combined with said frames to serve as closures for the four parts of each of said frames, said valves being so arranged that one half of the valves of each frame are normally closed and the remaining valves are normally open.
HENRY F. GAUSS.
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Cited By (10)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2692761A (en) * 1952-11-14 1954-10-26 Air Preheater Selective operating mechanism for air preheater by-passing dampers
US2766968A (en) * 1952-08-28 1956-10-16 Foster Wheeler Corp Means for selectively cleaning heat exchange tubes
US3181602A (en) * 1961-06-05 1965-05-04 Davidson & Co Ltd Heat exchangers
FR2534679A1 (en) * 1982-10-18 1984-04-20 Orpocon Oy MEDIUM FLOW CONTROL DEVICE FOR A REGENERATION HEAT EXCHANGER
US4966228A (en) * 1989-02-16 1990-10-30 Sedum Corporation Regenerative gas-to-gas heat exchanger
US5191930A (en) * 1991-05-20 1993-03-09 Chaney Ross P Heat regenerator
US5439048A (en) * 1994-05-16 1995-08-08 Osman; Ramli B. Fixed regenerative heat exchanger
US5515909A (en) * 1992-07-22 1996-05-14 Nippon Furnace Kogyo Kabushiki Kaisha Flow switching apparatus, regenerative alternate combustion burner system using the apparatus, and regenerative heat exchanger system using the apparatus
US20170276435A1 (en) * 2014-09-30 2017-09-28 Siemens Aktiengesellschaft High temperature thermal energy exchange system with horizontal heat exchange chamber and method for exchanging thermal energy by using the high temperature thermal energy exchange system
US11326794B2 (en) * 2015-11-30 2022-05-10 Blender Products, Inc. Combined economizer and mixer for air handling unit

Cited By (12)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2766968A (en) * 1952-08-28 1956-10-16 Foster Wheeler Corp Means for selectively cleaning heat exchange tubes
US2692761A (en) * 1952-11-14 1954-10-26 Air Preheater Selective operating mechanism for air preheater by-passing dampers
US3181602A (en) * 1961-06-05 1965-05-04 Davidson & Co Ltd Heat exchangers
FR2534679A1 (en) * 1982-10-18 1984-04-20 Orpocon Oy MEDIUM FLOW CONTROL DEVICE FOR A REGENERATION HEAT EXCHANGER
WO1984001617A1 (en) * 1982-10-18 1984-04-26 Orpocon Oy Control device for medium flows for regenerative heat exchanger
US4966228A (en) * 1989-02-16 1990-10-30 Sedum Corporation Regenerative gas-to-gas heat exchanger
US5191930A (en) * 1991-05-20 1993-03-09 Chaney Ross P Heat regenerator
US5515909A (en) * 1992-07-22 1996-05-14 Nippon Furnace Kogyo Kabushiki Kaisha Flow switching apparatus, regenerative alternate combustion burner system using the apparatus, and regenerative heat exchanger system using the apparatus
US5439048A (en) * 1994-05-16 1995-08-08 Osman; Ramli B. Fixed regenerative heat exchanger
US20170276435A1 (en) * 2014-09-30 2017-09-28 Siemens Aktiengesellschaft High temperature thermal energy exchange system with horizontal heat exchange chamber and method for exchanging thermal energy by using the high temperature thermal energy exchange system
US10563927B2 (en) * 2014-09-30 2020-02-18 Siemens Gamesa Renewable Energy A/S High temperature thermal energy exchange system with horizontal heat exchange chamber and method for exchanging thermal energy by using the high temperature thermal energy exchange system
US11326794B2 (en) * 2015-11-30 2022-05-10 Blender Products, Inc. Combined economizer and mixer for air handling unit

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