US2628474A - Annular combustion liner having conical reentrant walls with fuel reversing elements - Google Patents

Annular combustion liner having conical reentrant walls with fuel reversing elements Download PDF

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US2628474A
US2628474A US93017A US9301749A US2628474A US 2628474 A US2628474 A US 2628474A US 93017 A US93017 A US 93017A US 9301749 A US9301749 A US 9301749A US 2628474 A US2628474 A US 2628474A
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fuel
walls
annular
air
combustion
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Floyd T Hague
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F23COMBUSTION APPARATUS; COMBUSTION PROCESSES
    • F23RGENERATING COMBUSTION PRODUCTS OF HIGH PRESSURE OR HIGH VELOCITY, e.g. GAS-TURBINE COMBUSTION CHAMBERS
    • F23R3/00Continuous combustion chambers using liquid or gaseous fuel
    • F23R3/28Continuous combustion chambers using liquid or gaseous fuel characterised by the fuel supply

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  • This invention relates to combustion apparatus, and more particularlyto combustion apparatus for a gasturbine pow-er plant.
  • a feature of the invention consists in employment of the counterfiow principle to efiect rapid supply of heat to fuel vapor through the medium of a heated reversing chamber or bafile member suspended in front of a fuel nozzle.
  • This reversing chamber is adapted to heat the fuel to'the desired degree in the very short interval that a liquid fuel particle is in contact with the reversing chamber surface and to effect discharge of fuel, either solid or gaseous, at suflicient velocity to effect uniform dispersion in the reversing chamber.
  • Theheated fuel and air :mixture issuing from the reversing chamber is then introduced in counterflow relation into the air supplied into the combustion chamber .to form the motive fluid for operating a .gas turbine engine, and/or effecting a propelling jet.
  • a further object of the invention is the provision of improved combustion apparatus of the class described in which the fuel reversing-chamber is operative to inject heat into the fuel and air mixture flowing through it, and to discharge such mixture at substantially any desired temperature into the air in the combustion chamber.
  • inventions include provision of improved combustion apparatus suitable for effecting proper heating or "vaporization of afuel having a high boiling point, such as kerosene, without formation of carbon deposits.
  • Thefuel heating is accomplished in so short a time interval that the fuel does not have sufficient time in contact with a heated surface to produce cracking.
  • Additional features of the invention include provision of an annular reversing chamber .or body [mounted in a high temperature zone adjacent the fuel nozzles of an annular combustion chamber structure having an apertured inner wall, through which primary air is supplied for combustion of the heated atomized fuel that is deflected from the reversing chamber.
  • Fig. 1 is a diagrammatic view, partly insection, of a gas turbine engine having combustion apparatus constructed in accordance with the invention
  • Fig. 2 is an enlarged detail, sectional view of a portion of the combustion apparatus shown in Fig. l;
  • Fig. 3 is a fragmentary sectional view :taken along the line IIII'II of Fig. 2.
  • Fig. 1 Theessential elements of a typical aviation .gas turbine power plant are illustrated diagrammatically in Fig. 1,'comprising an outer casing structure H, which may be made up of a number of cylindrical sections and which has suitably mounted therein an inner sectional core structure i2 cooperating with the outer structure to form an annular fiow passageway 13, which extends longitudinally th-rough the engine froma forwardly directed intake opening 14 to a rearwardly disposed discharge nozzle 15.
  • Fig. 1 the casing structure H is adapted to be mounted in or on the fuselage -or wing of an aircraft, with theinlet opening [4 pointed forwardly.
  • Operating elements of the gas turbine engine are arranged in axial align ment in order to minimize the frontal area presented by the engine, and include an axial-flew compressor 4-9, annular combustion apparatus 20, and a turbine 2!, which is operatively connected to the rotor of the compressor through the medium of an axially disposed shaft 22.
  • the combustion apparatus 20 comprises an annular burner or basket structure 25 interposed in the passageway I3 and having an outer annular wall 26, an inner wall 21 of frustoconical form, and two reentrant frusto-conical walls 28 and 29 joined by an annular, preferably perforated, apical section 30 to form a combustion chamber having dual upstream portions 3
  • the reentrant walls 28 and 29 are made of foraminous material or are provided with a plurality of opening-s 33, for admitting air under pressure from the passageway l3 to the dual upstream combustion chamber portions 3
  • the walls 26 and 21 are spaced from the respective walls of the casing structures H and I2 to permit flow therepast of secondary or cooling air during operation of the engine.
  • the apical section 30 has formed therein a plurality of spaced openings including apertures for receiving fuel nozzles 35, which may be secured to the section or otherwise supported in a suitable manner, and which are individually connected to the usual fuel supply system through the medium of conduits 36 communicating with a manifold (not shown).
  • each reversing chamber element 38 Suspended in the downstream portion 32 of the combustion chamber, adjacent the nozzles 35 is an annular body or reversing chamber element 38 having an annular concavity 39 facing the associated nozzle 35.
  • Each reversing chamber element 38 may be suitably supported on one of a number of radially arranged struts 42 carried by the casing structures H and I2.
  • the concavity 39 of each element 38 terminates in a guide wall 44, which is adapted to direct the flow of atomized fuel issuing from the nozzles forwardly and substantially along the surfaces of the respective reentrant walls 28 and 29.
  • the nozzles 35 are designed to eject fuel at a small angle, so that the fuel will have a relatively large component of axial velocity and such radial velocity as will promote uniform dispersion of fuel in the concavities 39.
  • the concavities 33 have central elevations 39a for ensuring distribution of fuel into both, combustion chamber portions 3
  • each element 38 is disposed in a zone in which temperatures ranging from 1200 to 3000 F. may prevail; it serves to transfer heat from the surrounding high temperature gases to the fuel and air mixture flowing through the concavity 39 to the combustion chamber portions 3!.
  • the reversing chamber element 38 thus not only serves to initiate counterflow of the air and gas streams entering the combustion chambers, but also promotes eflicient combustion byrapidly injecting heat into the fuel and air mixture for promoting attaimnent of the most favorable condition for rapid combustion in association with the air jets issuing from the burner openings 33.
  • the association of the fuel nozzles with the heated reversing chamber elements ensures rapid addition of heat to the fuel and air mixture, while effecting counterfiow thereof for minimizing the combustion space and improving mixing of fuel vapor and air.
  • an improved fuel combustion apparatus constructed in accordance with the invention, by effecting preheating 0f the fuel and air mixture and counterflow of the air and fuel streams, will ensure eflicient vaporization and combustion of gasoline, or one of the more readily available fuels having high boiling points such as kerosene. Heating of the fuel and air mixture, during momentary contact thereof with the reversing chamber elements 38, is accomplished rapidly enough to prevent undesired cracking of the fuel, or depositing of carbon, while the flame propagation velocity, as well as the range of ignitible mixtures of air and hydrocarbon vapors, are extended and increased.
  • Combustion apparatus constructed and arranged in an annular air flow passage having an upstream inlet for receiving air under pressure and a downstream outlet for delivery of hot motive fluid, said apparatus comprising outer and inner annular walls, annular reentrant walls having apertures and spaced within said outer and inner walls to form a dual combustion chamber closed at the upstream end and having a single downstream opening, at least one of said reentrant walls being of frusto-conical form converging from the upstream end toward the other reentrant wall, an annular apical section joining said reentrant walls at a point intermediate the upstream and downstream ends of said combustion chamber, a plurality of nozzles mounted in said apical section for discharging fuel in a downstream direction, and an annular group of reversing elements suspended from said outer and inner walls in ,a high temperature zone of said combustion chamber and in alignment with said nozzles, said element presenting concave surfaces to said nozzles for transferring heat to the fuel and air mixture while effecting counterfiow thereof into
  • Combustion apparatus constructed and arranged in an annular air flow passage having an upstream inlet for receiving air under pres-, sure and a downstream outlet for delivery of hot motive fluid
  • said apparatus comprising wall structure having air inlet apertures and including outer and inner annular walls spaced within said flow passage, frusto-conical reentrant walls having their upstream ends mounted in juxtaposed relation with the adjacent ends of said outer and inner walls, respectively, an annular apical section joining the converging downstream ends of said reentrant walls at a point inter mediate the opposite ends of said outer and inner walls, said Wall structure thus forming an annular combustion chamber having dual upstream portions diverging into a common downstream portion, fuel supply means extending through said passage between said reentrant walls and carrying a plurality of nozzles, said apical section having apertures for receiving the fuel dish r portions of said nozzles, and a plurality of deflecting bodies supported in spaced relation from said wall structure in the high'temperature zone of said combustion chamber closely adjacent said

Description

F 1953 F. T. HAGUE ANNULAR COMBUSTION LINER HAVING CONICAL REENTRANT WALLS WITH FUEL REVERSING ELEMENTS Filed May 15, 1949 INVENTOR FLOYD T. HAGUE mg jaw-9;,
ATTORNEY Patented Feb. 17, 1953 UNITED STATES TENT OFFICE ANNULAR COMBUSTION LINER HAVING CONICAL 'REENTBANT WALLS WITH FUEL REVERSING ELEMENTS the New Application May 13, 1949, Serial'No. 93,101.?
3 Claims. .1
This invention relates to combustion apparatus, and more particularlyto combustion apparatus for a gasturbine pow-er plant.
In order to facilitate the distribution and efficient combustion of fuel for .the operation of an athodyd or of a gas turbine power plant of the type having a turbine-driven compressor operative to deliver air under pressure :to a combustion chamber, it is considered desirable to provide means to eifect counterfiow of the air and fuel streams and to effect preheating of the fuel and air mixture immediately prior to combustion. It is a principal object of the present invention to provide improved combustion apparatus exhibiting these features of operation, utilizing a combustor structure having favorable volume and weight characteristics as well as high thermal efficiency, rendering it especially suitable for use in an aviation gas turbine engine.
A feature of the invention consists in employment of the counterfiow principle to efiect rapid supply of heat to fuel vapor through the medium of a heated reversing chamber or bafile member suspended in front of a fuel nozzle. This reversing chamber is adapted to heat the fuel to'the desired degree in the very short interval that a liquid fuel particle is in contact with the reversing chamber surface and to effect discharge of fuel, either solid or gaseous, at suflicient velocity to effect uniform dispersion in the reversing chamber. Theheated fuel and air :mixture issuing from the reversing chamber is then introduced in counterflow relation into the air supplied into the combustion chamber .to form the motive fluid for operating a .gas turbine engine, and/or effecting a propelling jet.
A further object of the invention is the provision of improved combustion apparatus of the class described in which the fuel reversing-chamber is operative to inject heat into the fuel and air mixture flowing through it, and to discharge such mixture at substantially any desired temperature into the air in the combustion chamber.
Features of the invention include provision of improved combustion apparatus suitable for effecting proper heating or "vaporization of afuel having a high boiling point, such as kerosene, without formation of carbon deposits. Thefuel heating is accomplished in so short a time interval that the fuel does not have sufficient time in contact with a heated surface to produce cracking.
Additional features of the invention include provision of an annular reversing chamber .or body [mounted in a high temperature zone adjacent the fuel nozzles of an annular combustion chamber structure having an apertured inner wall, through which primary air is supplied for combustion of the heated atomized fuel that is deflected from the reversing chamber.
These and other objects are effected by my invention as will be apparent from the following description and claims taken in connection with the accompanying drawing, forming a pattof this application, in which;
Fig. 1 is a diagrammatic view, partly insection, of a gas turbine engine having combustion apparatus constructed in accordance with the invention;
Fig. 2 is an enlarged detail, sectional view of a portion of the combustion apparatus shown in Fig. l; and
Fig. 3 is a fragmentary sectional view :taken along the line IIII'II of Fig. 2.
Theessential elements of a typical aviation .gas turbine power plant are illustrated diagrammatically in Fig. 1,'comprising an outer casing structure H, which may be made up of a number of cylindrical sections and which has suitably mounted therein an inner sectional core structure i2 cooperating with the outer structure to form an annular fiow passageway 13, which extends longitudinally th-rough the engine froma forwardly directed intake opening 14 to a rearwardly disposed discharge nozzle 15. 'Itwi11 be understood that the casing structure H is adapted to be mounted in or on the fuselage -or wing of an aircraft, with theinlet opening [4 pointed forwardly. Operating elements of the gas turbine engine are arranged in axial align ment in order to minimize the frontal area presented by the engine, and include an axial-flew compressor 4-9, annular combustion apparatus 20, and a turbine 2!, which is operatively connected to the rotor of the compressor through the medium of an axially disposed shaft 22.
In accordance with well known principles of operation of gas turbine power plants, airentering the annular intake opening it passes to the compressor Hi, which delivers the air under pres-- sure through the passage l3 to the combustion apparatus 25 for supporting combustion of 1 131, which may be admitted by means hereinafter described. Heated motive fluid thus generatedin the combustion apparatus :26 is then expanded through the turbine 2| for driving the c o 1r1- pressor, while the exhausted motive fluid :is'discharged to the atmosphere by way of the nozzle l5, and may be in the form of a jet establishing a propulsive thrust.
According to the invention, the combustion apparatus 20, as best illustrated in Fig. 2, comprises an annular burner or basket structure 25 interposed in the passageway I3 and having an outer annular wall 26, an inner wall 21 of frustoconical form, and two reentrant frusto-conical walls 28 and 29 joined by an annular, preferably perforated, apical section 30 to form a combustion chamber having dual upstream portions 3| which merge into a common downstream portion 32. In the embodiment shown in Fig. 2, the reentrant walls 28 and 29 are made of foraminous material or are provided with a plurality of opening-s 33, for admitting air under pressure from the passageway l3 to the dual upstream combustion chamber portions 3| defined between the walls. The walls 26 and 21 are spaced from the respective walls of the casing structures H and I2 to permit flow therepast of secondary or cooling air during operation of the engine. The apical section 30 has formed therein a plurality of spaced openings including apertures for receiving fuel nozzles 35, which may be secured to the section or otherwise supported in a suitable manner, and which are individually connected to the usual fuel supply system through the medium of conduits 36 communicating with a manifold (not shown).
Suspended in the downstream portion 32 of the combustion chamber, adjacent the nozzles 35 is an annular body or reversing chamber element 38 having an annular concavity 39 facing the associated nozzle 35. Each reversing chamber element 38 may be suitably supported on one of a number of radially arranged struts 42 carried by the casing structures H and I2. The concavity 39 of each element 38 terminates in a guide wall 44, which is adapted to direct the flow of atomized fuel issuing from the nozzles forwardly and substantially along the surfaces of the respective reentrant walls 28 and 29. It will be understood that the nozzles 35 are designed to eject fuel at a small angle, so that the fuel will have a relatively large component of axial velocity and such radial velocity as will promote uniform dispersion of fuel in the concavities 39. The concavities 33 have central elevations 39a for ensuring distribution of fuel into both, combustion chamber portions 3|.
In operation, fuel under pressure is discharged from the nozzles 35 and immediately atomized and mixed with air in the concavities 39 of the reversing chamber elements 35, air under pressure being supplied through the passageway I3 and through openings 33 of the burner 25. Since each element 38 is disposed in a zone in which temperatures ranging from 1200 to 3000 F. may prevail; it serves to transfer heat from the surrounding high temperature gases to the fuel and air mixture flowing through the concavity 39 to the combustion chamber portions 3!. The reversing chamber element 38 thus not only serves to initiate counterflow of the air and gas streams entering the combustion chambers, but also promotes eflicient combustion byrapidly injecting heat into the fuel and air mixture for promoting attaimnent of the most favorable condition for rapid combustion in association with the air jets issuing from the burner openings 33. The association of the fuel nozzles with the heated reversing chamber elements ensures rapid addition of heat to the fuel and air mixture, while effecting counterfiow thereof for minimizing the combustion space and improving mixing of fuel vapor and air. a
From the foregoing it will be apparent that an improved fuel combustion apparatus constructed in accordance with the invention, by effecting preheating 0f the fuel and air mixture and counterflow of the air and fuel streams, will ensure eflicient vaporization and combustion of gasoline, or one of the more readily available fuels having high boiling points such as kerosene. Heating of the fuel and air mixture, during momentary contact thereof with the reversing chamber elements 38, is accomplished rapidly enough to prevent undesired cracking of the fuel, or depositing of carbon, while the flame propagation velocity, as well as the range of ignitible mixtures of air and hydrocarbon vapors, are extended and increased.
While the invention has been shown in but one form, it will be obvious to those skilled in the art that it is not so limited, but is susceptible of various changes and modifications without departing from the spirit thereof.
What is claimed is:
1. Combustion apparatus constructed and arranged in an annular air flow passage having an upstream inlet for receiving air under pressure and a downstream outlet for delivery of hot motive fluid, said apparatus comprising outer and inner annular walls, annular reentrant walls having apertures and spaced within said outer and inner walls to form a dual combustion chamber closed at the upstream end and having a single downstream opening, at least one of said reentrant walls being of frusto-conical form converging from the upstream end toward the other reentrant wall, an annular apical section joining said reentrant walls at a point intermediate the upstream and downstream ends of said combustion chamber, a plurality of nozzles mounted in said apical section for discharging fuel in a downstream direction, and an annular group of reversing elements suspended from said outer and inner walls in ,a high temperature zone of said combustion chamber and in alignment with said nozzles, said element presenting concave surfaces to said nozzles for transferring heat to the fuel and air mixture while effecting counterfiow thereof into the streams of air flowing into said dual combustion chamber by way of the apertures in said reentrant walls.
2. Combustion apparatus constructed and arranged in an annular air flow passage having an upstream inlet for receiving air under pres-, sure and a downstream outlet for delivery of hot motive fluid, said apparatus comprising wall structure having air inlet apertures and including outer and inner annular walls spaced within said flow passage, frusto-conical reentrant walls having their upstream ends mounted in juxtaposed relation with the adjacent ends of said outer and inner walls, respectively, an annular apical section joining the converging downstream ends of said reentrant walls at a point inter mediate the opposite ends of said outer and inner walls, said Wall structure thus forming an annular combustion chamber having dual upstream portions diverging into a common downstream portion, fuel supply means extending through said passage between said reentrant walls and carrying a plurality of nozzles, said apical section having apertures for receiving the fuel dish r portions of said nozzles, and a plurality of deflecting bodies supported in spaced relation from said wall structure in the high'temperature zone of said combustion chamber closely adjacent said nozzles, respectively, said bodies having annular concavities for efiecting heating and counterfiow of fuel and air mixture into the streams of air flowing from said passage-into said combustion chamber by way of the apertures in said wall structure.
3. Apparatus as set forth in claim 2 wherein the deflecting bodies have annular concavities with central elevations for ensuring rapid counterfiow of fuel and air into both upstream portions of the combustion chamber.
FLOYD T. HAGUE.
REFERENCES CITED The following references are of record in the file of this patent:
Number Number 6 UNITED STATES PATENTS Name Date Janicki Feb. 11, 1913 Van Daam Sept. 28, 1915 Chilowsky May 6, 1930 Goddard July 6, 1937 Nahigyan Oct. 2, 1945 Price May 31, 1949 Nathan July 12, 1949 De Zubay et a1 Aug. 2, 1949 Way Feb. 28, 1950 Goddard Dec. 5, 1950 Gist May 15, 1951 FOREIGN PATENTS Country Date Great Britain Mar. 24, 1947
US93017A 1949-05-13 1949-05-13 Annular combustion liner having conical reentrant walls with fuel reversing elements Expired - Lifetime US2628474A (en)

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Citations (12)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1052588A (en) * 1911-04-12 1913-02-11 John Janicki Hydrocarbon power-generator.
US1155114A (en) * 1915-05-27 1915-09-28 Gerrit Van Daam Gas-burner.
US1757855A (en) * 1921-07-27 1930-05-06 Chilowsky Constantin Method of making oil-gas mixtures
US2085800A (en) * 1935-11-25 1937-07-06 Robert H Goddard Combustion apparatus
US2385833A (en) * 1943-01-27 1945-10-02 Kevork K Nahigyan Fuel vaporizer for jet propulsion units
GB586572A (en) * 1943-08-11 1947-03-24 David Macleish Smith Improvements in internal combustion turbine plant for propulsion by jet action, at least in part
US2471892A (en) * 1944-02-14 1949-05-31 Lockheed Aircraft Corp Reactive propulsion power plant having radial flow compressor and turbine means
US2475911A (en) * 1944-03-16 1949-07-12 Power Jets Res & Dev Ltd Combustion apparatus
US2477583A (en) * 1946-07-25 1949-08-02 Westinghouse Electric Corp Combustion chamber construction
US2498728A (en) * 1948-05-07 1950-02-28 Westinghouse Electric Corp Combustion apparatus
US2532709A (en) * 1946-11-30 1950-12-05 Daniel And Florence Guggenheim Liquid cooled baffles between mixing and combustion chambers
US2552851A (en) * 1949-10-25 1951-05-15 Westinghouse Electric Corp Combustion chamber with retrorse baffles for preheating the fuelair mixture

Patent Citations (12)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1052588A (en) * 1911-04-12 1913-02-11 John Janicki Hydrocarbon power-generator.
US1155114A (en) * 1915-05-27 1915-09-28 Gerrit Van Daam Gas-burner.
US1757855A (en) * 1921-07-27 1930-05-06 Chilowsky Constantin Method of making oil-gas mixtures
US2085800A (en) * 1935-11-25 1937-07-06 Robert H Goddard Combustion apparatus
US2385833A (en) * 1943-01-27 1945-10-02 Kevork K Nahigyan Fuel vaporizer for jet propulsion units
GB586572A (en) * 1943-08-11 1947-03-24 David Macleish Smith Improvements in internal combustion turbine plant for propulsion by jet action, at least in part
US2471892A (en) * 1944-02-14 1949-05-31 Lockheed Aircraft Corp Reactive propulsion power plant having radial flow compressor and turbine means
US2475911A (en) * 1944-03-16 1949-07-12 Power Jets Res & Dev Ltd Combustion apparatus
US2477583A (en) * 1946-07-25 1949-08-02 Westinghouse Electric Corp Combustion chamber construction
US2532709A (en) * 1946-11-30 1950-12-05 Daniel And Florence Guggenheim Liquid cooled baffles between mixing and combustion chambers
US2498728A (en) * 1948-05-07 1950-02-28 Westinghouse Electric Corp Combustion apparatus
US2552851A (en) * 1949-10-25 1951-05-15 Westinghouse Electric Corp Combustion chamber with retrorse baffles for preheating the fuelair mixture

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