Combustor and method for distributing fuel in the combustor
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F23R-003/04
F23C-007/00
F23R-003/14
F23R-003/28
출원번호
US-0344690
(2012-01-06)
등록번호
US-9134023
(2015-09-15)
발명자
/ 주소
Boardman, Gregory Allen
Myers, Geoffrey David
Karim, Hasan
Hughes, Michael John
Hajiloo, Azardokht
출원인 / 주소
GENERAL ELECTRIC COMPANY
대리인 / 주소
Dority & Manning, PA
인용정보
피인용 횟수 :
1인용 특허 :
47
초록▼
A combustor includes a plurality of tubes arranged in a tube bundle and supported by at least one plate that extends radially within the combustor, wherein each tube includes an upstream end axially separated from a downstream end and provides fluid communication through the tube bundle. A flow cond
A combustor includes a plurality of tubes arranged in a tube bundle and supported by at least one plate that extends radially within the combustor, wherein each tube includes an upstream end axially separated from a downstream end and provides fluid communication through the tube bundle. A flow conditioner extends upstream from the upstream end of one or more of the plurality of tubes, and a radial passage extends through the flow conditioner. A method for distributing fuel in a combustor including flowing a working fluid through a flow conditioner that extends from a tube that is configured in a tube bundle comprising a plurality of tubes and that is supported by at least one plate. The flow conditioner includes at least one radial passage to impart radial swirl to the working fluid. Flowing a fuel through an annular insert that is at least partially surrounded by the flow conditioner.
대표청구항▼
1. A combuster, comprising: a. a plurality of tubes arranged in a tube bundle and supported by at least one plate extending radially within the combustor, wherein each tube includes an upstream end axially separated from a downstream end and a fuel port defined by the tube between the upstream end a
1. A combuster, comprising: a. a plurality of tubes arranged in a tube bundle and supported by at least one plate extending radially within the combustor, wherein each tube includes an upstream end axially separated from a downstream end and a fuel port defined by the tube between the upstream end and the downstream end, wherein the fuel port provides for fluid communication into the tube, wherein each tube extends parallel to an adjacent tube of the plurality of tubes;b. a first flow conditioner that extends upstream from the upstream end of a first tube of the plurality of tubes, wherein the first flow conditioner defines a plurality of radial passages annularly arranged thereabout, wherein the first flow conditioner provides for a first flow rate of a compressed working fluid through the first tube;c. a second flow conditioner that extends upstream from the upstream end of a second tube of the plurality of tubes, wherein the second flow conditioner defines a plurality of radial passages annularly arranged thereabout, wherein the second flow conditioner provides for a second flow rate of a compressed working fluid through the second tube;d. a first liquid fuel atomizer disposed upstream from an inlet of the first flow conditioner:e. a second liquid fuel atomizer disposed upstream from an inlet of the second flow conditioner; andf. a fuel plenum that circumferentially surrounds the tubes, wherein each fuel port is in fluid communication with the fuel plenum. 2. The combustor of claim 1, wherein the radial passages of the first flow conditioner and the radial passages of the second flow conditioner are angled to impart radial swirl to a compressed working fluid flowing therethrough. 3. The combustor as in claim 1, wherein the plurality of radial passages of the first flow conditioner directs a working fluid in a first angular direction and the plurality of radial passages of the second flow conditioner directs the working fluid in a second angular direction. 4. The combustor of claim 1, wherein the plurality of radial passages of the first flow conditioner defines varying flow areas through a main body of the first flow conditioner. 5. The combustor of claim 1, further comprising: a first annular insert, concentrically aligned within and fixedly connected to the first flow conditioner, wherein an outer surface of the first annular insert and the inner surface of the first flow conditioner define a radial flow region within the first flow conditioner and an inner surface of the first annular insert defines an axial flow region within the flow conditioner; anda second annular insert concentrically aligned within and fixedly connected to the second flow conditioner, wherein an outer surface of the second annular insert and the inner surface of the second flow conditioner define a radial flow region within the second flow conditioner and an inner surface of the second annular insert defines an axial flow region within the flow conditioner. 6. The combustor of claim 5, wherein at least one of the first annular insert or the second annular insert imparts axial swirl to the working fluid. 7. The combustor of claim 5, wherein at least one of the first annular insert or the second annular insert includes an inner surface and an outer surface, wherein the inner surface converges radially inwardly towards the downstream end of the respective first annular insert or the second annular insert. 8. The combustor of claim 5, wherein at least one of the first annular insert or the second annular insert includes an inner surface and an outer surface, wherein the inner surface diverges radially outwardly towards the downstream end of the respective first annular insert of the second annular insert. 9. The combustor of claim 5, wherein at least one of the first annular insert or the second annular insert includes an inner surface and an outer surface, wherein the outer surface converges radially inwardly towards the downstream end of the respective first annular insert or the second annular insert. 10. A combustor, comprising: a. a plurality of tubes arranged in a tube bundle and supported by at least one plate extending radially within the combustor, wherein each tube includes an upstream end axially separated from a downstream end, wherein each tube includes a fuel port between the upstream end and the downstream end of the tube, wherein the fuel port provides for fluid communication in to the tube;b. a fuel plenum that circumferentially surrounds the tubes between the upstream end and the downstream ends of the tubes, wherein each fuel port is in fluid communication with the fuel plenum;c. a plurality of flow conditioners, each flow conditioner extending upstream from the upstream end of a corresponding tube of the plurality of tubes, each flow conditioner having an inner surface, wherein each flow conditioner defines a plurality of radial passages annularly arranged thereabout;d. a first annular insert concentrically aligned within and fixedly connected to a first flow conditioner of the plurality of flow conditioners, wherein an outer surface of the first annular insert and the inner surface of the first flow conditioner define a radial flow region within the first flow conditioner and an inner surface of the first annular insert defines an axial flow region within the flow conditioner;e. a second annular insert concentrically aligned within and fixedly connected to a second flow conditioner of the plurality of flow conditioners, wherein an outer surface of radial flow region within the second flow conditioner and an inner surface of the second annular insert defines an axial flow region within the flow conditioner, wherein the first annular insert provides a first flow rate and the second annular insert provides a second flow rate through the first and second tubes respectfully; andf. a liquid fuel atomizer disposed upstream from an inlet of the annular insert. 11. The combustor of claim 10, wherein the first annular insert and the second annular insert each define a downstream end that terminates at a sharp edge. 12. The combustor of claim 10, wherein an inner surface of the first annular insert converges radially inwardly towards a downstream end of the first annular insert. 13. The combustor of claim 10, wherein an outer surface of the first annular insert diverges radially outwardly towards a downstream end of the first annular insert. 14. The combustor of claim 10, wherein the first annular insert extends axially upstream of the first flow conditioner and the second annular insert extends axially upstream from the second flow conditioner. 15. The combustor of claim 10, wherein an inner surface of the second annular insert converges radially inwardly towards a downstream end of the second annular insert. 16. The combustor of claim 10, wherein an outer surface of the second annular insert diverges radially outwardly towards a downstream end of the second annular insert.
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