Combustor liner with reverse flow for gas turbine engine
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F02C-007/18
F23R-003/06
F23R-003/08
출원번호
UP-0494175
(2006-07-27)
등록번호
US-7802431
(2010-10-21)
발명자
/ 주소
Parker, David M.
출원인 / 주소
Siemens Energy, Inc.
인용정보
피인용 횟수 :
3인용 특허 :
11
초록▼
A combustor liner (231) for a gas turbine engine combustor (200) comprises an inner wall (232), an outer wall (238), a flow channel (244) formed there between, and an end-capping ring (246). The end-capping ring (246) is sealingly attached to the downstream end of the inner wall (232). In operation
A combustor liner (231) for a gas turbine engine combustor (200) comprises an inner wall (232), an outer wall (238), a flow channel (244) formed there between, and an end-capping ring (246). The end-capping ring (246) is sealingly attached to the downstream end of the inner wall (232). In operation air passes within the end-capping ring (246), into the flow channel (244), and through holes (250) disposed in the inner wall (232). In some embodiments, an end-capping ring variation, a flow-diverting ring (357) comprises a plurality of holes (360) that, during gas turbine engine operation, may additionally dispense a flow of cooling air. One or more surfaces may be coated with a thermal barrier coating (237) to provide additional protection from thermal damage.
대표청구항▼
What is claimed is: 1. A combustor for a gas turbine engine comprising: an intake, an outlet, and at least one swirler assembly disposed there between; an inner wall partially defining a combustion zone, comprising an upstream end and a downstream end; an outer wall disposed about the inner wall, c
What is claimed is: 1. A combustor for a gas turbine engine comprising: an intake, an outlet, and at least one swirler assembly disposed there between; an inner wall partially defining a combustion zone, comprising an upstream end and a downstream end; an outer wall disposed about the inner wall, comprising an upstream end sealingly connected to the inner wall, spaced a distance therefrom to define a flow channel for passage of a cooling airflow, the flow channel comprising a flow-based upstream end and a flow-based downstream end; and an end-capping ring sealingly connected to the inner wall proximate the outlet and upstream of the outer wall downstream end, extending around the downstream end of the outer wall, and terminating upstream of the outer wall downstream end and downstream of the outer wall upstream end, forming with said outer wall downstream end a flow-reversing channel communicating with the upstream end of the flow channel, wherein at the flow channel downstream end the inner wall comprises a plurality of holes in fluid communication with the flow channel and the combustion zone, and, wherein during operation the plurality of holes is effective to control the cooling airflow into the combustion zone; and wherein the end-capping ring supports by rigid attachment thereto a spring clip assembly extending radially outward; the spring clip defining an inlet for the cooling airflow. 2. The combustor of claim 1, additionally comprising a thermal barrier coating on a portion of an inner surface of the inner wall. 3. The combustor of claim 2, wherein the portion is a major portion of the Inner surface. 4. The combustor of claim 1, wherein the flow channel comprises a uniform width along its length. 5. The combustor of claim 4, wherein the end-capping ring comprises a weld prep along a surfaces for connecting to the inner wall, and the end-capping ring is sealingly connected to the inner wall by welding along the weld prep. 6. The combustor of claim 1, wherein the outer wall supports by rigid attachment thereto a cylindrical barrier structure formed to limit inward movement of the spring clip assembly and to restrict passage of spring clip fragments. 7. A gas turbine engine comprising the combustor of claim 1. 8. A combustor liner assembly for a gas turbine engine combustor comprising an outer wall at least partially disposed about an inner wall, forming a channel for passage of a cooling airflow between the inner wall and the outer wall, an end-capping ring sealingly connected to the inner wall proximate a downstream end of the outer wall upstream of the downstream end of the outer wall, the end-capping ring extending around a downstream end of the outer wall and terminating upstream of the outer wall downstream end and downstream of the outer wall upstream end to form a flow-reversing channel communicating with a flow-based upstream end of the flow channel, wherein at a flow-based downstream end of the channel the inner wall comprises a plurality of holes in fluid communication with the flow channel and the combustion zone; wherein the end-capping ring supports by rigid attachment thereto a spring clip assembly extending radially outward; the spring clip defining an inlet for the cooling airflow. 9. A gas turbine engine combustor comprising the combustor liner assembly of claim 8. 10. A gas turbine engine comprising the combustor of claim 9. 11. A gas turbine engine comprising a plurality of combustors disposed therein, each said combustor comprising: an intake, an outlet, and at least one swirler assembly disposed there between; an inner wall partially defining a combustion zone and an outer wall at least partially disposed about the inner wall to define there between a flow channel for passage of a cooling airflow; and an end-capping ring sealingly connected to the inner wall proximate the outlet and upstream of the outer wall downstream end, extending radially outwardly around a downstream end of the outer wall and terminating between the outer wall upstream and downstream ends to form a flow-reversing channel communicating with a flow-based upstream end of the flow channel, wherein at a flow-based downstream end of the channel the inner wall comprises a plurality of holes in fluid communication with the flow channel and the combustion zone; wherein the end-capping ring supports by rigid attachment thereto a spring clip assembly extending radially outward; the spring clip defining an inlet for the cooling airflow. 12. The gas turbine engine of claim 11, wherein collectively said plurality of holes in the respective inner walls are sized so as to be effective to provide a uniformly controlled cooling among each respective combustor liner wall. 13. The gas turbine engine of claim 11, wherein determined cross-sectional flow area, size, shape, and distribution of the holes are effective for achieving desired levels of cooling and NOx reduction.
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이 특허에 인용된 특허 (11)
Robert J. Kraft ; Vincent C. Martling ; Brian R. Mack ; Mark A. Minnich, Combustion chamber/venturi cooling for a low NOx emission combustor.
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