Active casing alignment control system and method
원문보기
IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
US-0470929
(2009-05-22)
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등록번호 |
US-8177483
(2012-05-15)
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발명자
/ 주소 |
- McCallum, Martel Alexander
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출원인 / 주소 |
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대리인 / 주소 |
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인용정보 |
피인용 횟수 :
3 인용 특허 :
10 |
초록
▼
A gas turbine with an active clearance control system includes a plurality of actuators circumferentially spaced between an inner shroud and an outer casing. The actuators are configured to eccentrically displace the shroud relative to the outer casing. A plurality of sensors circumferentially space
A gas turbine with an active clearance control system includes a plurality of actuators circumferentially spaced between an inner shroud and an outer casing. The actuators are configured to eccentrically displace the shroud relative to the outer casing. A plurality of sensors circumferentially spaced around the shroud detect a parameter that is indicative of an eccentricity between the rotor and shroud as the rotor rotates within the shroud. A control system in communication with the sensors and actuators is configured to control the actuators to eccentrically displace the shroud to compensate for eccentricities detected between the rotor and shroud.
대표청구항
▼
1. A gas turbine with a clearance control system, comprising: a rotor with at least one stage of rotor blades;a casing structure, said rotor housed within said casing structure, said casing structure including a stationary outer casing and an inner shroud associated with each said stage of rotor bla
1. A gas turbine with a clearance control system, comprising: a rotor with at least one stage of rotor blades;a casing structure, said rotor housed within said casing structure, said casing structure including a stationary outer casing and an inner shroud associated with each said stage of rotor blades, said inner shroud displaceable relative to said outer casing;a plurality of actuators contained within said outer casing and circumferentially spaced around said shroud and radially connecting said shroud to said outer casing, said plurality of actuators configured to eccentrically displace said shroud relative to said outer casing;a plurality of sensors circumferentially spaced around said shroud and configured to measure a parameter indicative of an eccentricity between said rotor and said shroud as said rotor rotates within said shroud; anda control system in communication with said plurality of sensors and said plurality of actuators and configured to control said plurality of actuators to eccentrically displace said shroud to compensate for eccentricities detected between said rotor and said shroud by said plurality of sensors. 2. The gas turbine as in claim 1, comprising at least four said actuators spaced 90 degrees apart around said shroud. 3. The gas turbine as in claim 1, wherein said plurality of actuators are any one of a pneumatic, mechanical, or hydraulic mechanism. 4. The gas turbine as in claim 1, wherein said control system comprises a closed-loop feedback system. 5. The gas turbine as in claim 4, wherein said control system comprises software implemented programs that calculate a magnitude and rotational position of a rotor eccentricity from signals received from said plurality of sensors, and control said plurality of actuators to compensate for the calculated rotor eccentricity as the rotor rotates within said shroud. 6. The gas turbine as in claim 1, wherein said plurality of sensors are active clearance sensors circumferentially spaced around said shroud to measure blade tip clearance between said rotor blades and said shroud by transmitting and receiving a signal reflected from said rotor blades. 7. The gas turbine as in claim 1, wherein said plurality of sensors are passive clearance sensors circumferentially spaced around said shroud to measure blade tip clearance between said rotor blades and said shroud. 8. A method for clearance control in a gas turbine wherein a rotor having at least one stage of circumferentially spaced rotor blades rotates within a stationary casing structure having a displaceable inner shroud within the casing structure, said method comprising: in operation of the gas turbine, detecting eccentricities between the rotor and shroud by sensing a parameter indicative of an eccentricity as the rotor rotates within the shroud; andin response to any detected eccentricities, eccentrically displacing the shroud relative to the casing structure with actuators contained within the casing structure and operably disposed between and connecting the shroud and casing structure to compensate for the detected eccentricity as the rotor rotates within the shroud. 9. The method as in claim 8, comprising sensing blade tip clearance between the rotor blades and shroud at a plurality of locations around the shroud, and calculating a magnitude and relative rotational position of the eccentricity so as to continuously compensate for the eccentricity as the rotor rotates within the shroud. 10. The method as in claim 9, comprising actively sensing blade tip clearance with active sensors circumferentially spaced around the shroud. 11. The method as in claim 9, comprising passively sensing blade tip clearance with passive sensors circumferentially spaced around the shroud. 12. The method as in claim 8, comprising sensing blade tip clearance at a plurality of locations around the shroud, calculating a magnitude and relative rotational position of the eccentricity, and in a closed-loop feed back system continuously controlling the actuators to compensate for the eccentricity as the rotor rotates within the shroud. 13. A rotor to casing alignment system, comprising: a rotor;a casing structure, said rotor housed within said casing structure, said casing structure including an outer casing and an inner casing that is displaceable relative to said outer casing;a plurality of actuators contained within said outer casing and circumferentially spaced around said inner casing and connecting said inner casing to said outer casing, said plurality of actuators configured to eccentrically displace said inner casing relative to said outer casing;a plurality of sensors circumferentially spaced around said inner casing and configured to detect an eccentricity between said rotor and said inner casing as said rotor rotates within said inner casing; anda control system in communication with said plurality of sensors and said plurality of actuators and configured to control said plurality of actuators to eccentrically displace said inner casing to compensate for eccentricities detected between said rotor and said inner casing by said plurality of sensors. 14. The system as in claim 13, comprising at least four said actuators spaced 90 degrees apart around said inner casing. 15. The system as in claim 13, wherein said control system comprises a closed-loop feedback system. 16. The system as in claim 15, wherein said control system comprises software implemented programs that calculate a magnitude and rotational position of a rotor eccentricity from signals received from said plurality of sensors, and control said plurality of actuators to compensate for the calculated rotor eccentricity as the rotor rotates within said inner casing. 17. The system as in claim 13, wherein said plurality of sensors are active sensors circumferentially spaced around said inner casing that transmit and receive a signal reflected from said rotor. 18. The system as in claim 13, wherein said plurality of sensors are passive sensors circumferentially spaced around said inner casing.
이 특허에 인용된 특허 (10)
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Duly Alan R. (Huntington CT), Blade tip clearance measuring apparatus.
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Schwarz,Frederick M.; Perkinson,Robert H.; Smith,Jesse Walter, Gas turbine engine blade tip clearance apparatus and method.
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Burns Donald W. (Danville IN) Fagan ; Jr. John Robert (Zionsville IN), Magnetic bearings as actuation for active compressor stability control.
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Lee,Dong Jin, Method and apparatus for compensating for disc eccentricity in optical disc servo system.
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Finnigan,Peter Michael; Srinivas,Mullahalli Venkataramaniah; Albers,Robert Joseph; DeLeonardo,Guy Wayne, Method and system for active tip clearance control in turbines.
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Bock Alexander,DEX, Passive clearance control system for a gas turbine.
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Colley Rowan H. (Sunnyhill GB2), Rotor tip clearance control apparatus for a gas turbine engine.
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May Gordon C. (Allestree Park GB2), Static shroud for a rotor.
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Weimer Matthew M. (Indianapolis IN) Klusman Steven A. (Indianapolis IN), Turbomachine with active tip clearance control.
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Winiger Gerhard (Zollbrck CHX), Variable capacity swivelling vane pump.
이 특허를 인용한 특허 (3)
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McCaffrey, Michael G., Adjustable blade outer air seal apparatus.
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Trivedi, Deepak; Turnquist, Norman Arnold; Zheng, Xiaoqing; Inalpolat, Murat, System and method for thrust bearing actuation to actively control clearance in a turbo machine.
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Datchanamoorthy, Senthilkumar; Ball, Michael Allen; Bhattacharya, Aninda; Hemadribhotla, Venkata Ramana Murthy, Systems and methods to monitor a rotating component.
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