IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0123489
(2002-04-16)
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발명자
/ 주소 |
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
18 인용 특허 :
23 |
초록
▼
A turbine overspeed control system for a gas turbine electrical powerplant. The powerplant may employ an aeroderivative gas turbine engine for producing electrical power. The overspeed control system preferably comprises a compression relief system and an air directing system. When an overspeed cond
A turbine overspeed control system for a gas turbine electrical powerplant. The powerplant may employ an aeroderivative gas turbine engine for producing electrical power. The overspeed control system preferably comprises a compression relief system and an air directing system. When an overspeed condition of the gas turbine engine is detected, the compression relief system acts to remove air from a combustion section of the engine. Preferably, the air is removed to the atmosphere. The air directing system operates to ensure that air entering a compressor section of the gas turbine engine does not impinge on the blades of a compressor turbine located therein at the optimum angle. The result of operating the compression relief and air directing systems is a reduced combustor efficiency. Consequently, a reduced amount of hot gases are available to drive the turbines of the gas turbine engine, and the rotational speed thereof decreases.
대표청구항
▼
1. A turbine engine overspeed control system for a gas turbine electric powerplant, comprising:a compression relief system operational to deprive air from one or more turbines located within said gas turbine engine by rapidly removing air from a combustion section of said turbine engine and directin
1. A turbine engine overspeed control system for a gas turbine electric powerplant, comprising:a compression relief system operational to deprive air from one or more turbines located within said gas turbine engine by rapidly removing air from a combustion section of said turbine engine and directing said air out of said turbine engine through one or more compression relief outlets; an air directing system operational to de-optimize the angle at which air entering an inlet portion of said turbine engine impinges one or more sets of blades of a compressor turbine located therein; one or more sensors for determining an overspeed condition of said turbine engine; and control software in communication with said one or more sensors, said control software sending a signal to said compression relief system and/or said air directing system in response to an overspeed signal from said one or more sensors; wherein upon detection of an overspeed condition, said compression relief system, said air directing system, or the combination thereof, is activated to rapidly slow the rotational speed of said turbine engine. 2. The turbine engine overspeed control system of claim 1, further comprising a manifold for receiving said air from said combustion section of said turbine engine.3. The turbine engine overspeed control system of claim 2, wherein said manifold is located near said combustion section of said turbine engine.4. The turbine engine overspeed control system of claim 3, wherein at least a portion of said manifold substantially follows the outer shape of said combustion section of said turbine engine.5. The turbine engine overspeed control system of claim 2, wherein said one or more compression relief outlets are adapted to direct said air from said combustion section of said turbine engine to said manifold.6. The turbine engine overspeed control system of claim 5, wherein a plurality of said compression relief outlets are located about the periphery of said combustion section of said turbine engine.7. The turbine engine overspeed control system of claim 5, further comprising a connector coupling each of said compression relief outlets to said manifiold.8. The turbine engine overspeed control system of claim 2, further comprising at least one exhaust line connected to said manifold, said at least one exhaust line for directing said air received by said manifold away from said turbine engine.9. The turbine engine overspeed control system of claim 8, further comprising an electronic valve connected to said at least one exhaust line, said electronic valve for blocking the pathway of said air through said exhaust line when said compression relief system is inactive.10. The turbine engine overspeed control system of claim 1, wherein said air from said combustion section of said turbine engine is exhausted to the atmosphere.11. The turbine engine overspeed control system of claim 1, wherein said air from said combustion section of said turbine engine is captured.12. The turbine engine overspeed control system of claim 1, wherein said air directing system includes an actuator, adapted for activation by said control software.13. The turbine engine overspeed control system of claim 12, wherein said actuator is an electromechanical actuator.14. The turbine engine overspeed control system of claim 12, wherein said actuator is a pneumatic actuator.15. The turbine engine overspeed control system of claim 12, wherein said actuator is a hydraulic actuator.16. The turbine engine overspeed control system of claim 12, wherein a rod is connected to said actuator, said rod adapted to enter said turbine engine and to adjust the angle of a set of inlet guide vanes residing therein.17. The turbine engine overspeed control system of claim 1, wherein a sensor is provided for monitoring and reporting the rotational speed of each turbine of said turbine engine.18. The turbine engine overspeed control system of claim 17, wherein said sensor is located on a gearbox attached to each of said turbines.19. The turbine engine overspeed control system of claim 1, wherein a sensor is provided to monitor the rotational speed of a gearbox attached to said turbine engine.20. The turbine engine overspeed control system of claim 1, wherein a sensor is provided to monitor the rotational speed of a generator attached to said turbine engine.21. The turbine engine overspeed control system of claim 1, wherein said control software activates both said compression relief system and said air directing system upon detection of a turbine engine overspeed condition.22. A turbine engine overspeed control system for a gas turbine electric powerplant, comprising:(a) a compression relief system adapted to remove air from a combustion section of said gas turbine engine and to direct said air out of said turbine engine, said compression relief system further comprising: a plurality of compression relief outlets located around the periphery of a combustion section of said gas turbine engine; a manifold located in the area of said compression relief outlets, and adapted to receive air therefrom; a connector for providing communication between each compression relief outlet and said manifold; at least one exhaust line connected to said manifold, said at least one exhaust line provided to direct air received by said manifold away from said turbine engine; and an electronic valve for blocking the pathway of said air to said atmosphere when said compression relief system is inactive; (b) an air directing system for dictating the angle at which incoming air impinges on one or more sets of blades of a compressor located in said turbine engine, said air directing system further comprising; an actuator located in the vicinity of the entrance to a compressor section of said turbine engine; and a rod connected to said actuator, said rod entering said turbine engine and in communication with a set of inlet guide vanes disposed therein, such that the angle of said guide vanes may be adjusted by movement of said actuator; (c) one or more sensors for monitoring the speed of said turbine engine and detecting the occurrence of an overspeed condition thereof; and (d) control software in electronic communication with said one or more sensors, said compression relief system, and said air directing system, said control software adapted to receive an overspeed signal from said one or more sensors and to send an activation signal to each of said compression relief system and said air directing system; wherein upon detection of an overspeed condition, said compression relief system and said air directing system operate to slow the rotational speed of said turbine engine by reducing the efficiency of the compression and combustion processes thereof. 23. The turbine engine overspeed control system of claim 22, wherein at least a portion of said manifold substantially follows the outer shape of said combustion section of said turbine engine.24. The turbine engine overspeed control system of claim 22, wherein said air removed from said combustion section of said gas turbine engine is exhausted to the atmosphere.25. The turbine engine overspeed control system of claim 22, wherein said air removed from said combustion section of said gas turbine engine is captured.26. The turbine engine overspeed control system of claim 22, wherein said actuator is an electromechanical actuator.27. The turbine engine overspeed control system of claim 22, wherein said actuator is a pneumatic actuator.28. The turbine engine overspeed control system of claim 22, wherein said actuator is a hydraulic actuator.29. The turbine engine overspeed control system of claim 22, wherein a sensor is provided for monitoring and reporting the rotational speed of each turbine of said turbine engine.30. The turbine engine overspeed control system of claim 29, wherein said sensor is located on a gearbox attached to each of said turbines.31. The turbine engine overspeed control system of claim 22, wherein a sensor is provided to monitor the rotational speed of a gearbox attached to said turbine engine.32. The turbine engine overspeed control system of claim 22, wherein a sensor is provided to monitor the rotational speed of a generator attached to said turbine engine.33. A method for controlling an overspeed condition of a gas turbine engine of a gas turbine electric powerplant, said method comprising:providing a compression relief system that operates to deprive rotation imparting air from one or more turbines located within said gas turbine engine by removing air from a combustion section of said gas turbine engine and directing said air out of said gas turbine engine through one or more compression relief outlets; providing an air directing system that operates to decrease the efficiency of a compressor turbine located within said gas turbine engine by de-optimizing the angle at which air entering an inlet portion of said gas turbine engine impinges one or more sets of blades of said compressor turbine; providing one or more sensors to detect an overspeed condition of said gas turbine engine; providing control software in communication with said one or more sensors, said compression relief system, and said air directing system; and in response to a turbine overspeed signal from said one or more sensors, employing said control software to activate said compression relief system and said air directing system; whereby joint operation of said compression relief system and said air directing system results in a rapid reduction in the rotational speed of said gas turbine engine. 34. The method of claim 33, wherein air removed from said combustion section of said gas turbine engine is directed to the atmosphere.35. The method of claim 33, wherein air removed from said combustion section of said gas turbine engine is collected in a manifold before being directed to the atmosphere.36. The method of claim 33, wherein air removed from said combustion section of said gas turbine engine is captured.37. The method of claim 33, wherein said air directing system operates by adjusting the angle of a set of inlet guide vanes so that incoming air impinges said compressor turbine at a less than optimum angle.
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