Method and system for testing an overspeed protection system of a powerplant
원문보기
IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
US-0729624
(2010-03-23)
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등록번호 |
US-8661880
(2014-03-04)
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발명자
/ 주소 |
- Block, Frederick William
- Nichols, Richard Lee
- Ellis, George Allen
- Sanchez, Steven Michael
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출원인 / 주소 |
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대리인 / 주소 |
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인용정보 |
피인용 횟수 :
2 인용 특허 :
6 |
초록
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Embodiments of the present invention have the technical effect of automatically testing an overspeed protection system associated with multiple powerplant machines of a powerplant. An embodiment of the present invention may automatically test the overspeed protection system while at least one of the
Embodiments of the present invention have the technical effect of automatically testing an overspeed protection system associated with multiple powerplant machines of a powerplant. An embodiment of the present invention may automatically test the overspeed protection system while at least one of the powerplant machines is in the process of shutting down. Another embodiment of the present invention may automatically test the overspeed protection system by adjusting the speed of a shaft while at least one of the powerplant machines operates at full-speed-no-load.
대표청구항
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1. A method of testing an overspeed protection system of a powerplant, the method comprising: providing a powerplant comprising multiple powerplant machines operationally integrated by a shaft that rotates during operation of the multiple powerplant machines;providing an overspeed protection system
1. A method of testing an overspeed protection system of a powerplant, the method comprising: providing a powerplant comprising multiple powerplant machines operationally integrated by a shaft that rotates during operation of the multiple powerplant machines;providing an overspeed protection system configured for detecting an overspeed event associated with the shaft;selecting a methodology for testing the overspeed protection system; wherein the methodology determines whether the multiple powerplant machines are operating in a shutdown mode or an operating mode;determining whether the speed of the shaft exceeds a shutdown value representative of the overspeed event, if the multiple powerplant machines are in the shutdown mode;determining whether the speed of the shaft exceeds an overspeed trip value representative of the overspeed event, if the multiple powerplant machines are in the operating mode;changing the overspeed trip value; anddetermining whether the overspeed protection system would operate to trip the multiple powerplant machines;wherein the method reduces the possibility of a trip occurring during testing of the overspeed protection system. 2. The method of claim 1, wherein the multiple powerplant machines comprise a gas turbine and a steam turbine, and wherein the shaft integrates the gas turbine and the steam turbine forming a steam and gas powertrain (STAG). 3. The method of claim 2, wherein the methodology comprises a shutdown mode procedure configured for the shutdown mode, and an operating mode procedure configured for the operating mode. 4. The method of claim 3, wherein the shutdown mode procedure performs the steps of: a. determining whether a testing permissive is satisfied;b. initiating a fired shutdown overspeed test;c. aborting the fired shutdown overspeed test if the speed of the shaft does not exceed a flameout speed; andd. changing an overspeed trip set point to a fired shutdown trip set point. 5. The method of claim 4, wherein an emergency protection system controls a governor system associated with the gas turbine and the steam turbine, wherein the governor system partially controls a speed and an acceleration of the shaft. 6. The method of claim 5, further comprising the step of aborting the fired shutdown overspeed test if the testing permissive is not maintained. 7. The method of claim 6 further comprising the step of determining whether the emergency protection system controls the operation of the gas turbine and the steam turbine. 8. The method of claim 3, wherein the operating mode procedure performs the steps of: a. automatically adjusting the speed of the shaft to approximately the overspeed trip value;b. determining if the speed of the shaft is approximately the overspeed trip value; andc. automatically adjusting the speed of the shaft to approximately an operating speed after determining if the speed of the shaft is approximately the overspeed trip value. 9. The method of claim 8, further comprising the steps of: a. initiating an overspeed test;b. determining whether a stabilization permissive is satisfied, otherwise aborting the overspeed test if the stabilization permissive is not satisfied;c. automatically adjusting the speed of the shaft;d. determining whether the speed of the shaft exceeds an overspeed trip value;e. determining whether a shaft speed reference exceeds the overspeed trip value;f. aborting the overspeed test if the shaft speed reference exceeds the overspeed trip value while the speed of the shaft is below the overspeed trip value; andg. automatically disabling the automatic adjustment of the speed of the shaft. 10. The method of claim 9, wherein the step of aborting the overspeed test adjusts the speed of the shaft to approximately an operating speed. 11. The method of claim 10 further comprising determining whether an operating permissive is satisfied. 12. The method of claim 11 further comprising determining whether an overspeed test permissive is satisfied. 13. The method of claim 12 further comprising biasing an overspeed trip set point. 14. A method of testing an overspeed protection system of a powerplant, the method comprising: providing a powerplant comprising a gas turbine and a steam turbine, and wherein a shaft integrates the gas turbine and the steam turbine forming a steam and gas powertrain (STAG);providing an overspeed protection system configured for detecting an overspeed event associated with the shaft;selecting a methodology for testing the overspeed protection system; wherein the methodology determines whether the STAG is operating in a shutdown mode or an operating mode;determining whether the speed of the shaft exceeds a shutdown value representative of the overspeed event, if the STAG is in the shutdown mode;determining whether the speed of the shaft exceeds an overspeed trip value representative of the overspeed event, if the STAG is in the operating mode;changing the overspeed trip value; anddetermining whether the overspeed protection system would operate to trip the STAG;wherein the method reduces the possibility of a STAG trip during testing of the overspeed protection system. 15. The method of claim 14, wherein the methodology comprises a shutdown mode procedure configured for the shutdown mode, and an operating mode procedure configured for the operating mode. 16. The method of claim 15, wherein the shutdown mode procedure performs the steps of: a. determining whether a testing permissive is satisfied;b. initiating a fired shutdown overspeed test;c. aborting the fired shutdown overspeed test if the speed of the shaft does not exceed a flameout speed; andd. changing an overspeed trip set point to a fired shutdown trip set point. 17. The method of claim 16, wherein the operating mode procedure performs the steps of: a. automatically adjusting the speed of the shaft to approximately the overspeed trip value;b. determining if the speed of the shaft is approximately the overspeed trip value;c. automatically adjusting the speed of the shaft to approximately an operating speed after determining if the speed of the shaft is approximately the overspeed trip value;d. initiating an overspeed test;e. determining whether a stabilization permissive is satisfied, otherwise aborting the overspeed test if the stabilization permissive is not satisfied;f. automatically adjusting the speed of the shaft;g. determining whether the speed of the shaft exceeds an overspeed trip value;h. determining whether a shaft speed reference exceeds the overspeed trip value;i. aborting the overspeed test if the shaft speed reference exceeds the overspeed trip value while the speed of the shaft is below the overspeed trip value; andj. automatically disabling the automatic adjustment of the speed of the shaft. 18. A system configured for testing an overspeed protection system of a powerplant, the system comprising: a powerplant comprising a gas turbine, a steam turbine, and a shaft; wherein the shaft comprises multiple components and integrates the gas turbine and the steam turbine forming a steam and gas powertrain (STAG); anda control system comprising an overspeed protection system, wherein the control system is configured for detecting an overspeed event associated with the shaft; and the control system performs the steps of: a. selecting a methodology for testing the overspeed protection system; wherein the methodology determines whether the STAG is operating in a shutdown mode or an operating mode; and wherein the methodology comprises a shutdown mode procedure configured for the shutdown mode, and an operating mode procedure configured for the operating mode;b. determining whether the speed of the shaft exceeds a shutdown value representative of the overspeed event, if the STAG is in the shutdown mode;c. determining whether the speed of the shaft exceeds a overspeed trip value representative of the overspeed event, if the STAG is in the operating mode;d. changing the overspeed trip value; ande. determining whether the overspeed protection system would operate to trip the STAG;wherein the methodology reduces the possibility of a STAG trip during testing of the overspeed protection system. 19. The system of claim 18, wherein the control system executing the shutdown mode procedure performs the steps of: a. determining whether a testing permissive is satisfied;b. initiating a fired shutdown overspeed test;c. aborting the fired shutdown overspeed test if the speed of the shaft does not exceed a flameout speed; andd. changing an overspeed trip set point to a fired shutdown trip set point. 20. The system of claim 18, wherein the control system executing the operating mode procedure performs the steps of: a. automatically adjusting the speed of the shaft;b. determining whether the speed of the shaft is the overspeed trip value;c. automatically adjusting the speed of the shaft to about an operating speed after automatically adjusting the speed of the shaft and determining whether the speed of the shaft is the overspeed trip value;d. initiating an overspeed test;e. determining whether a stabilization permissive is satisfied, otherwise aborting the overspeed test;f. automatically adjusting the speed of the shaft;g. determining whether the speed of the shaft exceeds an overspeed trip value,h. determining whether a shaft speed reference exceeds the overspeed trip value, otherwise aborting the overspeed test; andi. automatically disabling the automatic adjustment of the speed of the shaft.
이 특허에 인용된 특허 (6)
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Block, Frederick William; Bombard, Mark P.; Dell'Anno, Michael J.; Garcia, Guillermo; Gleeson, Eamon Patrick; Leary, Kenneth Lee; Nichols, Richard Lee, Method and system for testing an overspeed protection system during a turbomachine shutdown sequence.
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Block, Frederick William; Nichols, Richard Lee; Dalton, Bret Stephen; Johnson, Jay Lynn; Ellis, George Allen, Method and system for testing an overspeed protection system of a powerplant machine.
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Block, Frederick William; Bombard, Mark P.; Dell'Anno, Michael J.; Garcia, Guillermo; Gleeson, Eamon Patrick; Leary, Kenneth Lee; Nichols, Richard Lee, Method and system for testing the overspeed protection system of a turbomachine.
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Block, Frederick William; Nichols, Richard Lee; Law, Joseph Robert; Dalton, Bret Stephen; Ellis, George Allen, Method for determining when to perform a test of an overspeed protection system of a powerplant machine.
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Munson, Jr., Bill C., Overspeed control system for gas turbine electric powerplant.
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Munson, Jr.,Bill C., Overspeed control system for gas turbine electric powerplant.
이 특허를 인용한 특허 (2)
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Block, Frederick William; Nichols, Richard Lee; Law, Joseph Robert; Dalton, Bret Stephen; Ellis, George Allen, Method and system for testing an overspeed protection system of a powerplant machine.
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Bennauer, Martin; Gobrecht, Edwin; Hallekamp, Martin, Method for testing an overspeed protection mechanism of a single-shaft combined-cycle plant.
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