IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0409036
(2012-02-29)
|
등록번호 |
US-8869603
(2014-10-28)
|
발명자
/ 주소 |
- Epstein, Alan H.
- Mitchell, Elizabeth A.
|
출원인 / 주소 |
- United Technologies Corporation
|
대리인 / 주소 |
Carlson, Gaskey & Olds P.C.
|
인용정보 |
피인용 횟수 :
2 인용 특허 :
16 |
초록
▼
An exemplary debris detection method according to one example embodiment of the present disclosure includes, among other things, monitoring turbomachine performance, and initiating a debris warning when an actual rate of change in turbomachine performance varies from a predicted rate of change in th
An exemplary debris detection method according to one example embodiment of the present disclosure includes, among other things, monitoring turbomachine performance, and initiating a debris warning when an actual rate of change in turbomachine performance varies from a predicted rate of change in the performance.
대표청구항
▼
1. A debris detection method, comprising: (a) monitoring turbomachine performance; and(b) initiating a debris warning when an actual rate of change in turbomachine performance varies from a predicted rate of change in the performance, wherein the actual rate of change in turbomachine performance is
1. A debris detection method, comprising: (a) monitoring turbomachine performance; and(b) initiating a debris warning when an actual rate of change in turbomachine performance varies from a predicted rate of change in the performance, wherein the actual rate of change in turbomachine performance is an actual rate of degradation in turbomachine efficiency, and the predicted rate of change in the performance is a predicted rate of degradation in turbomachine efficiency. 2. The debris detection method of claim 1, wherein the actual rate of change of turbomachine performance is an actual rate of reduction in a turbine flow area, and the predicted rate of change of turbomachine performance is a predicted rate of change in the turbine flow area. 3. The debris detection method of claim 1, wherein the actual rate of change of turbomachine performance is an actual rate of degradation in a compressor efficiency of the turbomachine, and the predicted rate of change in the performance is a predicted rate of degradation in the compressor efficiency of the turbomachine. 4. The debris detection method of claim 1, wherein the predicted rate of change in turbomachine performance corresponds to a rate of change in turbomachine performance during normal operation. 5. The debris detection method of claim 1, wherein the monitoring comprises mapping a signal representing the rate of change in turbomachine performance and the signal is filtered during the monitoring. 6. The debris detection method of claim 1, including adjusting a type of the warning based on the rate. 7. The debris detection method of claim 1, wherein the turbomachine is a gas turbine engine. 8. The debris detection method of claim 1, wherein the initiating requires the rate of change in turbomachine performance to vary from the predicted rate of change in turbomachine performance for a predicted time. 9. The debris detection method of claim 8, wherein the predicted time is less than a single flight. 10. The debris detection method of claim 1, including determining whether at least one debris sensor has detected debris prior to the initiating. 11. The debris detection method of claim 10, wherein the at least one debris sensor comprises a particle detector sensor, an electrical charge sensor, an optical sensor, or some combination of sensors. 12. A debris detection method, comprising: (a) monitoring turbomachine. performance;(b) initiating a debris warning when an actual rate of change in turbomachine performance varies from a predicted rate of change in the performance, wherein the actual rate of change in turbomachine performance is an actual rate of degradation in turbomachine efficiency, and the predicted rate of change in the performance is a predicted rate of degradation in turbomachine efficiency; and(c) determining whether another turbomachine has an actual rate of change in turbomachine performance that varies from a predicted rate of change in turbomachine performance prior to generating the debris warning. 13. A volcanic ash detection method, comprising: (a) monitoring a rate of change in a surge margin of an engine during operation of the engine; and(b) initiating a warning indicating a detection of volcanic ash when an actual rate of change in the surge margin varies from a predicted rate of change in the surge margin. 14. The volcanic ash detection method of claim 13, wherein the rate of change in the surge margin is determined by monitoring a turbine flow area change of the engine. 15. The volcanic ash detection method of claim 13, wherein the wherein the rate of change in the surge margin is determined by monitoring a change of compressor efficiency of the engine. 16. The volcanic ash detection method of claim 13, wherein the predicted rate of change corresponds to a rate of change in the surge margin during normal operation. 17. The volcanic ash detection method of claim 13, including determining whether another engine has an actual rate of change in the surge margin that varies from the predicted rate of change in the surge margin prior to generating the warning. 18. The volcanic ash detection method of claim 13, wherein the initiating requires the actual rate of change in the surge margin to vary from the predicted rate of change in the surge margin for a predicted time. 19. The volcanic ash detection method of claim 18, wherein the predicted time is less than a single flight. 20. A debris monitoring system, comprising: a plurality of sensors that monitor conditions of an engine, the conditions indicating a rate of change in a turbine flow area of an engine, a rate of change in the compressor efficiency of the engine, a rate of change in the turbine efficiency, or some combination of the rate of change in the turbine flow area, the rate of change in the compressor efficiency, and the rate of Chan. e in the turbine efficiency;a warning device; anda controller that is operatively coupled to the plurality of sensors and the warning device, the controller configured to initiate a warning of debris using the warning device. 21. The debris monitoring system of claim 20, wherein the warning device is a visual warning viewed by an operator of an aircraft propelled by the engine. 22. The debris monitoring system of claim 20, wherein the controller is configured to determine whether another engine has a change in conditions of the engine that varies from a predicted change in condition from the engine prior to generating the warning of debris using the warning device.
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