Fault detection for active damping of a wellbore logging tool
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
E21B-047/14
G01V-001/48
G01V-001/52
출원번호
US-0914203
(2014-08-07)
등록번호
US-9739143
(2017-08-22)
국제출원번호
PCT/US2014/050184
(2014-08-07)
국제공개번호
WO2016/022132
(2016-02-11)
발명자
/ 주소
Song, Xingyong
Zhao, Yiming
Dykstra, Jason D.
출원인 / 주소
Halliburton Energy Services, Inc.
대리인 / 주소
Fite, Benjamin
인용정보
피인용 횟수 :
0인용 특허 :
5
초록▼
Systems and methods for detecting faults in the active damping of a logging tool are disclosed herein. A wellbore logging tool system comprises a processor, a memory, a wellbore logging tool comprising an acoustic transmitter, and a logging tool control module. The logging tool control module is ope
Systems and methods for detecting faults in the active damping of a logging tool are disclosed herein. A wellbore logging tool system comprises a processor, a memory, a wellbore logging tool comprising an acoustic transmitter, and a logging tool control module. The logging tool control module is operable to receive sensor signals from one or more sensors coupled to the wellbore logging tool after a damping control signal has been transmitted to the acoustic transmitter. The logging tool control module is also operable to determine one or more expected sensor signals, determine error values using the expected sensor signals and the sensor signals received from the one or more sensors, and compare the error values with one or more thresholds.
대표청구항▼
1. A wellbore logging tool system, comprising: a processor;a memory;a wellbore logging tool comprising an acoustic transmitter; anda logging tool control module operable to: receive sensor signals from one or more sensors coupled to the wellbore logging tool after a damping control signal has been t
1. A wellbore logging tool system, comprising: a processor;a memory;a wellbore logging tool comprising an acoustic transmitter; anda logging tool control module operable to: receive sensor signals from one or more sensors coupled to the wellbore logging tool after a damping control signal has been transmitted to the acoustic transmitter;determine one or more expected sensor signals using the damping control signal;determine error values using the expected sensor signals and the sensor signals received from the one or more sensors; andcompare the error values with one or more thresholds. 2. The system of claim 1, wherein the logging tool control module is further operable to: receive the sensor signals from the one or more sensors periodically after a damping control signal has been transmitted to the acoustic transmitter; anddetermine, for each periodic sensor signal received, an expected sensor signal. 3. The system of claim 1, wherein the logging tool control module is further operable to modify the damping control signal based on the comparison of the error values with the one or more thresholds. 4. The system of claim 1, wherein the information from the one or more sensors comprises one or more of the following: a voltage in the acoustic transmitter of the wellbore logging tool, a current in the acoustic transmitter of the wellbore logging tool, or an acceleration of the acoustic transmitter of the wellbore logging tool. 5. The system of claim 1, wherein the one or more sensors comprise a plurality of sensors and the logging tool control module is further operable to: determine a sensor error value based on the difference between the expected sensor signal and the sensor signal received from at least one of the one or more sensors; andcompare the sensor error value to one or more sensor error values for each of any one or more other of the plurality of sensors. 6. The system of claim 1, wherein a first sensor signal received from a sensor of the one or more sensors comprises a first signal associated with a first time period and a second signal associated with a second time period, the first signal associated with a first property of the acoustic transmitter and the second signal associated with a second property of the acoustic transmitter. 7. A wellbore logging tool system, comprising: a processor;a memory;a wellbore logging tool comprising an acoustic transmitter; anda logging tool control module operable to: receive sensor signals from each of one or more sensors coupled to the wellbore logging tool after a damping control signal has been transmitted to the acoustic transmitter;determine one or more characteristics of the sensor signals using the damping control signal;determine one or more expected characteristics of the sensor signals; andcompare the one or more characteristics of the sensor signals with the one or more expected characteristics. 8. The system of claim 7, wherein: the logging tool control module is further operable to receive the sensor signals from the one or more sensors periodically after a damping control signal has been transmitted to the acoustic transmitter; andthe one or more characteristics of the sensor signals are determined using the periodically received sensor signals. 9. The system of claim 7, wherein the logging tool control module is further operable to modify the damping control signal based on the comparison the one or more characteristics with the one or more expected characteristics. 10. The system of claim 7, wherein the information from the one or more sensors comprises one or more of the following: an amplifier voltage in the acoustic transmitter of the wellbore logging tool, an amplifier current in the acoustic transmitter of the wellbore logging tool, an electromagnetic feedback voltage in the acoustic transmitter of the wellbore logging tool, or an acceleration of the acoustic transmitter of the wellbore logging tool. 11. The system of claim 7 wherein: the one or more characteristics comprises a frequency response of a first sensor signal;the one or more expected characteristics comprises an expected frequency response of the first sensor signal; andthe logging tool control module is further operable to compare the frequency response of the first sensor signals with the expected frequency response of the first sensor signal. 12. The system of claim 7, wherein the logging tool control module is further operable to: determine eigenvalues of the sensor signals received from the one or more sensors;determine time derivatives of the eigenvalues of the sensor signals received from the one or more sensors; andcompare the time derivatives of the eigenvalues of the sensor signals with the one or more thresholds. 13. The system of claim 7, wherein the logging tool control module is further operable to: determine eigenvalues of the damping control signal;determine time derivatives of the eigenvalues of the damping control signal; andcompare the time derivatives of the eigenvalues of the damping control signal with the one or more thresholds. 14. A method for detecting faults in the control of a wellbore logging system, comprising: receiving sensor signals from one or more sensors coupled to a wellbore logging tool after a damping control signal has been transmitted to an acoustic transmitter of the wellbore logging tool;determining one or more expected sensor signals using the damping control signal;determining error values using the expected sensor signals and the sensor signals received from the one or more sensors; andcomparing the error values with one or more thresholds. 15. The method of claim 14, further comprising: receiving the sensor signals from the one or more sensors periodically after a damping control signal has been transmitted to the acoustic transmitter; anddetermining, for each periodic sensor signal received, an expected sensor signal. 16. The method of claim 14, further comprising modifying the damping control signal based on the comparison of the error values with the one or more thresholds. 17. The method of claim 14, wherein the information from the one or more sensors comprises one or more of the following: a voltage in the acoustic transmitter of the wellbore logging tool, a current in the acoustic transmitter of the wellbore logging tool, or an acceleration of the acoustic transmitter of the wellbore logging tool. 18. The method of claim 14, wherein the one or more sensors comprise a plurality of sensors and the method further comprises: determining a sensor error value based on the difference between the expected sensor signal and the sensor signal received from at least one of the plurality of sensors; andcomparing the sensor error value to sensor error values for each of the other plurality of sensors. 19. The method of claim 14, wherein a first sensor signal received from a sensor of the one or more sensors comprises a first signal associated with a first time period and a second signal associated with a second time period, the first signal associated with a first property of the acoustic transmitter and the second signal associated with a second property of the acoustic transmitter. 20. A method for detecting faults in the control of a wellbore logging system, comprising: receiving sensor signals from each of one or more sensors coupled to the wellbore logging tool after a damping control signal has been transmitted to the acoustic transmitter of the wellbore logging tool;determining one or more characteristics of the sensor signals;determining one or more expected characteristics of the sensor signals using the damping control signal; andcomparing the one or more characteristics of the sensor signals with the one or more expected characteristics. 21. The method of claim 20, wherein: the method further comprises receiving the sensor signals from the one or more sensors periodically after a damping control signal has been transmitted to the acoustic transmitter; andthe one or more characteristics of the sensor signals are determined using the periodically received sensor signals. 22. The method of claim 20, further comprising modifying the damping control signal based on the comparison the one or more characteristics with the one or more expected characteristics. 23. The method of claim 20, wherein the information from the one or more sensors comprises one or more of the following: an amplifier voltage in the acoustic transmitter of the wellbore logging tool, an amplifier current in the acoustic transmitter of the wellbore logging tool, an electromagnetic feedback voltage in the acoustic transmitter of the wellbore logging tool, or an acceleration of the acoustic transmitter of the wellbore logging tool. 24. The method of claim 20, wherein: the one or more characteristics comprises a frequency response of a first sensor signal;the one or more expected characteristics comprises an expected frequency response of the first sensor signal; andthe method further comprises comparing the frequency response of the first sensor signals with the expected frequency response of the first sensor signal. 25. The method of claim 20, wherein: determining one or more characteristics of the sensor signals comprises: determining eigenvalues of the sensor signals received from the one or more sensors; anddetermining time derivatives of the eigenvalues of the sensor signals received from the one or more sensors;determining one or more expected characteristics of the sensor signals comprises determining expected time derivatives of the eigenvalues of the sensor signals; andcomparing the one or more characteristics of the sensor signals with the one or more expected characteristics comprises comparing the time derivatives of the eigenvalues of the sensor signals with the expected time derivatives of the eigenvalues of the sensor signals. 26. The method of claim 20, wherein: determining one or more characteristics of the sensor signals comprises: determining eigenvalues of the damping control signal; anddetermining time derivatives of the eigenvalues of damping control signal;determining one or more expected characteristics of the sensor signals comprises determining expected time derivatives of the eigenvalues of the damping control signal; andcomparing the one or more characteristics of the sensor signals with the one or more expected characteristics comprises comparing the time derivatives of the eigenvalues of the damping control signal with the expected time derivatives of the eigenvalues of the damping control signal.
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