研究目的
Investigating the sensitivity and detection capabilities of a Michelson ultrasonic sensing system for detecting partial discharge in power transformers compared to conventional PZT systems.
研究成果
The Michelson ultrasonic sensing system demonstrated higher sensitivity and lower detection limits compared to conventional PZT systems for detecting partial discharges in power transformers. The system's enhanced sensitivity makes it a promising method for detecting small defects in power transformers.
研究不足
The study is limited to the frequency range of 80 kHz to 200 kHz and does not explore the system's performance outside this range. Additionally, the practical implementation of the system in real-world power transformers may face challenges not addressed in the study.
1:Experimental Design and Method Selection:
A Michelson ultrasonic sensing system was designed for detecting acoustic emissions from partial discharges in power transformers. A theoretical model was established to guide the sensor head design for high sensitivity.
2:Sample Selection and Data Sources:
The study involved testing the sensing system in a transformer tank filled with oil, using a needle-plane defect to generate partial discharges.
3:List of Experimental Equipment and Materials:
Included a Corning G.652 single-mode fiber, a signal generator (Keysight 33600A), a source PZT transducer (REF-VL, Fuji Ceramics crop), and PZT sensors (Physical Acoustics Corp. R15α).
4:Experimental Procedures and Operational Workflow:
The sensor head was suspended in oil near the inner wall of the tank, facing the ultrasonic source. The system's performance was compared with traditional PZT sensing systems.
5:Data Analysis Methods:
The response sensitivity and detection limit of the Michelson sensing system were calculated and compared with those of PZT systems.
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