The Comprehensive Study Based on Ultrasonic and X-ray Visual Technology for GIS Equipment Detection
For lack of the visualization of the ultrasonic detection
method of partial discharge (PD), the ultrasonic detection technology
combined with the X-ray visual detection method (UXV) is proposed.
The method can conduct qualitative analysis accurately and conduct
reliable positioning diagnosis to the internal insulation defects of
GIS, and while it could make up the blindness of the X-ray visual
detection method and improve the detection rate. In this paper, an
experimental model of GIS is used as the trial platform, a variety of
insulation defects are set inside the GIS cavity. With the proposed
method, the ultrasonic method is used to conduct the preliminary
detection, and then the X-ray visual detection is used to locate and
diagnose precisely. Therefore, the proposed UXV technology is
feasible and practical.
[1] LI Da-jian, LIANG Ji-zhong, BU Ke-wei, YANG Jing-gang, LI
Yan-ming. Ultrasonic Detection of Partial Discharge on Typical Defects
in GIS. High Voltage Apparatus, Vol.45, No.1, Feb. 2009: 72-74
[2] Yang Yuan, Li Cheng-rong. Study on Ultrasonic Characteristics of
Typical Partial Discharge of GIS. Modern Electric Power. Vol. 26, No.5,
Oct. 2009: 18-23
[3] YAN Bin, HE Xi-mei, WANG Zhi-hui, LI Sheng-ping. Application of
X-ray Digital Imaging Defect Detection System in GIS Equipment. High
Voltage Apparatus, Vol.46, No.11, Nov. 2010: 89-91
[4] S. Rizzeto, N. Fujimoto and G. C. Stone. A System for the Detection and
Location of Partial Discharge Using X-Rays. Conference Record of the
1988 IEEE International Symposium on Electrical Insulation, Boston,
MA, June 5-8, 1988, pp: 262-266
[5] CHEN Min, Koji Urano, LI You-Cheng, and Atsuhide Jinno.
Application of Combined PD Sensor for GIS PD Detection and
Condition Monitoring. 2008 International Conference on Condition
Monitoring and Diagnosis, Beijing, China, April 21-24, 2008
[6] FANG Qing, LIU Wei-Dong, DENG Wei, TANG Xin. A new
Ultrasonic Diagnosis Technology for Internal Default of GIS
Equipment. High Voltage Apparatus. Vol.44, No.6, Dec. 2008: 589-595
[7] K. Raja and T. Floribert. Comparative Investigations on UHF and
Acoustic PD Detection Sensitivity in Transformers. Conference Record
of the 2002 IEEE International Symposium on Electrical Insulation, MA
USA, April 7-10 2002, pp: 150-153
[8] YAN Bin, HE Xi-mei, WU Tong-sheng, WANG Zhi-hui, LI Sheng-ping.
X-ray visualization detection technology for GIS equipment. Electric
Power. Vol. 43, No. 7, Jul. 2010: 44-47
[1] LI Da-jian, LIANG Ji-zhong, BU Ke-wei, YANG Jing-gang, LI
Yan-ming. Ultrasonic Detection of Partial Discharge on Typical Defects
in GIS. High Voltage Apparatus, Vol.45, No.1, Feb. 2009: 72-74
[2] Yang Yuan, Li Cheng-rong. Study on Ultrasonic Characteristics of
Typical Partial Discharge of GIS. Modern Electric Power. Vol. 26, No.5,
Oct. 2009: 18-23
[3] YAN Bin, HE Xi-mei, WANG Zhi-hui, LI Sheng-ping. Application of
X-ray Digital Imaging Defect Detection System in GIS Equipment. High
Voltage Apparatus, Vol.46, No.11, Nov. 2010: 89-91
[4] S. Rizzeto, N. Fujimoto and G. C. Stone. A System for the Detection and
Location of Partial Discharge Using X-Rays. Conference Record of the
1988 IEEE International Symposium on Electrical Insulation, Boston,
MA, June 5-8, 1988, pp: 262-266
[5] CHEN Min, Koji Urano, LI You-Cheng, and Atsuhide Jinno.
Application of Combined PD Sensor for GIS PD Detection and
Condition Monitoring. 2008 International Conference on Condition
Monitoring and Diagnosis, Beijing, China, April 21-24, 2008
[6] FANG Qing, LIU Wei-Dong, DENG Wei, TANG Xin. A new
Ultrasonic Diagnosis Technology for Internal Default of GIS
Equipment. High Voltage Apparatus. Vol.44, No.6, Dec. 2008: 589-595
[7] K. Raja and T. Floribert. Comparative Investigations on UHF and
Acoustic PD Detection Sensitivity in Transformers. Conference Record
of the 2002 IEEE International Symposium on Electrical Insulation, MA
USA, April 7-10 2002, pp: 150-153
[8] YAN Bin, HE Xi-mei, WU Tong-sheng, WANG Zhi-hui, LI Sheng-ping.
X-ray visualization detection technology for GIS equipment. Electric
Power. Vol. 43, No. 7, Jul. 2010: 44-47
@article{"International Journal of Electrical, Electronic and Communication Sciences:63901", author = "Wei Zhang and Hong Yu and Xian-ping Zhao and Da-da Wang and Fei Xue", title = "The Comprehensive Study Based on Ultrasonic and X-ray Visual Technology for GIS Equipment Detection", abstract = "For lack of the visualization of the ultrasonic detection
method of partial discharge (PD), the ultrasonic detection technology
combined with the X-ray visual detection method (UXV) is proposed.
The method can conduct qualitative analysis accurately and conduct
reliable positioning diagnosis to the internal insulation defects of
GIS, and while it could make up the blindness of the X-ray visual
detection method and improve the detection rate. In this paper, an
experimental model of GIS is used as the trial platform, a variety of
insulation defects are set inside the GIS cavity. With the proposed
method, the ultrasonic method is used to conduct the preliminary
detection, and then the X-ray visual detection is used to locate and
diagnose precisely. Therefore, the proposed UXV technology is
feasible and practical.", keywords = "GIS, ultrasonic, visual detection, X-ray", volume = "5", number = "10", pages = "1394-6", }