Study on micro bridge impurities in oil-paper insulation at DC voltage: their generation, growth and interaction with partial discharge

To investigate the characteristics of micro bridges and their interactions with partial discharge (PD) in oil-paper insulation under DC voltage, an experimental platform with two-copper-electrode models is established. Generation and growth of micro bridge impurities are observed. PDs in experimenta...

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Bibliographic Details
Published in:IEEE transactions on dielectrics and electrical insulation 2016-08, Vol.23 (4), p.2213-2222
Main Authors: Li, Yuan, Zhang, Qiaogen, Li, Jinzhong, Wang, Tonglei, Dong, Wenlong, Ni, Heli
Format: Article
Language:English
Subjects:
Bridge circuits
cluster discharging
converter transformer
hazardous bridge
HVDC transmission
Impurities
micro bridge impurities
Oil insulation
oilpaper insulation
Oils
Partial discharges
Power transformer insulation
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Summary:To investigate the characteristics of micro bridges and their interactions with partial discharge (PD) in oil-paper insulation under DC voltage, an experimental platform with two-copper-electrode models is established. Generation and growth of micro bridge impurities are observed. PDs in experimental process are detected and analyzed. The result shows that the generation and growth of micro bridges have three stages based on their quantity and shape. At first stage PD accelerates the generation of micro bridges. At second stage the grown bridges trigger stronger discharges. At the last stage a so-called "hazardous bridge" that triggers highly intensive PDs emerges, through which breakdown happens. Therefore, bridges and PDs promote each other to cause insulation failure. In addition, impurities at the second stage are observed to transform into pile-like, bridge-like or particle-like shapes. The transformation process is considered to relate with the change of composition force on fiber bundles. Besides, a "cluster discharging" phenomenon is observed at the second stage, which is associated with the generation and disappearance of micro bridge impurities.
ISSN:1070-9878
1558-4135
DOI:10.1109/TDEI.2016.7556497