2023 10th International Forum on Electrical Engineering and Automation (IFEEA) 2023
DOI: 10.1109/ifeea60725.2023.10429354
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Influence of Impregnation State on the Electrical Characteristics of Polypropylene Film for High-voltage capacitors

Zhaoliang Xing,
Jianjun Zhang,
Fanqiu Zeng
et al.
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“…Chenmeng Zhang [14,15] et al simulated defects that might be distributed in the arc region of impact capacitors and conducted a simulation analysis of their electric field, concluding that the maximum field stress is lower when the defect area is impregnated compared to when it is filled with air. Bing Wang [16] analyzed the end electric field of all-film capacitors under different impregnation conditions and compression coefficients, finding that increasing the compression coefficient can significantly improve the end electric field distribution in impregnated capacitors. In non-impregnated conditions, the electric field distortion coefficient increases with the compression coefficient; in impregnated conditions, the coefficient decreases with increasing compression.…”
Section: Introductionmentioning
confidence: 99%
“…Chenmeng Zhang [14,15] et al simulated defects that might be distributed in the arc region of impact capacitors and conducted a simulation analysis of their electric field, concluding that the maximum field stress is lower when the defect area is impregnated compared to when it is filled with air. Bing Wang [16] analyzed the end electric field of all-film capacitors under different impregnation conditions and compression coefficients, finding that increasing the compression coefficient can significantly improve the end electric field distribution in impregnated capacitors. In non-impregnated conditions, the electric field distortion coefficient increases with the compression coefficient; in impregnated conditions, the coefficient decreases with increasing compression.…”
Section: Introductionmentioning
confidence: 99%