Effect of Frequency on Degradation in BOPP Films Under Repetitively Pulsed Voltage

IF 6.9 2区 工程技术 Q2 ENERGY & FUELS CSEE Journal of Power and Energy Systems Pub Date : 2023-03-12 DOI:10.17775/CSEEJPES.2022.07250
Chuansheng Zhang;Yu Feng;Fei Kong;Bangdou Huang;Cheng Zhang;Tao Shao
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Abstract

Operating conditions of film capacitors are complex, and the problem of film insulation failure caused by repetitively pulsed voltage is becoming ever serious. Degradation of the film under repetitively pulsed voltage cannot be accurately evaluated by the average breakdown electric field. In this paper, the effects of pulsed electric field and pulse repetition frequency on the breakdown in biaxially oriented polypropylene (BOPP) films are investigated. Three phases of BOPP degradation are proposed based on the voltage amplitude, i.e., maintenance (M), decline (D), and near-zero (N). Evolution of the BOPP film from degradation to breakdown at different frequencies is presented. Meanwhile, transition of discharge mode and elemental composition of the film are analyzed. Experimental results show continuous heat generation under repetitive microsecond pulses is the dominant factor for degradation of BOPP film. The number of applied pulses and the repetitive stressing time decrease exponentially with increase of frequency. This research can be contributed to the safe and reliable operation of capacitors.
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频率对重复脉冲电压下 BOPP 薄膜降解的影响
薄膜电容器的工作条件十分复杂,重复脉冲电压导致的薄膜绝缘失效问题日益严重。重复脉冲电压下的薄膜劣化无法通过平均击穿电场来准确评估。本文研究了脉冲电场和脉冲重复频率对双向拉伸聚丙烯(BOPP)薄膜击穿的影响。根据电压振幅提出了 BOPP 降解的三个阶段,即维持(M)、下降(D)和近零(N)。介绍了不同频率下 BOPP 薄膜从降解到击穿的演变过程。同时,还分析了放电模式的转变和薄膜的元素组成。实验结果表明,在重复的微秒脉冲下持续发热是导致 BOPP 薄膜降解的主要因素。施加的脉冲数和重复应力时间随着频率的增加呈指数下降。这项研究有助于电容器的安全可靠运行。
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来源期刊
CiteScore
11.80
自引率
12.70%
发文量
389
审稿时长
26 weeks
期刊介绍: The CSEE Journal of Power and Energy Systems (JPES) is an international bimonthly journal published by the Chinese Society for Electrical Engineering (CSEE) in collaboration with CEPRI (China Electric Power Research Institute) and IEEE (The Institute of Electrical and Electronics Engineers) Inc. Indexed by SCI, Scopus, INSPEC, CSAD (Chinese Science Abstracts Database), DOAJ, and ProQuest, it serves as a platform for reporting cutting-edge theories, methods, technologies, and applications shaping the development of power systems in energy transition. The journal offers authors an international platform to enhance the reach and impact of their contributions.
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