Failure mechanism of metallized film capacitors under DC field superimposed AC harmonic: From equipment to material

IF 4.4 2区 工程技术 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC High Voltage Pub Date : 2024-05-28 DOI:10.1049/hve2.12453
Zhiyuan Li, Yihan Zhou, Xuguang Wang, Hongbo Liu, Lu Cheng, Wenfeng Liu, Shengtao Li, Jiang Guo, Yang Xu
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Abstract

This study focuses on the degradation behaviour of metallised film capacitors, which are the essential components for the stability of converter valves in flexible ultra-high voltage direct current (HVDC) transmission systems. Through systematic experimentation, we investigated the failure mechanisms of MFCs under HVDC fields with superimposed harmonics, considering both equipment and material perspectives. The experiments subjected capacitors to 500 h of ageing under two conditions: a DC/AC-superimposed field with a constant DC component of 290 kV/mm and an AC ripple rate varying from 12% to 28%, and a control group aged solely under a DC field. Our findings indicate that capacitors aged under the DC/AC-superimposed field exhibited shorter lifespans and more significant capacitance loss than those aged under only the DC field. This difference in performance is primarily attributed to the distinct electrode loss behaviours observed under each ageing condition, which are key factors in the capacitors' capacitance decay. Moreover, the biaxially oriented polypropylene films in the DC-aged samples showed more severe deterioration, characterised by more noticeable molecular chain scission and reduced breakdown strength, compared to those aged under the DC/AC superimposed field. This difference is partly due to the moderate temperature increase caused by harmonics, which benefits the aggregation structure, and partly to the reduced molecular structure damage from the AC field.

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直流电场叠加交流谐波下金属化薄膜电容器的失效机理:从设备到材料
金属薄膜电容器是柔性超高压直流(HVDC)输电系统中保证换流阀稳定性的重要元件,本研究的重点是金属薄膜电容器的退化行为。通过系统实验,我们从设备和材料两个角度研究了金属薄膜电容器在具有叠加谐波的高压直流电场下的失效机制。实验使电容器在两种条件下老化 500 小时:直流/交流叠加电场(直流分量恒定为 290 kV/mm,交流纹波率从 12% 到 28% 不等),以及仅在直流电场下老化的对照组。我们的研究结果表明,与仅在直流电场下老化的电容器相比,在直流/交流叠加电场下老化的电容器寿命更短,电容损耗更严重。性能上的这种差异主要归因于在每种老化条件下观察到的不同电极损耗行为,这些行为是电容器电容衰减的关键因素。此外,与在直流/交流叠加电场下老化的样品相比,直流老化样品中的双向拉伸聚丙烯薄膜出现了更严重的劣化,表现为更明显的分子链断裂和击穿强度降低。造成这种差异的部分原因是谐波引起的温度适度升高有利于聚合结构,另一部分原因是交流电场对分子结构的破坏减少。
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来源期刊
High Voltage
High Voltage Energy-Energy Engineering and Power Technology
CiteScore
9.60
自引率
27.30%
发文量
97
审稿时长
21 weeks
期刊介绍: High Voltage aims to attract original research papers and review articles. The scope covers high-voltage power engineering and high voltage applications, including experimental, computational (including simulation and modelling) and theoretical studies, which include: Electrical Insulation ● Outdoor, indoor, solid, liquid and gas insulation ● Transient voltages and overvoltage protection ● Nano-dielectrics and new insulation materials ● Condition monitoring and maintenance Discharge and plasmas, pulsed power ● Electrical discharge, plasma generation and applications ● Interactions of plasma with surfaces ● Pulsed power science and technology High-field effects ● Computation, measurements of Intensive Electromagnetic Field ● Electromagnetic compatibility ● Biomedical effects ● Environmental effects and protection High Voltage Engineering ● Design problems, testing and measuring techniques ● Equipment development and asset management ● Smart Grid, live line working ● AC/DC power electronics ● UHV power transmission Special Issues. Call for papers: Interface Charging Phenomena for Dielectric Materials - https://digital-library.theiet.org/files/HVE_CFP_ICP.pdf Emerging Materials For High Voltage Applications - https://digital-library.theiet.org/files/HVE_CFP_EMHVA.pdf
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