换流变压器油纸绝缘气泡动态行为与高能电弧演化机理及其防治技术综述

刘洪顺; 隋宜臻; 赵茹雪; 武宏斌; 任富强; 李清泉; 李元

doi:10.13296/j.1001-1609.hva.2026.04.001

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换流变压器油纸绝缘气泡动态行为与高能电弧演化机理及其防治技术综述

综述 | 更新时间：2026-04-08

- 换流变压器油纸绝缘气泡动态行为与高能电弧演化机理及其防治技术综述
- Review on the Dynamic Bubble Behavior in Oil-paper Insulation of Converter Transformer and the Evolution Mechanism of High-energy Arcs and Mitigation Techniques
- 高压电器 2026年62卷第4期页码：1-16
- 作者机构：
  
  山东大学山东省先进输变电技术与智能装备重点实验室，济南 250061
  西安交通大学电工材料电气绝缘全国重点实验室，西安 710049
- 作者简介：
  
  刘洪顺（1981—），男，博士，副教授/博士生导师，主要研究方向为电气设备诊断与大数据分析、电磁暂态分析与抑制、电弧放电理论及其应用、电工装备电磁兼容技术等（通信作者）（E-mail：lhs@sdu.edu.cn）。
- 基金信息：
  
  国家自然科学基金;Project Supported by National Natural Science Foundation of China(52577171);电工材料电气绝缘全国重点实验室项目。;State Key Laboratory of Electrical Insulation and Power Equipment(EIPE25206)
- DOI：10.13296/j.1001-1609.hva.2026.04.001
  中图分类号：
- 收稿：2025-09-18，
  
  修回：2025-12-09，
  
  纸质出版：2026-04-16
- 稿件说明：
移动端阅览
刘洪顺, 隋宜臻, 赵茹雪, 等. 换流变压器油纸绝缘气泡动态行为与高能电弧演化机理及其防治技术综述[J]. 高压电器, 2026,62(4):1-16.

LIU Hongshun, SUI Yizhen, ZHAO Ruxue, et al. Review on the Dynamic Bubble Behavior in Oil-paper Insulation of Converter Transformer and the Evolution Mechanism of High-energy Arcs and Mitigation Techniques[J]. High Voltage Apparatus, 2026, 62(4): 1-16.
刘洪顺, 隋宜臻, 赵茹雪, 等. 换流变压器油纸绝缘气泡动态行为与高能电弧演化机理及其防治技术综述[J]. 高压电器, 2026,62(4):1-16. DOI： 10.13296/j.1001-1609.hva.2026.04.001.

LIU Hongshun, SUI Yizhen, ZHAO Ruxue, et al. Review on the Dynamic Bubble Behavior in Oil-paper Insulation of Converter Transformer and the Evolution Mechanism of High-energy Arcs and Mitigation Techniques[J]. High Voltage Apparatus, 2026, 62(4): 1-16. DOI： 10.13296/j.1001-1609.hva.2026.04.001.

摘要

换流变压器作为交直流输电环节中的关键设备，其运行的稳定性和安全性直接关系到整个电力系统的可靠性与稳定水平。近年来，由高能电弧引发的换流变压器爆燃事故呈现高发趋势，已成为影响电网运行安全的主要隐患之一。由于油纸绝缘中的气泡在电场、温度场等作用下，对油纸绝缘的绝缘性能有显著影响，在高能电弧的形成过程中起着至关重要的作用，因此探究换流变压器油纸绝缘气泡动态行为与高能电弧演化机理及其防治技术具有重要意义。为此系统综述了换流变压器油纸绝缘气泡的产生机理与复杂动态行为，重点总结了热致与电致气泡在不同工况下的形成机理，并进一步介绍了气泡簇爆发与局部放电演化之间的耦合机制。通过总结放电阶段划分与预警方法，归纳了当前高能电弧前兆识别方法及其存在的问题，最后从材料改性与油路结构控制两个层面综述了典型的放电抑制技术路径，为换流变压器电弧前兆预警与防治、保障交直流输电系统安全可靠运行提供思路。

Abstract

Converter transformer is a key equipment in the AC/DC transmission link and its operation stability and safety directly affects both reliability and stability level of the entire power system. In recent years

the deflagration accidents in converter transformers caused by high-energy arcs have shown an increasing trend

posing an major threat to the operational safety of power grids. Due to the significant impact of bubbles in oil paper insulation on its insulation performance under the influence of electric and temperature fields

and their crucial role in the formation process of high-energy arcs

it is of great importance to investigate the dynamic behavior of bubbles in oil paper insulation of converter transformers

the evolution mechanism of high-energy arcs

and their prevention and their corresponding mitigation techniques. Therefore

the generation mechanism and complex dynamic behavior of oil paper insulation bubbles in converter transformers is systematically reviewed

with a focus on summarizing the formation mechanisms of thermally induced and electrically induced bubbles under different operating conditions

and the coupling mechanism between bubble cluster explosion and partial discharge evolution is introduced further. By sum marizing the division of discharge stages and warning methods

the current methods for identifying high-energy arc precursors and their existing problems are summarized. Finally

typical discharge mitigatino technique paths are summarized from the perspectives of material modification and oil circuit structure control

providing ideas for early warning and prevention of arc precursors in converter transformers and ensuring the safe and reliable operation of AC/DC transmission systems.

关键词

Keywords

references

国家能源局. 2025年能源工作指导意见[R].北京:国家能源局, 2025.

National Energy Administration.Guiding opinions on energy work in 2025[R]. Beijing:National Energy Administration,2025.

中国电力企业联合会.中国电力行业年度发展报告2024[R].北京:中国电力企业联合会,2024.

China Electricity Council.Annual development report of China's electric power industry 2024[R]. Beijing:China Electricity Council,2024.

HE Shuang,LI Jiangtao,WANG Yifeng. Analysis of electromagnetic transient characteristics on the winding of UHVDC converter transformers based on an improved broadband model[J]. IEEE Transactions on Magnetics,2022,58(8):1-5.

何国阳,汲胜昌,祝令瑜,等.在运换流变压器噪声特性及噪声预测方法[J].电力工程技术,2025,44(5):117-127.

HE Guoyang, JI Shengchang, ZHU Lingyu, et al. Noise characteristics and prediction methods of operating converter transformers[J]. Electric Power Engineering Technology,2025,44 (5):117-127.

MORSHUIS P,CAVALLINI A,FABIANI D,et al. Stress conditions in HVDC equipment and routes to in service failure[J]. IEEE Transactions on Dielectrics and Electrical Insulation,2015,22(1):81-91.

杜伯学,朱闻博,李进,等.换流变压器阀侧套管油纸绝缘研究现状[J].电工技术学报,2019,34(6):1300-1309.

DU Boxue,ZHU Wenbo,LI Jin,et al. Research status of oil-paper insulation for valve side bushing of converter transformer[J]. Transactions of China Electrotechnical Society,2019,34(6):1300-1309.

赵志刚,徐征宇,王健一,等.大型电力变压器火灾安全研究[J].高电压技术,2015,41(10):3378-3384.

ZHAO Zhigang,XU Zhengyu,WANG Jianyi,et al. Research on the fire safety of large power transformer[J]. High Voltage Engineering,2015,41(10):3378-3384.

FORREST J A C,ALLARD B. Thermal problems caused by harmonic frequency leakage fluxes in three-phase,three-winding converter transformers[J]. IEEE Transactions on Power Delivery,2004, 19(1):208-213.

陈洪波,曹培,高凯,等.换流变压器有载调压开关防爆试验研究与分析[J].高压电器,2024,60(2):119-126.

CHEN Hongbo,CAO Pei,GAO Kai,et al. Research and analysis on explosion-proof test of converter transformer OLTC[J]. High Voltage Apparatus,2024,60(2):119-126.

WANG Qingyu,YANG Xi,TIAN Huidong,et al. A novel dissipating heat structure of converter transformer RIP bushings based on 3-D electromagnetic-fluid-thermal analysis[J]. IEEE Transactions on Dielectrics and Electrical Insulation,2017,24(3):1938-1946.

张佳庆,李国辉,汪亚龙,等.典型特高压换流变压器火灾数值模拟研究[J].消防科学与技术,2020,39(8):1115-1120.

ZHANG Jiaqing,LI Guohui,WANG Yalong,et al. Numerical simulation study on fire of typical UHV converter transformer[J]. Fire Science and Technology,2020,39(8):1115-1120.

陈涛,赵力增,傅学成,等.大型换流变压器火灾事故特点与灭火方案[J].消防科学与技术,2020,39(8):1138-1141.

CHEN Tao,ZHAO Lizeng,FU Xuecheng,et al. Fire accident char acteristics and firefighting solutions of large converter transformer[J]. Fire Science and Technology,2020,39(8):1138-1141.

刘泽洪,卢理成,周远翔,等.变压器升高座区域电弧故障与压力特性研究[J].中国电机工程学报,2021,41(13):4688-4697.

LIU Zehong,LU Licheng,ZHOU Yuanxiang,et al. Research on pressure characteristics of AC turret on arc fault[J]. Proceedings of the CSEE,2021,41(13):4688-4697.

周远翔,姜鑫鑫,陈维江,等.交直流复合电压下变压器油中电弧放电及产气特性[J].高电压技术,2011,37(7):1584-1589.

ZHOU Yuanxiang,JIANG Xinxin,CHEN Weijiang,et al. Arcing discharge and gas generation characteristics of transformer oil under combined AC and DC voltage[J]. High Voltage Engineering, 2011,37(7):1584-1589.

李金忠,汪可,任家帆,等.分接开关油室电弧故障压力传播过程研究[J].中国电机工程学报,2022,42(20):7651-7658.

LI Jinzhong,WANG Ke,REN Jiafan,et al. Study on pressure propagation process of arc fault in OLTC oil chamber[J]. Proceedings of the CSEE,2022,42(20):7651-7658.

司雯,李天娇,李斯盟,等.交直流复合电压下老化油纸绝缘针板模型局部放电特性[J].高电压技术,2017,43(6):1980-1987.

SI Wen,LI Tianjiao,LI Simeng,et al. Partial discharge characteristics of needle-plate electrodes in aging oil-paper insulation under combined AC - DC voltage[J]. High Voltage Engineering,2017,43(6):1980-1987.

刘志华,崔彦捷,汲胜昌,等.热机联合应力对油浸纸板绝缘及机械特性影响研究[J].电力工程技术,2020,39(5):126-132.

LIU Zhihua,CUI Yanjie,JI Shengchang,et al. Influence of thermomechanical combined stress on insulation and mechanical characteristics of oil-impregnated paperboard[J]. Electric Power Engineering Technology,2020,39(5):126-132.

汪佛池,程祥瑞,赵涛,等.油纸绝缘中气泡的生成特性及其对击穿性能的影响[J].高压电器,2020,56(1):61-67.

WANG Fochi,CHENG Xiangrui,ZHAO Tao,et al. Characteristics of bubble formation in oil-paper insulation and its influence on the breakdown[J]. High Voltage Apparatus,2020,56(1):61-67.

MENG Gao,ZHANG Qiaogen,DING Yuqin,et al. Investigation on bubbling phenomenon in oil - paper insulation[J]. IEEE Transactions on Dielectrics and Electrical Insulation,2017,24(4):2362-2370.

Loading guide for oil-immersed power transformers:IEC 60076-7:2018[S].2018.

HEINRICHS F W. Bubble formation in power transformer windings at overload temperatures[J]. IEEE Transactions on Power Apparatus and Systems,1979,PAS-98(5):1576-1582.

杨超杰.油纸绝缘中热致气泡效应机制及气泡放电特性研究[D].北京:华北电力大学,2024.

YANG Chaojie. Study on thermal effect mechanism and discharge characteristics of bubble in oil-paper insulation[D]. Beijing:North China Electric Power University,2024.

PRZYBYLEK P. The influence of cellulose insulation aging degree on its water sorption properties and bubble evolution[J]. IEEE Transactions on Dielectrics and Electrical Insulation,2010,17(3):906-912.

李继方,周一帆,周星耀,等.变压器油间气泡局部放电对绝缘性能的影响[J].科学技术与工程,2024,24(17):7159-7167.

LI Jifang,ZHOU Yifan,ZHOU Xingyao,et al. Effect of partial discharges of air bubbles between transformer oils on insulation performance[J]. Science Technology and Engineering,2024,24 (17):7159-7167.

OOMMEN T V,LINDGREN S R. Bubble evolution from transformer overload[C]//2001 IEEE/PES Transmission and Distribution Conference and Exposition. Developing New Perspectives (Cat. No.01CH37294).Atlanta,GA,USA:IEEE,2001:137-142.

LIU Yunpeng,CHAO Nijie,ZHAO Tao,et al. Mechanism and numerical model of bubble effect in oil-paper insulation based on microtubule model[J]. IEEE Transactions on Dielectrics and Electrical Insulation,2020,27(5):1529-1537.

ZHANG Jian,YU Yong,QU Chen,et al. Experimental study and numerical simulation of periodic bubble formation at submerged micron-sized nozzles with constant gas flow rate[J]. Chemical Engineering Science,2017(168):1-10.

赵涛,刘云鹏,律方成,等.交流电场下变压器油中气泡动力学特性仿真[J].系统仿真学报,2016,28(12):3081-3086.

ZHAO Tao,LIU Yunpeng,LYU Fangcheng,et al. Bubble dynamics simulation in transformer oil under AC electric field[J]. Journal of System Simulation,2016,28(12):3081-3086.

KOROBEYNIKOV S M ,RIDEL A V ,MEDVEDEV D A,et al. Registration and simulation of partial discharges in free bubbles at AC voltage[J]. IEEE Transactions on Dielectrics and Electrical Insulation,2019,26(4):1035-1042.

USHAKOV V Y. Impulse breakdown of liquids[M]. Berlin:Springer Press,2007:281-300.

CHEN F,PENG Y,SONG Y Z,et al. EHD behavior of nitrogen bubbles in DC electric fields[J]. Experimental Thermal and Fluid Science,2007,32(1):174-181.

WANG Tai,LI Huixiong,ZHAO Jianfu. Three-dimensional numerical simulation of bubble dynamics in microgravity under the influence of nonuniform electric fields[J]. Microgravity Science and Technology,2016,28(2):133-142.

苏巧玲,王军锋,张伟,等.电场作用下气泡在介电介质中的形成及聚并特性研究[J].工程热物理学报,2023,44(5):1270-1276.

SU Qiaoling,WANG Junfeng,ZHANG Wei,et al. Investigation on bubble generation and coalescence characteristics in dielectric medium under electric field[J]. Journal of Engineering Thermophysics,2023,44(5):1270-1276.

张伟,王军锋,詹水清,等.电场作用下的气泡生长动力学特性实验研究[J].中南大学学报(自然科学版),2022,53(8):3202-3211.

ZHANG Wei, WANG Junfeng, ZHAN Shuiqing, et al. Experimental investigation on dynamic characteristics of bubble generation with electric field[J]. Journal of Central South University (Science and Technology),2022,53(8):3202-3211.

褚俊杰,王宗旭,白璐,等.电催化反应电极界面纳微气泡多尺度研究进展[J].中国科学化学,2024,54(6):892-902.

CHU Junjie,WANG Zongxu,BAI Lu,et al. Advances in multi-scale nano-micro bubble evolution of electrocata-lysis reaction electrode interfaces[J]. Scientia Sinica Chimica,2024,54(6):892-902.

陈凤,彭耀,宋耀祖,等.电场作用下单气泡行为的可视化[J].清华大学学报(自然科学版),2007,47(5):722-725.

CHEN Feng,PENG Yao,SONG Yaozu,et al. Experimental visualization of single bubbles in an electric field[J]. Journal of Tsinghua University(Science and Technology) ,2007 ,47(5) :722-725.

刘秋实,李庆民,NIYOMUGABO E L,等.极不均匀电场下绝缘油中气泡动力学特性与迁移机制[J].中国电机工程学报,2022, 42(9):3460-3469.

LIU Qiushi,LI Qingmin,NIYOMUGABO E L,et al. Bubble dynamics and migration mechanism in insulation oil under extremely inhomogeneous electric field[J]. Proceedings of the CSEE,2022,42(9):3460-3469.

HUANG Yiming,LIU Qiang,WANG Zhongdong. Effects of temperature on partial discharges and streamers in an ester liquid under AC stress[J]. IEEE Transactions on Dielectrics and Electrical Insulation,2019,26(5):1512-1519.

蔡丹,刘列.强电场下气泡形变对液体绝缘的影响[J].强激光与粒子束,2011,23(11):2966-2970.

CAI Dan,LIU Lie. Impact of air bubble deformation on dielectric liquid subjected to strong electric field[J]. High Power Laser and Particle Beams,2011,23(11):2966-2970.

陈凤,宋耀祖,陈民.电场作用下的气泡受力分析[J].工程热物理学报,2005,26(s1):146-148.

CHEN Feng,SONG Yaozu,CHEN Min. Analysis of the electric stresses acting on a bubble in electric field[J]. Journal of Engineering Thermophysics,2005,26(s1):146-148.

ANDALIB S,VAJDI HOKMABAD B,ESMAEILZADEH E. Study of a single coarse bubble behavior in the presence of D.C. electric field[J]. Colloids and Surfaces A-Physicochemical and Engineering Aspects,2013(436):604-617.

HARA M,WANG Zenchao. An analytical study of bubble motion in liquid nitrogen under DC nonuniform electric fields[C]//Proceedings of 19944th International Conference on Properties and Applications of Dielectric Materials(ICPADM). Brisbane:IEEE,1994:459-462 .

WANG P,SWAFFIELD D J,LEWIN P L,et al. Thermal bubble motion in liquid Nitrogen under nonuniform electric fields[J]. IEEE Transactions on Dielectrics and Electrical Insulation,2008,15(3):626-634.

DONG W,LI R Y,YU H L,et al. An investigation of behaviours of a single bubble in a uniform electric field[J]. Experimental Thermal and Fluid Science,2006,30(6):579-586.

CHO H J,KANG I S,KWEON Y C,et al. Study of the behavior of a bubble attached to a wall in a uniform electric field[J]. International Journal of Multiphase Flow,1996,22(5):909-922.

PENG Y,CHEN F,SONG Y Z,et al. Single bubble behavior in direct current electric field[J]. Chinese Journal of Chemical Engineering,2008,16(2):178-183.

KOROBEYNIKOV S M,RIDEL A V,MEDVEDEV D A. Deformation of bubbles in transformer oil at the action of alternating electric field[J]. European Journal of Mechanics B-Fluids,2019(75):105-109.

张永泽,唐炬,潘成,等.流动变压器油中气泡动力学行为及电场分布仿真[J].高电压技术,2020,46(6):2004-2012.

ZHANG Yongze,TANG Ju,PAN Cheng,et al. Simulation of the bubble dynamics and electric field distribution in flowing transformer oil[J]. High Voltage Engineering,2020,46(6):2004-2012.

张哲滔,张锐,郭冲,等.交流电场下变压器油中贴壁气泡形变特性[J].高电压技术,2024,50(2):846-854.

ZHANG Zhetao,ZHANG Rui,GUO Chong,et al. Deformation characteristics of bubbles attached to solid wall in transformer oil under AC electric field[J]. High Voltage Engineering,2024,50(2):846-854.

唐炬,朱黎明,麻守孝,等.绝缘油中悬移气泡局部放电特性[J].高电压技术,2010,36(6):1341-1346.

TANG Ju,ZHU Liming,MA Shouxiao,et al. Characteristics of suspended and mobile microbubble partial discharge in insulation oil[J]. High Voltage Engineering,2010,36(6):1341-1346.

ZHANG Yongze,TAO Xiantao,PAN Cheng,et al. Role of air bubbles in the breakdown of flowing transformer oil[J]. IEEE Transactions on Dielectrics and Electrical Insulation,2020,27(5):1752-1760.

WU Hongbin,LIU Hongshun,XUE Zhitong,et al. The generation and migration of bubbles in oil-pressboard insulation needle-plate system[J]. IEEE Transactions on Dielectrics and Electrical Insulation,2022,29(6):2110-2121.

WANG P,SWAFFIELD D J,LEWIN P L,et al. The effect of an electric field on behaviour of thermally induced bubble in liquid Nitrogen[C]//2008 IEEE International Conference on Dielectric Liquids.Chasseneuil:IEEE,2008:1-4.

HARA M,KOISHIHARA H,SAITA K. Breakdown behavior of cryogenic liquids in the presence of thermal bubbles under ramped voltage[J]. IEEE Transactions on Electrical Insulation,1991,26(4):685-691.

李昕晨.双气泡聚并的流体力学行为研究[D].北京:北京化工大学,2015.

LI Xinchen. Study of hydrodynamics behavior of two bubbles coalescence[D]. Beijing: Beijing University of Chemical Technology,2015.

LIU Jingru,ZHU Chunying,FU Taotao,et al. Systematic study on the coalescence and breakup behaviors of multiple parallel bubbles rising in power-law fluid[J]. Industrial & Engineering Chemistry Research,2014,53(12):4850-4860.

冯俊杰.气液两相体系气泡的流体力学行为研究[D].北京:北京化工大学,2016.

FENG Junjie. Study of hydrodynamics behaviors of bubbles in gasliquid systems[D]. Beijing: Beijing University of Chemical Technology,2016.

刘士利,韩继涛,张宁,等.变压器油中气泡聚并行为及其对电场分布的影响[J].高电压技术,2023,49(8):3534-3543.

LIU Shili,HAN Jitao,ZHANG Ning,et al. Coalescence behavior of bubbles in transformer oil and its effect on electric field distribution[J]. High Voltage Engineering,2023,49(8):3534-3543.

蒋晓刚,苑志江,翟玉婷,等.基于COMSOL的气泡聚并行为仿真研究[J].计算机仿真,2019,36(7):191-194.

JIANG Xiaogang,YUAN Zhijiang,ZHAI Yuting,et al. Simulated analysis of the relative location impact on bubbles coalescence behavior in the water based on COMSOL[J]. Computer Simulation, 2019,36(7):191-194.

闻昭权.气泡聚并机理的实验及模型研究[D].湘潭:湘潭大学, 2019.

WEN Zhaoquan. Experimental and model studies on the mechanism of bubble coalescence[D]. Xiangtan: Xiangtan University,2019.

张淑君,吴锤结.气泡之间相互作用的数值模拟[J].水动力学研究与进展,2008,23(6):681-686.

ZHANG Shujun,WU Chuijie. Numerical simulation of the interactions between two three-dimensional deformable bubbles[J]. Chinese Journal of Hydrodynamics,2008,23(6):681-686.

ATA S. Coalescence of bubbles covered by particles[J]. Langmuir, 2008,24(12):6085-6091.

VAN SINT ANNALAND M,DEEN N G,KUIPERS J A M. Numerical simulation of gas bubbles behaviour using a threedimensional volume of fluid method[J]. Chemical Engineering Science,2005,60(11):2999-3011.

WANG Yifan,LIU Hongshun,ZHANG Ziyue,et al. Study on the dynamic evolution of bubbles in oil/pressboard insulation[J]. IEEE Transactions on Dielectrics and Electrical Insulation,2023,30(5):2295-2304.

苑清,齐波,张书琦,等.交直流复合电压下油纸绝缘典型缺陷产气特性[J].电网技术,2018,42(9):3093-3100.

YUAN Qing,QI Bo,ZHANG Shuqi,et al. Gas generating characteristics of oil-paper defect models under composite AC-DC voltage[J]. Power System Technology,2018,42(9):3093-3100.

李显东,刘毅,周古月,等.针—板电极下水中亚音速流注形态与发展过程[J].中国电机工程学报,2018,38(5):1562-1571.

LI Xiandong,LIU Yi,ZHOU Guyue,et al. Morphology and development of underwater subsonic streamer under needle to plane electrodes[J]. Proceedings of the CSEE,2018,38(5):1562-1571.

LI Jingsen,WEN Xiaoqiong,LIU Xinghui,et al. A study on the primary mode of pulsed positive streamer discharge in water[J]. IEEE Transactions on Plasma Science,2019,47(3):1514-1519.

李显东,何桦,肖天飞,等.水中超长脉冲放电的预击穿过程研究[J].中国电机工程学报,2021,41(17):6100-6107.

LI Xiandong,HE Hua,XIAO Tianfei,et al. Study on pre breakdown process of underwater ultra - long discharge[J]. Proceedings of the CSEE,2021,41(17):6100-6107.

胡振宇,曹卓尔,李帅,等.水中高压脉动气泡与浮体流固耦合特性研究[J].力学学报,2021,53(4):944-961.

HU Zhenyu,CAO Zhuoer,LI Shuai,et al. Fluid - structure interaction between a high-pressure pulsating bubble and a floating structure[J]. Chinese Journal of Theoretical and Applied Mechanics,2021,53(4):944-961.

CUI P,ZHANG A M,WANG S P. Small-charge underwater explosion bubble experiments under various boundary conditions[J]. Physics of Fluids,2016(28):117103

李帅,张阿漫,韩蕊.水中高压脉动气泡水射流形成机理及载荷特性研究[J].力学学报,2019,51(6):1666-1681.

LI Shuai,ZHANG Aman,HAN Rui. The mechanism of jetting behaviors of an oscillating bubble[J]. Chinese Journal of Theoretical and Applied Mechanics,2019,51(6):1666-1681.

刘波洋,蔡新景.气泡放电对变压器油流注放电的影响[J].电机与控制应用,2024,51(5):90-99.

LIU Boyang,CAI Xinjing. Effect of bubble discharge on transformer oil streamer discharge[J]. Electric Machines&Control Application,2024,51(5):90-99.

THIRUMURUGAN C,KUMBHAR G B,ORUGANTI R. Effects of impurities on surface discharges at synthetic ester/cellulose board[J]. IEEE Transactions on Dielectrics and Electrical Insulation, 2019,26(1):64-71.

ZHANG Ruobing,LI Xin,WANG Zhiyuan. Pattern of bubble evolution in liquids under repetitive pulsed power[J]. IEEE Transactions on Dielectrics and Electrical Insulation,2019,26(2):353-360.

ADDA P,LESAINT O,BOUSSETTA N,et al. Vapor bubble and streamer initiation in water under long duration impulses[J]. IEEE Transactions on Dielectrics and Electrical Insulation,2018,25(5):1967-1973.

管显涛.水中等离子体放电气泡动力学实验研究[D].杭州:浙江大学,2020.

GUAN Xiantao. Experimental studies on the bubble dynamics generated by underwater discharge[D]. Hangzhou: Zhejiang University,2020.

GADZHIEV M K,TYUFTYAEV A S,IL'ICHEV M V. Single bubble of an electronegative gas in transformer oil in the presence of an electric field[J]. Technical Physics,2017,62(10):1500-1504.

李云鹏.气泡在油纸绝缘中的分子积聚微观机制与迁移动力学过程研究[D].北京:华北电力大学,2023.

LI Yunpeng. Study on molecular accumulation mechanism and migration dynamics of bubbles in oil paper insulation[D]. Beijing:North China Electric Power University,2023.

赵涛.气泡和纤维素颗粒对变压器油冲击击穿特性影响研究[D].北京:华北电力大学,2017.

ZHAO Tao. Research of the effect of bubbles and celluloseparticles on impulse breakdown in transformer oil[D]. Beijing:North China Electric Power University,2017.

ZHANG Rui,ZHANG Qiaogen,GUO Chong,et al. Bubbles in transformer oil: Dynamic behavior, internal discharge, and triggered liquid breakdown[J]. IEEE Transactions on Dielectrics and Electrical Insulation,2022,29(1):86-94.

张君颖,吴楠,王野,等.基于放电统计参数动态变化率的油浸芳纶绝缘纸局部放电发展过程研究[J].绝缘材料,2022, 55(3):72-77.

ZHANG Junying,WU Nan,WANG Ye,et al. Partial discharge development process of oil-immersed aramid paper based on dynamic change rate of discharge statistical parameters[J]. Insulating Materials,2022,55(3):72-77.

魏意恒,杨丽君,徐治仁,等.“快速发展型”放电故障及其对油纸绝缘的损伤特性[J].电工技术学报,2022,37(4):1020-1030.

WEI Yiheng,YANG Lijun,XU Zhiren,et al. The rapid development-type discharge failure and its damage characteristics to oil-paper insulation[J]. Transactions of China Electrotechnical Society,2022,37(4):1020-1030.

JANANI H,KORDI B,JOZANI M J. Classification of simultaneous multiple partial discharge sources based on probabilistic interpretation using a two-step logistic regression algorithm[J]. IEEE Transactions on Dielectrics and Electrical Insulation,2017, 24(1):54-65.

孙长海,苏晓敏,李天伦,等.基于概率神经网络的油纸绝缘局部放电发展阶段识别[J].高压电器,2022,58(1):138-147.

SUN Changhai,SU Xiaomin,LI Tianlun,et al. Development stage recognition of partial discharge in oil-paper insulation based on probabilistic neural network[J]. High Voltage Apparatus,2022,58 (1):138-147.

李玉杰,路永玲,王真,等.基于多物理量的GIS绝缘件沿面放电阶段划分策略研究[J/OL].高压电器,1-8[2025-09-18].

https://link.cnki.net/urlid/61.1127.TM.20250217.1124.002. LI Yujie,LU Yongling,WANG Zhen,et al. Division strategy study for gas insulation surface discharge stage based on multi-physical information[J/OL]. High Voltage Apparatus,1-8[2025-09-18]. https://link.cnki.net/urlid/61.1127.TM.20250217.1124.002.

邢亚东,董明,刘阳,等.针板电极下酯类绝缘油放电特性及产气规律研究[J].电网技术,2024,48(1):405-415.

XING Yadong,DONG Ming,LIU Yang,et al. Discharge characteristics and gas production laws of ester insulating oil under needle-plate electrode[J]. Power System Technology,2024,48(1):405-415.

范文杰,张志斌,夏昌杰,等.多手段测量下的油纸绝缘针板电极局部放电的演化规律分析[J].高电压技术,2022,48(3):914-927.

FAN Wenjie,ZHANG Zhibin,XIA Changjie,et al. Evolution law of partial discharge of oil-paper insulated needle-plate electrode based on multi-method measurement[J]. High Voltage Engineering, 2022,48(3):914-927.

LI Yanqing,HAO Jian,LIAO Ruijin,et al. Charge injection suppression and breakdown strength enhancement of cellulose pressboard via Al 2 O 3 /PTFE functional film depositing[J ] . IEEE Transactions on Dielectrics and Electrical Insulation,2022,29(3):1011-1021.

关毅,翁凌,刘春晖,等.静电纺丝聚酰亚胺绝缘纸孔隙结构对其浸渍与击穿特性的影响[J].中国电机工程学报,2025, 45(2):769-777.

GUAN Yi,WENG Ling,LIU Chunhui,et al. Effect of pore structure of electrospun polyimide insulating paper on its impregnation and breakdown characteristics[J]. Proceedings of the CSEE,2025,45(2):769-777.

姜楠,李志阳,孙新怡,等.纳米SiO 2 掺杂协同等离子体氟化改性纤维素绝缘纸[J ] .中国电机工程学报,2025,45(8):3260-3269.

JIANG Nan,LI Zhiyang,SUN Xinyi,et al. Modification of cellulose insulating paper by nano - SiO 2 doping and plasma fluorination[J ] . Proceedings of the CSEE,2025,45(8):3260-3269.

KADIM E J,NOORDEN Z A,ADZIS Z,et al. Nanoparticle effects on the electrical and thermal performance of the transformer mineral oil[J]. IEEE Transactions on Dielectrics and Electrical Insulation,2023,30(5):1932-1940.

FILHO A A P,LUNA F M T,CAVALCANTE C L. Oxidative stability of mineral naphthenic insulating oils:Optimization of commercial antioxidants and metal passivators[J]. IEEE Transactions on Dielectrics and Electrical Insulation,2019,26(1):240-246.

LIAO Ruijin,LIANG Shuaiwei,YANG Lijun,et al. Comparison of ageing results for transformer oil-paper insulation subjected to thermal ageing in mineral oil and ageing in retardant oil[J]. IEEE Transactions on Dielectrics and Electrical Insulation,2012,19(1):225-232.

朱孟兆,朱文兵,王建,等.一种油中溶解气体的扩散模拟试验方法及装置:ZL202411649559.7[P].2025.

ZHU Mengzhao,ZHU Wenbing,WANG Jian,et al.A diffusion simulation test method and device for dissolved gases in oil:ZL202411649559.7[P].2025.

XIA Suyi,PAN Cheng,YAO Yuhuang,et al. Bridging characteristics of cellulosic particles in flowing transformer oil[J]. IEEE Transactions on Dielectrics and Electrical Insulation,2023,30(3):1056-1065.

ZHAO Tao,TONG Yixin,ZHENG Yameng,et al. Experimental study on bubble effect of oil-paper insulation in natural ester[J]. IEEE Transactions on Dielectrics and Electrical Insulation,2022, 29(6):2387-2393.

王金铜,温刚,姜东飞,等.含金属微粒流动变压器油的直流局部放电与击穿特性研究[J].绝缘材料,2023,56(9):66-70.

WANG Jintong,WEN Gang,JIANG Dongfei,et al. DC partial discharge and breakdown characteristics of flowing transformer oil containing metal particles[J]. Insulating Materials ,2023,56(9):66-70.

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