Page 143 - 《中国电力》2026年第5期

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王震宇等：基于电-热-力耦合的复杂工况配网避雷器应力分布 2026 年第 5 期

流时，氧化锌电阻片界面应力增加了 16.0%，复 [6] 李旭涛, 周洋, 常启诚, 等. 考虑电制氢辅助的配电网两阶段电压优
杂工况下，氧化锌电阻片界面应力增加了 15.6%。化控制方法 [J]. 中国电力, 2026, 59(2): 81–89.
3）氧化锌避雷器同时承受不平衡受力与雷电 LI Xutao, ZHOU Yang, CHANG Qicheng, et al. Two-stage voltage
流冲击的复杂运行工况时，会出现应力非线性增 optimization control method for hydrogen-production-assisted
强现象。单一雷击的复杂运行工况，氧化锌电阻 distribution networks[J]. Electric Power, 2026, 59(2): 81–89.
片界面应力增加了 25.5%，而多重雷击的复杂运 [7] 姜楠楠, 王文浩, 蔺家骏, 等. 基于泄漏电流三相不平衡度的避雷器
行工况，氧化锌电阻片界面处应力增加了 25.8%。在线监测优化方案 [J]. 浙江电力, 2024, 43(5): 116–124.
未来可在本文研究基础上进一步深化对配网 JIANG Nannan, WANG Wenhao, LIN Jiajun, et al. An optimal
避雷器在复杂运行工况下应力分布特征的研究。 online monitoring scheme for lightening arresters based on the
引入材料疲劳与老化模型，探究复杂工况作用下 threephase imbalance of leakage current[J]. Zhejiang Electric Power,
避雷器材料的性能演变规律，为其寿命预测提供 2024, 43(5): 116–124.
理论依据。 [8] 张佩瑄, 韩永霞, 施剑峰, 等. 考虑多重雷击的 10 kV 线路避雷器雷
击失效率计算方法 [J]. 广东电力, 2026, 39(1): 96–105.
参考文献： ZHANG Peixuan, HAN Yongxia, SHI Jianfeng, et al. Calculation

method for lightning failure rate of 10 kV line arresters considering
[1] 李可昀, 张宁, 赵乐, 等. 输变电工程关键电力设备与材料碳排放核 multiple lightning strikes[J]. Guangdong Electric Power, 2026, 39(1):
算方法 [J]. 中国电力, 2025, 58(4): 193–204. 96–105.
LI Keyun, ZHANG Ning, ZHAO Le, et al. Carbon emission [9] 叶文瑶, 陆翌, 钱政旭, 等. 交流系统运行频率提升对换流站过电压
accounting methods for key electric equipment and materials in 特性和设备绝缘水平的影响研究 [J]. 浙江电力, 2025, 44(10): 1–9.
power transmission and transformation projects[J]. Electric Power, YE Wenyao, LU Yi, QIAN Zhengxu, et al. Study on the impact of
2025, 58(4): 193–204. AC system operating frequency elevation on overvoltage
[2] 许光, 匡军, 宋红艳, 等. 面向低压配电台区拓扑结构采集的馈线终 characteristics and equipment insulation levels of converter
端优化配置方法 [J]. 中国电力, 2025, 58(3): 151–161. stations[J]. Zhejiang Electric Power, 2025, 44(10): 1–9.
XU Guang, KUANG Jun, SONG Hongyan, et al. An optimization [10] 丁璠. 频繁过电压下动车组车顶避雷器老化特性与监测技术 [D].
method for configuration of line terminal units based on topology- 北京: 北京交通大学, 2022.
based data collection in low-voltage distribution areas[J]. Electric DING Fan. Aging characteristics and monitoring technology of roof
Power, 2025, 58(3): 151–161. arrester of EMU under frequent overvoltage[D]. Beijing: Beijing
[3] 李一诺, 刘玮, 魏兴慎, 等. 网络攻击场景下含分布式光伏配电网的 Jiaotong University, 2022.
脆弱性研究 [J]. 综合智慧能源, 2024, 46(5): 50–57. [11] 罗超月岭, 李智威, 徐祯雨, 等. 配电网设备资产运检成本影响因素
LI Yinuo, LIU Wei, WEI Xingshen, et al. Research on vulnerability 评价分析 [J]. 中国电力, 2023, 56(7): 216–227.
of distribution networks with distributed photovoltaic under cyber LUO Chaoyueling, LI Zhiwei, XU Zhenyu, et al. Evaluation and
attacks[J]. Integrated Intelligent Energy, 2024, 46(5): 50–57. analysis of factors affecting operation and inspection cost of
[4] 裴梓翔, 舒恺, 周勋甜, 等. 基于信息融合的配网线路雷害风险评 distribution network equipment assets[J]. Electric Power, 2023,
估 [J]. 中国电力, 2024, 57(7): 125–131. 56(7): 216–227.
PEI Zixiang, SHU Kai, ZHOU Xuntian, et al. Lightning risk [12] S. F. Elzoghby, M. E. Ibrahim, A. M. Abd-Elhady, et al. A proposed
assessment of distribution network line based on information resistive and capacitive current decoupling method for surge
fusion[J]. Electric Power, 2024, 57(7): 125–131. arresters[J]. IEEE Sensors Journal, 2025, 21734-21743.
[5] 马刚, 马健, 颜云松, 等. 基于多智能体强化学习的配电网电压分散 [13] 马御棠, 束洪春, 钱国超, 等. 基于频域介电谱曲线分解的氧化锌避
控制 [J]. 综合智慧能源, 2024, 46(10): 32–39. 雷器老化状态评估 [J]. 电工技术学报, 2024, 39(3): 901–913.
MA Gang, MA Jian, YAN Yunsong, et al. Decentralized voltage MA Yutang, SHU Hongchun, QIAN Guochao, et al. Method for
control of distribution network based on multi-agent reinforcement evaluating the aging state of ZnO arrester based on curve decom-
learning[J]. Integrated Intelligent Energy, 2024, 46(10): 32–39. position of frequency domain dielectric spectrum[J]. Transactions of

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