Simulation of Surface Discharge Based on the Different Ratio of Dielectric Constants of Oil and Papers
Chen Gang1, Huang Zhengyong1, Duan Yu1, Li Jian1, Yao Degui2
1. State Key Laboratory of Power Transmission Equipment & System Security and New Technology Chongqing University Chongqing 400044 China; 2. State Grid He'nan Electric Power Corporation Electric Power Research Institute Zhengzhou 450052 China
Abstract:Oil-paper insulation system is an essential part of transformer insulation, and oil-paper surface discharge is one of the main causes of transformer failure. In this paper, the mathematical model and multi-physical field simulation model of oil-paper discharge were constructed by Gauss and current continuity equations. The discharge characteristics when the paperboard respectively parallel and perpendicular to the electric field direction in different oil / paper dielectric constant ratio systems under positive lightning impulse voltage were studied. The electric field and space charge distribution characteristics in pure oil and the oil with pressboard existed were analyzed. The influence of different oil/paper dielectric constant ratios on the streamer propagation path was analyzed. The results show that the oil/paper dielectric constant ratio directly affects the development morphology of the streamer. The higher the difference, the easier the streamer grows along the pressboard surface and the more uneven distribution of the electric field. This research has important guiding significance for the design and material selection of the oil-paper insulation system.
陈刚, 黄正勇, 段瑜, 李剑, 姚德贵. 基于不同油纸介电常数配比的油纸沿面放电仿真[J]. 电工技术学报, 2020, 35(zk2): 620-628.
Chen Gang, Huang Zhengyong, Duan Yu, Li Jian, Yao Degui. Simulation of Surface Discharge Based on the Different Ratio of Dielectric Constants of Oil and Papers. Transactions of China Electrotechnical Society, 2020, 35(zk2): 620-628.
[1] Aparna N, Nilesh J V.Influence of ambient medium on thermal ageing of pressboard in transformer oil containing dibenzyl disulphide (DBDS)[J]. IEEE Transactions on Dielectrics and Electrical Insulation, 2017, 24(5): 2836-2846. [2] Zhou Yuanxiang, Jin Fubo.Effects of DC prestressing on partial discharge in oil-impregnated pressboard insulation[J]. IEEE Transactions on Dielectrics and Electrical Insulation, 2015, 23(1): 460-468. [3] Sokolov V, Vanin B.Evaluation of power transformer insulation through measurement of dielectric characteristics[C]//Proceedings of the 63th Annual International Conference of Doble Clients, Boston, 1996. [4] Abderrahim R, Moulai H.Comparison of dielectric properties of olive oil,mineral oil,and other natural and synthetic ester liquids under AC and lightning impulse stresses[J]. IEEE Transactions on Dielectrics and Electrical Insulation, 2018, 25(5): 1822-1830. [5] Martin D.Evaluation of the dielectric capability of ester based oils for power transformers[D]. Manchester: The University of Manchester, 2007. [6] Li Jian, Zhang Zhaotao.A new mathematical model of moisture equilibrium in mineral and vegetable oil-paper insulation[J]. IEEE Transactions on Dielectrics and Electrical Insulation, 2012, 19(5): 1615-1622. [7] 王有元, 李熙, 李原龙, 等. 交直流复合电压下铜颗粒在油中的分布及对绝缘油击穿特性的影响[J]. 电工技术学报, 2018, 33(23): 5581-5590. Wang Youyuan, Li Xi, Li Yuanlong, et al.Distribution of copper particle in insulating oil and its influence on breakdown strength of insulating oil under combined AC and DC voltage[J]. Transactions of China Electrotechnical Society, 2018, 33(23): 5581-5590. [8] Martin D.Further studies of a vegetable-oil-filled power transformer[J]. IEEE Electrical Insulation Magazine, 2011, 27(5): 6-13. [9] 齐波, 魏振, 李成榕, 等. 交直流复合电场中油纸绝缘沿面放电现象及特征[J]. 电工技术学报, 2016, 31(10): 59-67. Qi Bo, Wei Zhen, Li Chengrong, et al.The phenomena and characteristics of oil-paper insulation surface discharge under AC and DC voltage[J]. Transactions of China Electrotechnical Society, 2016, 31(10): 59-67. [10] 吴昊, 齐波, 李成榕, 等. 基于Kerr效应法的油纸复合绝缘交直流复合电场测量[J]. 电工技术学报, 2013, 28(4): 28-34. Wu Hao, Qi Bo, Li Chengrong, et al.The measurement of AC-DC composite field for oil-paper insulation system based on the Kerr electro-optic effect[J]. Transactions of China Electrotechnical Society, 2013, 28(4): 28-34. [11] 廖瑞金, 王季宇, 袁媛, 等. 换流变压器下新型纤维素绝缘纸特性综述[J]. 电工技术学报, 2016, 31(10): 1-15. Liao Ruijin, Wang Jiyu, Yuan Yuan, et al.Review on the characteristic of new cellulose insulation paper used in the converter transformer[J]. Transactions of China Electrotechnical Society, 2016, 31(10): 1-15. [12] 李剑, 姚舒瀚, 杜斌, 等. 植物绝缘油及其应用研究关键问题分析与展望[J]. 高电压技术, 2015, 41(2): 353-363. Li Jian, Yao Shuhan, Du Bin, et al.Analysis to principle problems and future prospect of research on vegetable insulating oils and their application[J]. High Voltage Engineering, 2015, 41(2): 353-363. [13] Martins M G.Vegetable oils, an alternative to mineral oil for power transformers-experimental study of paper aging in vegetable oil versus mineral oil[J]. IEEE Electrical Insulation Magazine, 2010, 26(6): 7-13. [14] Yang Lijun, Liao Ruijin, Sun Caixin, et al.Influence of vegetable oil on the thermal aging of transformer paper and its mechanism[J]. IEEE Transactions on Dielectrics and Electrical Insulation, 2011, 18(3): 692-700. [15] Coulibaly M L, Perrier C, Marugan M, et al.Aging behavior of cellulosic materials in presence of mineral oil and ester liquids under various conditions[J]. IEEE Transactions on Dielectrics and Electrical Insulation, 2013, 20(6): 1971-1976. [16] Frimpong G K, Oommen T V, Asano R.A survey of aging characteristics of cellulose insulation in natural ester and mineral oil[J]. IEEE Electrical Insulation Magazine, 2011, 27(5): 36-48. [17] Liu Qiang, Wang Zhongdong.Streamer characteristic and breakdown in synthetic and natural ester transformer liquids with pressboard interface under lightning impulse voltage[J]. IEEE Transactions on Dielectrics and Electrical Insulation, 2011, 18(6): 1908-1917. [18] Jae-Won G H. Elucidating the mechanisms behind pre-breakdown phenomena in transformer oil systems[D]. Cambridge: Massachusetts Institute of Technology, 2010. [19] Jadidian J.Charge transport and breakdown physics in liquid/solid insulation systems[D]. Cambridge: Massachusetts Institute of Technology, 2013. [20] Li Jian, Wang Yachao, Wang Feipeng, et al.A study on ionization potential and electron trap of vegetable insulating oil related to streamer inception and propagation[J]. Physics Letters A, 2017, 381(44): 3732-3738. [21] Zahn M.Electromagnetic field theory: a problem solving approach[M]. New York: Robert E. Krieger Publishing Company, 2003. [22] Anker M U. Effect of test geometry, permittivity matching and metal particles on the flashover voltage of oil/solid interfaces[J]. IEEE Transactions on Power Apparatus & Systems, 1983, PAS-102(12): 3796-3802. [23] Taylor R J.Effect of permittivity matching on the flashover of solid/liquid interfaces[J]. Proceedings of IEE, 1977, 124(10): 899-904.
2020, Vol. 35 
