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Calculation of electric field and voltage distribution along glass insulator string and optimum design of its grading rings for 1000kV a.c. UHV transmission lines

机译：1000kV交流电沿玻璃绝缘子串的电场和电压分布的计算及其分级环的优化设计特高压输电线路

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Three-dimensional finite element method has been used to calculate the electric field and voltage distribution along glass insulator string for 1000kV a.c. UHV transmission lines. Compared with the test results, it is verified that the calculation results are accurate. Various parametric designs of the grading rings of the glass insulator string have been analyzed. Based on the designs, the orthogonal experimental method has been employed to propose several optimum designs of the grading ring for reducing voltage distribution ratio along the glass insulator string. The optimization of grading rings indicates that the grading effect is preferable when tube diameter r equals to 60 mm, ring diameter R 550mm, height H 350mm and the number of insulators n 52.

机译：已经使用三维有限元方法来计算1000kV交流电沿玻璃绝缘子串的电场和电压分布。特高压输电线路。与测试结果比较，验证了计算结果的准确性。已经分析了玻璃绝缘子串的分级环的各种参数设计。基于这些设计，已采用正交实验方法提出了分级环的几种最佳设计，以降低沿玻璃绝缘子串的电压分配比。优化分级环表明，当管径r等于60 mm，环径R 550mm，高度H 350mm和绝缘子数量n 52时，分级效果更好。

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《Automation Congress Proceedings, 2008 World》||P.1-4|共4页
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Yanzhen Zhao; Hualiang Li; Xikui Ma;
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7. Electric Fields Under Power Lines (Supplement to 'An Examination of Electric Fields Under EHV (Extra-High-Voltage) Overhead Power Transmission Lines') [R] . Wigdor, M. 1980

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Calculation of electric field and voltage distribution along glass insulator string and optimum design of its grading rings for 1000kV a.c. UHV transmission lines

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