Spatial Electric Field Characteristics in Large-scale Oil-pressboard Insulation Structure under Impulse Voltage

2021 International Conference on Advanced Electrical Equipment and Reliable Operation (AEERO) Pub Date : 2021-10-15 DOI:10.1109/AEERO52475.2021.9708162

Shuqi Zhang, Ke Zhu, Lin Wang, C. Gao, B. Qi, Chenxing Ding

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Abstract

The reliable manufacture of the oil-pressboard insulation system of converter transformer largely depends on numerical calculation and electric field measurement under the simple equivalent model. It lacks electric field measurement verification under large-scale complex structure. The electric field characteristics in the large-scale valve-side outlet device model of the ± 800kV converter transformer under impulse voltage with different voltage amplitudes and different wavefront times was obtained in this paper. The actual measurement results show that the value of field intensity in three transformer oil-spacing will increase with the rise of the applied voltage amplitude. The peak value of field intensity in transformer oil-spacing would decrease with the rise of wavefront time. In the same oil-spacing, the closer the measuring point to the electrode of applied voltage, the bigger the peak value of field intensity, but the maximum deviation is about 3.61%, which may be due to the little accumulation of interface charge under lightning impulse voltage.

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冲击电压作用下大型油压板绝缘结构的空间电场特性

换流变压器油压板绝缘系统的可靠制造在很大程度上依赖于简单等效模型下的数值计算和电场测量。缺乏大型复杂结构下的电场测量验证。本文得到了±800kV换流变压器在不同电压幅值和不同波前次数冲击电压下的大型阀侧出口装置模型中的电场特性。实测结果表明，三种变压器油距的场强值均随外加电压幅值的增大而增大。随着波前时间的增加，变压器油距内的场强峰值逐渐减小。在相同油距下，测点越靠近施加电压的电极，场强峰值越大，但最大偏差约为3.61%，这可能是雷击电压作用下界面电荷积累较少所致。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2021 International Conference on Advanced Electrical Equipment and Reliable Operation (AEERO)

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