Preparation and performance of a low relative permittivity insulation paper

2012 International Conference on High Voltage Engineering and Application Pub Date : 2012-11-26 DOI:10.1109/ICHVE.2012.6357023

Tuan Liu, R. Liao, F. Zhang, Lijun Yang

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引用次数: 3

Abstract

SiO2 hollow spheres and K-SiO2 insulation paper handsheets composed of these SiO2 hollow spheres with different weight percentages were synthesized. SiO2 hollow spheres with a low content were uniformly dispersed. However, the SiO2 hollow spheres locally aggregated with increased concentration. The relative permittivities of the immersed oil K-SiO2 handsheets initially decreased and then increased with increased SiO2 hollow sphere content. K-5% SiO2 had the lowest relative permittivity. Simulation analysis indicated that the electric field distribution between the two test electrodes was uniform. The breakdown voltage of the paper-oil-paper composite insulation system increased with decreased relative permittivity of the paper. The breakdown voltage of the composite insulation system increased from 26.4 kV to 30.5 kV when the relative permittivity of the paper decreased from 2.55 to 1.68. The experimental results were also consistent with the theoretically calculated data. And in the paper-oil-paper composite insulation system, the electric field strength of the oil gap decreased with decreased relative permittivity of the paper.

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低相对介电常数绝缘纸的制备及其性能

合成了SiO2空心球和由不同重量百分比的SiO2空心球组成的K-SiO2绝缘纸手纸。低含量SiO2空心球均匀分散。随着SiO2浓度的增加，SiO2空心球局部聚集。随着SiO2空心球含量的增加，浸油K-SiO2手板的相对介电常数先降低后升高。K-5% SiO2的相对介电常数最低。仿真分析表明，两个测试电极之间的电场分布均匀。纸-油纸复合绝缘系统的击穿电压随着纸的相对介电常数的降低而升高。复合绝缘系统的击穿电压由26.4 kV提高到30.5 kV，而纸的相对介电常数由2.55降低到1.68。实验结果也与理论计算数据相吻合。在纸-油纸复合绝缘系统中，油隙的电场强度随着纸的相对介电常数的减小而减小。

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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2012 International Conference on High Voltage Engineering and Application

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