基于TiO2纳米颗粒的纳米流体浸渍纸板直流击穿性能研究

Bingliang Shan, Yanyu Wu, Hanlin Song, Z. Xing, Meng Huang, Bai-xin Liu, Y. Lv, Chengrong Li
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引用次数: 1

摘要

特高压直流输电具有长距离、大容量输电的技术优势,因此得到了广泛的应用,对换流变压器的绝缘性能也提出了严峻的考验。浸渍油压板(OP)具有较高的机械强度和介电性能,是换流变压器的关键绝缘元件之一,其电气性能与空间电荷积累现象密切相关。近年来的实验表明,绝缘纳米流体因其优异的介电性能而引起了人们的广泛关注。同时,TiO2半导体纳米粒子具有较低的介电损耗和较好的修饰效果,被认为是最佳选择。然而,基于TiO2纳米颗粒的纳米流体浸渍压板(NP)的颗粒尺寸、直流击穿电压和空间电荷特性之间的关系在很大程度上仍然不确定,这限制了油/压板绝缘系统性能的提高。本文研究了不同粒径TiO2纳米粒子对油浸压板直流击穿强度的改性效果。此外,还利用脉冲电声方法(PEA)研究了OP和NPs的积累特征。根据实验结果和分析,阐明了颗粒尺寸、直流击穿性能和空间电荷积累特性之间的关系,并提出了一种可能的改性机理。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Research on DC Breakdown Performance of Nanofluid-impregnated Pressboard Based on TiO2 Nanoparticles
UHVDC has been applied widely since it possesses technical advantages in transmission electric power in long distance and large capability, leading to the severe test for the insulation performance of converter transformer. Oil-impregnated pressboard (OP) is one of the key insulating components in converter transformer due to its high mechanical strength and dielectric property, and its electrical performance is strictly related to the phenomenon of space charge accumulation. Recent experiments have shown that the insulation nanofluid has attracted a great deal of attention due to its considerable dielectric performance. Meanwhile, TiO2 semiconductor nanoparticles are considered to be the best choice owing to their low dielectric loss induced and considerable modification effect. However, the relation among particle sizes, DC breakdown voltages and space charge characteristics of nanofluid-impregnated pressboard (NP) based on TiO2 nanoparticles remains largely uncertain, which limits the performance improvement of oil/pressboard insulating system. In this paper, the modification effect on DC breakdown strength of oil-impregnated pressboard based on TiO2 nanoparticles with various sizes has been investigated. Moreover, the accumulation characteristics of OP and NPs were also studied by use of Pulsed Electro Acoustic Method (PEA). According to the experimental results and analysis, the relation among particle sizes, DC breakdown performance and accumulation characteristics of space charge was clarified and a possible modification mechanism has been proposed.
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