Effects of conductivity and permittivity of nanoparticle on transformer oil insulation performance: experiment and theory

Wenxia Sima; Jian Shi; Qing Yang; Sisi Huang; Xuefei Cao

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Effects of conductivity and permittivity of nanoparticle on transformer oil insulation performance: experiment and theory

机译：纳米电导率和介电常数对变压器油绝缘性能的影响：实验和理论

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The mechanisms by which conductive and dielectric nanoparticles (NPs) trap electrons are explained by the potential well distribution caused by induced or polarized charges on NPs. Thus, the distributions of surface and saturation charges on conductive and dielectric NPs are determined. Given conductive FeO, semiconductive TiO, and dielectric AlO NPs, insulation performance tests are conducted and ionization models of nanofluids (NFs) based on transformer oil are developed. These models are compared with those of NFs based on pure oil. The NP whose conductivity or permittivity does not match that of the dielectric liquid has a potential well and an increased amount of saturation charges on its interface. This NP influences streamer development strongly and enhances the breakdown of oil-based NF.

机译：导电和介电纳米粒子（NPs）捕获电子的机制由NPs上感应或极化的电荷引起的势阱分布来解释。因此，确定了导电和电介质NP上的表面电荷和饱和电荷的分布。在给定导电性FeO，半导体TiO和电介质AlO NP的情况下，进行了绝缘性能测试，并开发了基于变压器油的纳米流体（NFs）的电离模型。将这些模型与基于纯油的NF的模型进行了比较。电导率或介电常数与介电液体的电导率或介电常数不匹配的NP具有势阱，并且界面上的饱和电荷量增加。该NP强烈影响拖缆的发展并增强油基NF的分解。

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来源
《Dielectrics and Electrical Insulation, IEEE Transactions on》 |2015年第1期|380-390|共11页
作者
Wenxia Sima; Jian Shi; Qing Yang; Sisi Huang; Xuefei Cao;
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作者单位

State Key Lab. of Power Transm. Equip. & Syst. Security & New Technol., Chongqing Univ., Chongqing, China;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
aluminium compounds; dielectric liquids; electrical conductivity; insulation testing; ionisation; iron compounds; nanofluidics; nanoparticles; permittivity; power transformer insulation; titanium compounds; transformer oil; Alsub2/subOsub3/sub; Fesub3/subOsub4/sub; TiOsub2/sub; conductive nanoparticles; dielectric liquid; dielectric nanoparticles; ionization models; nanofluids; potential well distribution; saturation charges; surface charges; transformer oil insulation; Conductivity; Dielectrics; Electric fields; Electric potential; Oil insulation; Permittivity; Power transformer insulation; Conductivity; nanoparticle; oil insulation; permittivity; potential well; streamer;

机译：铝化合物;介电液体;电导率;绝缘测试;电离;铁化合物;纳米流体;纳米粒子;介电常数;电力变压器绝缘;钛化合物;变压器油;Al sub 2 / sub O sub 3 / sub;Fe sub 3 / sub O sub 4 / sub;TiO sub 2 / sub;导电纳米粒子;介电液体;介电纳米粒子;电离模型;纳米流体;势阱分布;饱和度电荷;表面电荷;变压器油绝缘;电导率;电介质;电场;电势;油绝缘;介电常数;电力变压器绝缘;电导率;纳米颗粒;油绝缘;介电常数;势阱;拖缆;

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Effects of conductivity and permittivity of nanoparticle on transformer oil insulation performance: experiment and theory

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