Title :
Effects of conductivity and permittivity of nanoparticle on transformer oil insulation performance: experiment and theory
Author :
Wenxia Sima ; Jian Shi ; Qing Yang ; Sisi Huang ; Xuefei Cao
Author_Institution :
State Key Lab. of Power Transm. Equip. & Syst. Security & New Technol., Chongqing Univ., Chongqing, China
Abstract :
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 Fe3O4, semiconductive TiO2, and dielectric Al2O3 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.
Keywords :
aluminium compounds; dielectric liquids; electrical conductivity; insulation testing; ionisation; iron compounds; nanofluidics; nanoparticles; permittivity; power transformer insulation; titanium compounds; transformer oil; Al2O3; Fe3O4; TiO2; 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;
Journal_Title :
Dielectrics and Electrical Insulation, IEEE Transactions on
DOI :
10.1109/TDEI.2014.004277
