You Zhou scite author profile

Transformer oil-based nanofluids with TiO2 semiconductive nanoparticles exhibit substantially higher AC and positive impulse breakdown voltage levels than that of pure transformer oils. Thermally stimulated current method (TSC) and pulse electroacoustic technique (PEA) have been used to measure charge trap and transportation characteristics of pure oils and nanofluids. It is found that electron shallow trap density and charge decay rate are greatly increased in nanofluids, i.e., fast electrons may be converted to slow electrons by electron trapping and de-trapping in shallow traps of nanofluids, resulting in improved breakdown performance compared to that of pure oil.

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Fabrication and properties of ultra highly porous silicon carbide by the gelation–freezing method

Fukushima

Nakata

Zhou

et al. 2010

Journal of the European Ceramic Society

113

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Insulating properties and charge characteristics of natural ester fluid modified by TiO₂ semiconductive nanoparticles

Zhong

et al. 2013

IEEE Trans. Dielect. Electr. Insul.

118

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You Zhou

A Tough Silicon Nitride Ceramic with High Thermal Conductivity

Use of vegetable oils as transformer oils – a review

Effect of electron shallow trap on breakdown performance of transformer oil-based nanofluids

Fabrication and properties of ultra highly porous silicon carbide by the gelation–freezing method

Insulating properties and charge characteristics of natural ester fluid modified by TiO₂ semiconductive nanoparticles

Contact Info

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Resources

About

You Zhou

A Tough Silicon Nitride Ceramic with High Thermal Conductivity

Use of vegetable oils as transformer oils – a review

Effect of electron shallow trap on breakdown performance of transformer oil-based nanofluids

Fabrication and properties of ultra highly porous silicon carbide by the gelation–freezing method

Insulating properties and charge characteristics of natural ester fluid modified by TiO2 semiconductive nanoparticles

Contact Info

Product

Resources

About

Insulating properties and charge characteristics of natural ester fluid modified by TiO₂ semiconductive nanoparticles