Static Electrificatiop Phenomena on Dielectric Materials of SF6 Gas Flow

Inui Akifumi, Kobayashi Tuneo, Teranishi Tuneharu, Ikeda Masami

doi:10.1541/ieejpes1990.118.5_563

In this paper, the static electrification phenomena on the dielectric materials by SF₆ gas flow were investigated. When pure SF₆ gas flows on the dielectric materials at high speed up to 25m/sec, no electrification was observed on the dielectric material surfaces. In case of the flow contained dielectric microscopic particles colliding with dielectric materials, it is confirmed that the SF₆ gas flow of speeds above 5m/sec causes the electrification on the dielectric surfaces. The faster the SF₆ gas flow, the higher the surface potential of the dielectric material is. Such phenomena of static electrification of SF₆ gas contaminated with microscopic dielectric particles were explained to be caused by the friction between the dielectric materials and the dielectric microscopic particles in SF₆. The polarity and the magnitude of the surface potential of the material, after flowing the SF₆ gas contaminated with dielectric particles, are confirmed by the result of a general friction experiment of the two dielectric materials. It is considered that a well-controlled gas insulated transformer not contaminated with microscopic dielectric particles in SF₆ can not generate electrification phenomena.

Static Electrificatiop Phenomena on Dielectric Materials of SF6 Gas Flow

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