Conduction and Electric Fields in Dielectric Liquids in Needle-to-Plane Gaps
Peer reviewed, Journal article
Accepted version
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Date
2024Metadata
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- Publikasjoner fra CRIStin - SINTEF Energi [1614]
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Original version
10.1109/TDEI.2024.3377178Abstract
This paper describes measurements of conduction currents in both neat and commercial insulating liquids. Conduction in thermodynamic equilibrium has been measured by applying a low ac voltage in a uniform field. High-field pre-discharge currents have been measured in a needle-to-plane configuration stressed with respectively high voltage ac and steep step high voltage pulses. There was significantly increased conduction for high field compared to low field conditions. Notably, measurements at high fields in needle-plane configurations indicate space charge limitation of currents with polarity differences. The high field conduction exhibited considerable variation across different liquids. At high applied fields, electronic processes are probably governing the charge formation. Simulations indicate that space charges may reduce the local field in front of needle tips at time scales relevant for propagating streamers. Conduction and Electric Fields in Dielectric Liquids in Needle-to-Plane Gaps