Influence of hydrostatic pressure on morphology and final length of creeping discharges over solid/liquid interfaces under impulse voltages

This paper is aimed at the influence of hydrostatic pressure on the morphology and final length of creeping discharges propagating over solid / liquid insulating surfaces in a point-plane electrode arrangement submitted to lightning impulse voltages. Three types of solid insulators (namely polycarbo...

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Hauptverfasser:	Beroual, A., Kebbabi, L.
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Dielectric liquids Discharges Electric power Electrodes Engineering Sciences Insulators Lightning Materials Solids
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creator	Beroual, A. Kebbabi, L.
description	This paper is aimed at the influence of hydrostatic pressure on the morphology and final length of creeping discharges propagating over solid / liquid insulating surfaces in a point-plane electrode arrangement submitted to lightning impulse voltages. Three types of solid insulators (namely polycarbonate, phenoplast resin (Bakelite) and glass), immersed in mineral oil are tested. It is shown that the length of branches constituting the discharges are reduced when the hydrostatic pressure is increased whatever the polarity of the voltage. The final length of discharges L f increases quasi-linearly with the voltage and decreases when the hydrostatic pressure is increased for both positive and negative polarities as observed elsewhere under AC and DC. On the other hand, for given voltage and pressure, L f increases with the dielectric constant of solid materials indicating the important role of the capacitive effects in the propagation mechanism.
doi_str_mv	10.1109/ICDL.2008.4622472
format	Conference Proceeding
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Three types of solid insulators (namely polycarbonate, phenoplast resin (Bakelite) and glass), immersed in mineral oil are tested. It is shown that the length of branches constituting the discharges are reduced when the hydrostatic pressure is increased whatever the polarity of the voltage. The final length of discharges L f increases quasi-linearly with the voltage and decreases when the hydrostatic pressure is increased for both positive and negative polarities as observed elsewhere under AC and DC. 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subjects	Dielectric liquids Discharges Electric power Electrodes Engineering Sciences Insulators Lightning Materials Solids
title	Influence of hydrostatic pressure on morphology and final length of creeping discharges over solid/liquid interfaces under impulse voltages
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