Water trees in polyethylene insulated power cables: Approach to water trees initiation mechanism

•The minimum electric field required to initiate the electric tree has been investigated.•A new breakdown equation for water tree with breakdown index has been introduced.•A new introduced mechanical ratio index LcrPm has been presented. Water trees occurring in polyethylene (PE) insulated power cab...

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Bibliographic Details
Published in:Electric power systems research 2020-03, Vol.180, p.106158, Article 106158
Main Authors: El-Zein, A., Mohamed, Kh, Talaat, M.
Format: Article
Language:English
Subjects:
Bouquet size
Breakdown
Cables
Cracks
Cross-linked polyethylene
Diameters
Electric fields
High density polyethylenes
Insulation
Internal pressure
Low density polyethylenes
Polyethylene
Power cables
Solid dielectric
Tree inception field
Trees
Water tree length
Water trees
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Summary:•The minimum electric field required to initiate the electric tree has been investigated.•A new breakdown equation for water tree with breakdown index has been introduced.•A new introduced mechanical ratio index LcrPm has been presented. Water trees occurring in polyethylene (PE) insulated power cables at defects exist on the inner or outer semiconductor layers or in PE insulation medium. Water trees start with the existence of water source and penetration under the action of high electric fields. The inevitable micro air voids (1 μm radius) in PE medium with an internal pressure 4450 Torr, and 2.3 dielectric constant, will lead to an electric field (E) of 1.08 MV/cm which can be called tree inception field (Ei). For a protrusion defect of 200 μm tip radius and 2.5 mm insulation thickness, the minimum required breakdown field in PE is 0.417 MV/cm at 2.5 per unit (pu) over voltages. In this paper a new breakdown equation has been introduced related to the injected energy (U), electric field (E) and air void radius (r) with the so called breakdown index (n) under two cases: First case, for n
ISSN:0378-7796
1873-2046
DOI:10.1016/j.epsr.2019.106158