Litcius/Paper detail

Medium voltage XLPE cable condition assessment using frequency domain spectroscopy

Ali Naderian Jahromi, Pranav Pattabi, J. Densley, L. Lamarre

2020IEEE Electrical Insulation Magazine25 citationsDOI

Abstract

Cables are valuable assets, critical for ensuring the continued reliability of electric power delivery. XLPE cable systems have become increasingly ubiquitous, since their introduction in the 1960s. Improvements in the XLPE manufacturing technology resulted in the advent of tree-retardant XLPE (TRXLPE) type cables in the 1980s. Most of the distribution utilities have already either initiated or completed the process of replacing their old PILC cable infrastructure with polymeric type cables. However, the XLPE cable systems are still prone to accelerated aging due to water treeing and thermal aging effects. Water trees are bush-like structures that develop under service, specifically due to the presence of moisture [1]. Figure 1 shows the different densities of water tree formation in XLPE cables, from light to extremely large.

Topics & Concepts

Electrical treeingMaterials sciencePower cableReliability (semiconductor)Direct-buried cableElectrical engineeringForensic engineeringMoistureVoltageComposite materialEngineeringPower (physics)Cable harnessCable glandPartial dischargeQuantum mechanicsPhysicsLayer (electronics)Cable theoryHigh voltage insulation and dielectric phenomenaPower Transformer Diagnostics and InsulationLightning and Electromagnetic Phenomena