Development and pattern identification of end-winding discharge under effect of relative humidity and temperature for HV motors

Abstract

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During operation of high voltage (HV) motors, different types of discharges, e.g. surface discharge, corona discharge and bar-to-bar discharge can occur at the same time, increasing the difficulty of partial discharge (PD) sources determination and PDs pattern identification. In this study, the end-winding of a 10 kV motor coil was artificially aged and the related PD was measured. The initiation and variation of different PDs under multi-factor stresses were studied. The localised fingerprints coexisting with multiple PDs were identified and analysed. The results confirm that the end-winding discharge process was significantly influenced by the experiment relative humidity (RH) and temperature. The bar-to-bar discharge was easily recognised at a lower voltage since the identification of bar-to-bar discharge pattern would be affected by the corona discharge pattern at a higher voltage. It is shown that it is more difficult for the corona discharge to be detected when RH exceeded 80%, while the surface discharge dominated at the higher RH. In addition, the PDs were more easily identified with the rise of the temperature. This study can provide a reference in PD identification test and be useful for the PD online monitoring of HV motors.

Keywords

• partial discharges
• corona
• machine testing
• electric motors
• pattern identification
• hv motors
• high voltage motors
• surface discharge
• motor coil
• end-winding discharge process
• experiment relative humidity
• bar-to-bar discharge pattern
• corona discharge pattern
• pd identification test
• partial discharge source determination
• multifactor stresses
• voltage 10.0 kv