1. Simulation of Partial Discharge Propagation Characteristics in XLPE Cables and Joints
- Author
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Hong Jie Li, Bin Liu, Xi Ping Chen, Yu Qi Yang, and Zhen Quan Sun
- Subjects
Engineering ,business.industry ,Wave propagation ,Acoustics ,Finite-difference time-domain method ,Condition monitoring ,General Medicine ,Partial discharge ,Electronic engineering ,Equivalent circuit ,Power cable ,Waveform ,Time domain ,business - Abstract
Accurate Partial discharge (PD) detection and location is of great significance for the power cable insulation condition monitoring. To achieve this, an adequate cable model to analyze pulse propagation is needed. Considering the complex structure of the cable, the equivalent circuit model is no longer applicable. In this paper a numerical electromagnetic method, FDTD, is applied. To analysis wave propagation characteristics in time domain, a well-established cable model is constructed. By simulating the electromagnetic (EM) field propagation inside the cable and the cable joint, the components of the electric fields excited by the PD source in different directions are calculated in order to evaluate the influence of the cable joint in practice, the calculated PD waveforms in the cable are compared with those of the cable joint model in FDTD.
- Published
- 2014
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