Frontiers in Materials (Apr 2022)

Evaluation of Non-Uniform Thermal Aging of XLPE Cable Based on Modified Debye Model

  • Yiyi Zhang,
  • Guangfeng Gu,
  • Jiefeng Liu,
  • Fengyu Jiang,
  • Yufan Fan,
  • Junwei Zha,
  • Junwei Zha

DOI
https://doi.org/10.3389/fmats.2022.838792
Journal volume & issue
Vol. 9

Abstract

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The polarization/depolarization curve (PDC), which contains abundant insulation information, is widely used to evaluate the insulation condition of the cross-linked polyethylene (XLPE) cables. However, the insulation condition assessing the result of the XLPE cables is usually inaccurate using the PDC technology because the parameters of the current Debye model are determined in a uniform aging hypothesis, instead of a real non-uniform situation. To solve this problem, the modified Debye model considering the real non-uniform situation is proposed, and the effectiveness of the modified model is proved by the comparison of the PDC test results with non-uniform and uniform aging materials. It is found that the parameters of the extended Debye model tend to overestimate the cable insulation performance, while the characteristic parameters obtained by the modified Debye model better reflect the real situation of cable non-uniform aging. Result analysis shows that the proposed method has better accuracy in the insulation condition evaluation of cables.

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