Simulation of Water Tree Defect on Different Types of XLPE Underground Power Cable Using Finite Element Analysis

Arief, Yanuar Z. and Masdi, Hendri and Tinggom, Kelvil Juing Anak and Aulia, Aulia and Sukma, Irza and Al Hakim, Rosyid Ridlo (2022) Simulation of Water Tree Defect on Different Types of XLPE Underground Power Cable Using Finite Element Analysis. In: 2022 5th International Conference on Vocational Education and Electrical Engineering (ICVEE), 10-11 September 2022, Surabaya.

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Abstract

This paper deals with an investigation of a different type of cross-linked polyethylene (XLPE) underground power cable due to water tree defects. Electric field distribution and its strength were observed by the finite element analysis (FEA) technique. The defect types are vented water tree and bow-tie water tree which are mainly found in polymeric cables. Each defect size was modeled and simulated, then the position of the defects is varying concerning XLPE insulation and cable conductor. The rated voltage was varied according to the cable type in order to observe the electric field distribution performances. The design and modeling of the cable in this work will be conforming to the IEC 60502-2 Standard. The results revealed that the vented water tree defect gives the highest value of electric field intensity compared to the bow-tie water tree defect around 13 MV/m.

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