Optimal Design of Insulation Structure of Converter Transformer Valve-Side Bushing Based on Electric Field Balance

2022 4th International Conference on Power and Energy Technology (ICPET) Pub Date : 2022-07-28 DOI:10.1109/ICPET55165.2022.9918374

Haifeng Sun, Yuefan Guo, Gouwei Zhou

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Abstract

With the continuous advancement of DC transmission projects around the world, the valve-side bushings of converter transformers working in complex harmonic environments have become nodes with high failure rates because of electric field stress. The main insulating structure in the existing valve-side bushing is formed by stacking structures of equal thickness, in which aluminum foil layers with a uniform electric field are inserted. In practice, such a design is difficult to achieve the overall optimum. Therefore, this paper proposes an optimal selection method for the thickness of the insulating plate of the converter transformer valve-side bushing based on electric field equalization. The method realizes the reasonable selection of thickness according to the radial distribution law of the electric field based on the finite element calculation in the frequency domain. In this paper, the COMSOL Multiphysics software is used to optimize the design of the insulation structure of a valve-side bushing, and the optimization effect is simulated and verified, which fully proves the rationality of the method proposed in this paper.

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基于电场平衡的换流变压器阀侧套管绝缘结构优化设计

随着世界范围内直流输电工程的不断推进，在复杂谐波环境下工作的换流变压器阀侧套管已成为电场应力导致故障率高的节点。现有阀侧衬套中的主绝缘结构是由等厚度的堆叠结构构成，其中插入具有均匀电场的铝箔层。在实践中，这样的设计很难达到整体的最优。为此，本文提出了一种基于电场均衡的换流变压器阀侧套管绝缘板厚度的优化选择方法。该方法在频域有限元计算的基础上，根据电场径向分布规律实现了厚度的合理选择。本文利用COMSOL Multiphysics软件对某阀侧衬套保温结构进行优化设计，并对优化效果进行了仿真验证，充分证明了本文所提方法的合理性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2022 4th International Conference on Power and Energy Technology (ICPET)

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