End insulation electric field analysis and design optimization of 500kV power transformer based on ANSYS

IEEE PES Innovative Smart Grid Technologies Pub Date : 2012-05-21 DOI:10.1109/ISGT-ASIA.2012.6303260

A. Ma, Z. S. Zhang

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引用次数: 5

Abstract

This article uses the finite element method to analysis and calculates the electric field intensity of 500kV power transformer's HV winding. Through analysis and research the power transformer, the article has simplified the model of power transformer. Using ANSYS software establishes 2-D modeling of 500kV power transformer to analysis and conducted on the model mesh. Through analysis and understanding the power transformer's data, the boundary conditions are gotten which should be imposed on the various parts of the model. This article gets clear electric potential and electric field distribution by using finite element method to calculate the electric field intensity. The structure of power transformer has been optimized after analyzing the electric field distribution. Changing the radius of the electrostatic ring can decrease the maximum electric field intensity value of insulating layer surface, and the electrical field intensity will be more evenly distributed in the whole domain in power transformer, which is very important to design reasonable insulation structure for power transformer.

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基于ANSYS的500kV电力变压器端部绝缘电场分析及设计优化

本文采用有限元法对500kV电力变压器高压绕组的电场强度进行了分析计算。通过对电力变压器的分析和研究，简化了电力变压器的模型。利用ANSYS软件建立了500kV电力变压器的二维建模，对模型进行了网格分析和分析。通过对电力变压器数据的分析和理解，得到了模型各部分应施加的边界条件。本文采用有限元法计算电场强度，得到了清晰的电势和电场分布。通过对电力变压器电场分布的分析，对电力变压器的结构进行了优化。改变静电环的半径可以降低绝缘层表面的最大电场强度值，使电场强度在电力变压器的整个域内分布更加均匀，这对设计合理的电力变压器绝缘结构具有重要意义。

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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IEEE PES Innovative Smart Grid Technologies

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