Transformer Terminal-Duality Model for Windings Tum-to-Tum Faults Simulation

2020 14th International Conference on Protection and Automation of Power Systems (IPAPS) Pub Date : 2019-12-01 DOI:10.1109/IPAPS49326.2019.9069390

Nima Farzin, M. Vakilian, E. Hajipour

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Abstract

Turn-to-turn fault (TTF) inception on a transformer can be very destructive and damaging. In order to check the performance of TTF protection algorithms, it is necessary to model the transformer in the presence of TTFs. Under minor TTF inception, the rise in the terminal currents of the transformer is just in the order of its no-load current. Therefore, in this study, a suitable transformer model should be employed to address the role of core and windings under the occurrence of minor TTF, accurately. This paper presents a new equivalent reluctance circuit for three-phase transformers in the presence of TTFs. This equivalent model employs the parameters determined by the finite element method. This model contains the admittance matrix and it is well-known as the terminal-duality model. For verification of the model, a real three-phase custom-built transformer is employed and modeled in this paper. The results obtained from the developed model are validated against the experimental results of TTF tests carried out on this transformer.

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变压器绕组匝间故障仿真的终端对偶模型

变压器的匝间故障(TTF)的开始是非常具有破坏性和破坏性的。为了检验TTF保护算法的性能，有必要对存在TTF的变压器进行建模。在较小的TTF启动时，变压器端子电流的上升刚好与它的空载电流的顺序一致。因此，在本研究中，应采用合适的变压器模型，准确地解决轻微TTF发生时铁芯和绕组的作用。本文提出了一种适用于三相变压器的等效磁阻电路。该等效模型采用有限元法确定的参数。该模型包含导纳矩阵，被称为终端对偶模型。为了验证模型的正确性，本文采用了一个实际的定制三相变压器并对其进行了建模。该模型的计算结果与在该变压器上进行的TTF试验结果进行了验证。

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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2020 14th International Conference on Protection and Automation of Power Systems (IPAPS)

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