A controlled switching methodology for transformer inrush current elimination: Theory and experimental validation

11th International Conference on Electrical Power Quality and Utilisation Pub Date : 2011-10-01 DOI:10.1109/EPQU.2011.6128821

A. Reis, J. C. de Oliveira, R. Apolonio, H. Bronzeado

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引用次数: 15

Abstract

Transformers are generally energized by closing the circuit breakers at random times. Consequently, this operation generates high transient inrush currents as a result of the asymmetrical magnetic flux produced in the windings. In light of these facts, this paper presents a strategy to control the switching phenomena which occurs during power transformer inrush. The general idea consists of calculating the pre-existing magnetic fluxes left on the core limbs as a function of operating voltage previously applied to the transformer, just prior to the moment in which de-energization has happened. By using these data and the equations to predict the most suitable closing moments, it is shown the proposal effectiveness at accomplishing the main target here pointed out. Experimental investigations are carried out in order to demonstrate the application method and its validation. The results show the feasibility of building hardware and software structures to drastically reduce the transformer inrush currents.

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一种消除变压器涌流的控制开关方法:理论与实验验证

变压器一般是通过随机合闸来通电的。因此，由于绕组中产生的不对称磁通，这种操作产生高瞬态涌流。针对这些情况，本文提出了一种控制电力变压器励磁涌流过程中开关现象的策略。一般的想法包括计算先前施加在变压器上的工作电压的函数，即在断电发生之前，在铁芯分支上留下的预先存在的磁通。利用这些数据和方程来预测最合适的关闭时刻，证明了该方案在实现本文提出的主要目标方面的有效性。为验证该方法的有效性，进行了实验研究。结果表明，通过硬件和软件结构的构建，可以大幅度降低变压器的涌流电流。

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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11th International Conference on Electrical Power Quality and Utilisation

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