Power Transformer Inrush Current Minimization During Energization using ANFIS based Peak Voltage Tracking Approach

International Journal of Electrical and Electronics Research Pub Date : 2024-03-20 DOI:10.37391/ijeer.120130

M. Alkhayyat, Faisal Aiwa, Ali Salah Alhfidh, Mohammed Y. Suliman

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Abstract

Energizing the power transformer at no load causes inrush current flow. The value of this current depends on main three factors, the residual and saturation flux of the transformer core, the rating of the transformer, and the switching instant. Inrush current may decrease the life of the transformer and causes mall function of the protective relays. Many efforts were done for limiting the inrush current using a current limiter or improve the core material to reduce residual flux. Other treating is to control energizing instance. This paper focused on controlling the instant of the transformer energization switch using fuzzy logic inference system. A new technique depends on adaptive seeking the crest of the voltage waveform. By this method there is no need to zero-crossing technique or phase looked loop. At this point, the flux of the core reaches the minimum value. Simulation and laboratory results show the success of this technique in reducing the inrush current. This technique gives the freedom to the operational engineering for energizing the power transformer at any time.

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利用基于 ANFIS 的峰值电压跟踪方法最小化通电期间的电力变压器浪涌电流

空载启动电力变压器会产生浪涌电流。该电流值主要取决于三个因素：变压器铁芯的残余和饱和磁通、变压器的额定值以及开关瞬间。浪涌电流会缩短变压器的使用寿命，并导致保护继电器功能失灵。为了限制浪涌电流，人们做了很多努力，如使用电流限制器或改进铁芯材料以减少残余磁通。其他方法是控制通电瞬间。本文的重点是利用模糊逻辑推理系统控制变压器通电开关的瞬间。一种新技术依赖于自适应地寻找电压波形的波峰。这种方法不需要过零技术或相位环路。此时，磁芯的磁通量达到最小值。仿真和实验室结果表明，这种技术在降低浪涌电流方面取得了成功。这项技术为运行工程提供了自由，可随时为电力变压器通电。

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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来源期刊

International Journal of Electrical and Electronics Research

CiteScore

1.70

自引率

0.00%

发文量