基于Scott变压器的平衡改进混合SVC方案

Proceedings of the 2006 IEEE/ASME Joint Rail Conference Pub Date : 2006-04-04 DOI:10.1115/JRC2006-94005

Wen-Shyan Chu, J. Gu

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引用次数: 16

摘要

由于牵引负荷的动态特性和列车调度的不均匀性，不平衡电流一般出现在共偶点。为了抑制不平衡的程度，可以采用特殊连接的变压器或/和无功补偿装置。传统上，在斯科特连接变压器前安装相移斯科特变压器型SVC，以改善高速铁路系统引起的电压波动。但是，只有当各相负载的功率因数角等于pi/6滞后时，该方案才是最有效的;否则，在PCC上仍然存在相当严重的负序电流。在本研究中，提出了一种新的混合SVC方案来改善这一缺点。结果表明，无论牵引负载的功率因数如何，该方案都能有效地将负序电流限制为零

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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A new hybrid SVC scheme with Scott transformer for balance improvement

Due to the dynamic characteristics of traction load and unevenly train dispatch schedule, the unbalances currents are generally presented at point of common coupling (PCC). To suppress the degree of unbalance, a specially connected transformer or/and reactive power compensation device can be applied. Traditionally, a phase-shifted Scott transformer type SVC was installed in front of Scott connection transformer to improve the voltage fluctuation which is caused by high speed railway (HSR) systems. However, this solution is the most effective only in case that the power factor angle of each phase load equals pi/6 lagging; otherwise, a quite severe negative sequence current still presented at PCC. In this investigation, a new hybrid SVC scheme is proposed to improve this disadvantage. The results show that the proposed scheme can effectively restrict the negative sequence current to zero no matter what power factor of traction load

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Proceedings of the 2006 IEEE/ASME Joint Rail Conference

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