Combining Flux Conditioning and Controlled Switching Techniques to Eliminate Transformer Energization Voltage Dips When Connecting DERs to the Grid: A Field Demonstration

2022 IEEE Green Technologies Conference (GreenTech) Pub Date : 2022-03-30 DOI:10.1109/GreenTech52845.2022.9772015

V. Balvet, M. Normandeau, Michel Mont-Briant

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Abstract

The connection of renewable energy resources to a distribution system whose short-circuit capacity may be limited is a notorious source of significant voltage disturbances. The causes of such disturbances can include the high inrush currents occurring when the step-up transformers of distributed energy resources are energized. The mitigation of such transients through controlled switching is impeded by the presence of inverters on their low voltage side. Indeed, most circuit breakers in such installations are three-pole gang-operated. The control strategy for such breakers leverages the presence of residual magnetic flux in the iron core of the de-energized transformer, but DER inverters tend to erase that residual flux. A novel method combining flux conditioning and controlled switching was developed to compensate for this drawback and eliminate, virtually in full, the transformer switching transients. This paper reports on a full demonstration of the method on a transformer tied to a 25-kV distribution line first attached to the main grid, and then to a microgrid's battery energy storage system.

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结合磁通调节和控制开关技术消除电网接入时变压器通电电压下降:现场演示

可再生能源与短路容量有限的配电系统的连接是引起显著电压扰动的一个臭名昭著的来源。这种扰动的原因可能包括分布式能源升压变压器通电时产生的高涌流。通过控制开关缓解这种瞬态是由逆变器在其低压侧的存在阻碍。事实上，这些装置中的大多数断路器都是三极团伙操作的。这种断路器的控制策略利用了断电变压器铁芯中残余磁通的存在，但DER逆变器倾向于消除残余磁通。提出了一种结合磁通调节和控制开关的新方法来弥补这一缺陷，几乎完全消除了变压器开关瞬变。本文报告了该方法在一个变压器上的完整演示，该变压器连接到25kv配电线路，首先连接到主电网，然后连接到微电网的电池储能系统。

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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2022 IEEE Green Technologies Conference (GreenTech)

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