Impact of recovery and sympathetic inrush phenomena on VSC HVDC systems

2022 57th International Universities Power Engineering Conference (UPEC) Pub Date : 2022-08-30 DOI:10.1109/UPEC55022.2022.9917995

Michael Richter, G. Mehlmann, M. Luther

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Abstract

The converter transformer of a VSC HVDC station can be driven into saturation caused by external grid events as short-circuits or the energization of nearby transformers. These effects are classified as inrush phenomena and named recovery inrush and sympathetic inrush, respectively. In this paper, a thorough study on different influencing factors on the inrush magnitude and its impact on the operation of the HVDC system is analyzed based on electromagnetic transient analysis using an average based EMT MMC HVDC model. As important parameters for the analysis of the recovery inrush the short-circuit ratio, the time point of fault inception and the fault duration, the fault distance and the fault resistance are selected. The impact of these parameters on the inrush intensity and the transients of the transformer and converter currents as well as active and reactive powers during the inrush events are analyzed and worst-case scenarios evaluated. By evaluation of internal converter signals, it is checked whether the converter is able to maintain stability for different inrush intensities.

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恢复和交感涌流现象对VSC高压直流系统的影响

VSC高压直流站的换流变压器会因外部电网事件如短路或附近变压器通电而被驱动至饱和状态。这些效应被归类为涌流现象，分别称为恢复涌流和交感涌流。本文采用基于平均的EMT - MMC HVDC模型，基于电磁暂态分析，深入研究了影响涌浪幅度的不同因素及其对HVDC系统运行的影响。选取短路率、故障发生时间点、故障持续时间、故障距离和故障电阻作为分析恢复涌流的重要参数。分析了这些参数对励磁涌流强度、变压器和变流器电流暂态以及励磁涌流过程中有功和无功功率的影响，并对最坏情况进行了评估。通过对变换器内部信号的评估，检查变换器在不同浪涌强度下是否能够保持稳定。

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 57th International Universities Power Engineering Conference (UPEC)

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