A Novel Droop-based Control Strategy for Improving the Performance of VSC-MTDC Systems in Post-Contingency Conditions

Q3 Energy Iranian Journal of Electrical and Electronic Engineering Pub Date : 2022-03-10 DOI:10.22068/IJEEE.18.1.2114

S. Alavi, R. Ghazi

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Abstract

One of the significant concerns in the MTDC systems is that voltage source converters (VSCs) do not hit their limits in the post-contingency conditions. Converters outage, DC line disconnection, and changeable output power of wind farms are the most common threats in these systems. Therefore, their destructive impact on neighboring AC systems should be minimized as much as possible. The fixed droop control is a better choice than others to deal with this, although it also has some limitations. Accordingly, a novel centralized droop-based control strategy considering N-1 contingency is proposed in this paper. It prevents converters from exceeding their limits while causes optimal power sharing and minimum DC link voltage deviation immediately, without secondary control layer. It also utilizes maximum wind power without curtailment. These properties improve the performance of the MTDC system in post-contingency conditions. The effectiveness of the proposed control method is validated by simulation of a 4-terminal VSC-MTDC system in MATLAB/Simulink R2016a.

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一种新的基于Droop的控制策略，用于改善VSC-MTDC系统在后应急条件下的性能

MTDC系统的一个重要问题是电压源变换器(vsc)在事故发生后的条件下不能达到其极限。在这些系统中，变流器停运、直流线路断开和风电场输出功率变化是最常见的威胁。因此，它们对相邻交流系统的破坏性影响应尽可能降到最低。固定下垂控制是处理这种情况的更好选择，尽管它也有一些局限性。在此基础上，提出了一种考虑N-1偶然性的集中下垂控制策略。它可以防止变换器超过其极限，同时立即实现最佳功率共享和最小直流链路电压偏差，而无需二次控制层。它还最大限度地利用了风力发电。这些特性提高了MTDC系统在后事故条件下的性能。通过MATLAB/Simulink R2016a对四端VSC-MTDC系统进行仿真，验证了所提出控制方法的有效性。

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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