Transient Stability Analysis of Converter-Based Islanded Microgrids Based on Iterative Equal Area Criterion Considering Reactive Power Loop Dynamics and Varying Damping

IF 5.7 1区 工程技术 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Xilin Li;Jingyi Zhang;Zhen Tian;Xiaoming Zha;Wei Wang;Meng Huang;Chong Shao
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Abstract

With the rapid increase in the installed capacity of renewable energy in modern power systems, the stable operation of power systems with considerable power electronic equipment requires further investigation. In converter-based islanded microgrid (CIM) systems equipped with grid-following (GFL) and grid-forming (GFM) voltage-source converters (VSCs), it is challenging to maintain stability due to the mutual coupling effects between different VSCs and the loss of voltage and frequency support from the power system. In previous studies, quantitative transient stability analysis was primarily used to assess the active power loop of GFM-VSCs. However, frequency and voltage dynamics are found to be strongly coupled, which strongly affects the estimation result of stability boundary. In addition, the varying damping terms have not been fully captured. To bridge these gaps, this paper investigates the transient stability of CIM considering reactive power loop dynamics and varying damping. First, an accuracy-enhanced nonlinear model of the CIM is derived based on the effects of reactive power loop and post-disturbance frequency jump phenomena. Considering these effects will eliminates the risk of misjudgment. The reactive power loop dynamics make the model coefficients be no longer constant and thus vary with the power angle. To evaluate quantitatively the effects of reactive power loop and varying damping on the transient stability of CIM, an iterative criterion based on the equal area criterion theory is proposed. In addition, the effects of parameters on the stable boundary of power system are analyzed, and the dynamic interaction mechanisms are revealed. Simulation and experiment results verify the merits of the proposed method.
基于迭代等面积准则的基于变流器的孤岛式微电网瞬态稳定性分析(考虑无功功率环路动态和变化阻尼
随着现代电力系统中可再生能源装机容量的快速增长,需要进一步研究配备大量电力电子设备的电力系统的稳定运行问题。在装有电网跟随(GFL)和电网形成(GFM)电压源变换器(VSC)的基于变换器的孤岛微电网(CIM)系统中,由于不同 VSC 之间的相互耦合效应以及电力系统失去电压和频率支持,保持稳定具有挑战性。在以往的研究中,定量瞬态稳定性分析主要用于评估 GFM-VSC 的有功功率回路。但研究发现,频率和电压动态具有很强的耦合性,这会严重影响稳定性边界的估算结果。此外,变化的阻尼项也未被完全捕捉。为了弥补这些不足,本文研究了考虑无功环路动态和变化阻尼的 CIM 瞬态稳定性。首先,根据无功功率环路和扰动后频率跃变现象的影响,推导出一个精度增强的 CIM 非线性模型。考虑到这些影响将消除误判的风险。无功环路动态使模型系数不再恒定,而是随功率角的变化而变化。为了定量评估无功功率回路和阻尼变化对 CIM 瞬态稳定性的影响,提出了一种基于等面积准则理论的迭代准则。此外,还分析了参数对电力系统稳定边界的影响,并揭示了动态相互作用机制。仿真和实验结果验证了所提方法的优点。
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
Journal of Modern Power Systems and Clean Energy
Journal of Modern Power Systems and Clean Energy ENGINEERING, ELECTRICAL & ELECTRONIC-
CiteScore
12.30
自引率
14.30%
发文量
97
审稿时长
13 weeks
期刊介绍: Journal of Modern Power Systems and Clean Energy (MPCE), commencing from June, 2013, is a newly established, peer-reviewed and quarterly published journal in English. It is the first international power engineering journal originated in mainland China. MPCE publishes original papers, short letters and review articles in the field of modern power systems with focus on smart grid technology and renewable energy integration, etc.
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