Data-Driven Interarea Oscillation Analysis for a 100% IBR-Penetrated Power Grid

IF 3.3 Q3 ENERGY & FUELS

IEEE Open Access Journal of Power and Energy Pub Date : 2023-01-01 DOI:10.1109/OAJPE.2022.3230007

Miao Zhang;Zhixin Miao;Lingling Fan;Shahil Shah

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引用次数: 0

Abstract

In this research, a 100% inverter-based resource (IBR)-penetrated bulk power system (BPS) is examined for possible interarea oscillations. A testbed of a BPS constructed in PSCAD, with both grid-forming inverter (GFM)-based IBRs and grid-following inverter (GFL)-based IBRs, is utilized for simulation. For linear analysis, a data-driven method is used to obtain the $dq$ admittance models of the IBRs. This information, combined with our knowledge of the network admittance, leads to eigenvalue analysis of the power grid. Furthermore, for the dominant 3-Hz mode, extended frequency-domain mode shape analysis, along with subgroup effect analysis, and network decomposition analysis are conducted. The analysis results can precisely tell the influencing factors of the oscillation mode. This mode is identified as an interarea oscillation mode. It has a different characteristics compared to the traditional electromechanical interarea mode. Specifically, the network decomposition analysis provides new insights on interarea oscillation modes. The analysis results are all confirmed by the electromagnetic transient (EMT) simulation results.

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100% ibr渗透电网的数据驱动区域间振荡分析

在本研究中，对100%基于逆变器的资源(IBR)渗透的大容量电力系统(BPS)进行了可能的区域间振荡检测。利用PSCAD搭建的BPS试验台，对基于成网逆变器(GFM)的ibr和基于随网逆变器(GFL)的ibr进行了仿真。对于线性分析，采用数据驱动的方法得到了ibr的$dq$导纳模型。这些信息，结合我们对网络导纳的了解，导致电网的特征值分析。此外，针对优势的3 hz模态，进行了扩展频域模态振型分析、子群效应分析和网络分解分析。分析结果能较准确地反映出振动模态的影响因素。这种模式被确定为区域间振荡模式。与传统的机电区域间模式相比，它具有不同的特点。具体而言，网络分解分析为区域间振荡模式提供了新的见解。分析结果均得到了电磁瞬变仿真结果的验证。

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

IEEE Open Access Journal of Power and Energy Multiple-

CiteScore

7.80

自引率

5.30%

发文量

审稿时长

10 weeks