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EMT—RMS建模权衡用于逆变器资源驱动的次同步振荡
EMT — RMS Modeling Trade-Off for IBR-Driven Sub-Synchronous Oscillations
| 作者 | Muhammad Sharjeel Javaid · Balarko Chaudhuri · Fei Teng · Zohaib Akhtar |
| 期刊 | IEEE Transactions on Power Systems |
| 出版日期 | 2025年7月 |
| 技术分类 | 储能系统技术 |
| 技术标签 | 储能系统 |
| 相关度评分 | ★★★★★ 5.0 / 5.0 |
| 关键词 | 低频机电振荡 逆变器资源 次同步振荡 RMS+研究 EMT-dq工具 |
语言:
中文摘要
低频机电振荡(<2Hz)在时间上与较快的网络动态分离,因此在正序RMS(RMS+)研究中可忽略网络动态。然而,随着逆变器资源(IBR)比例增加,次同步振荡(SSO)出现在更高频率(>5Hz),处于电磁时间尺度内,导致传统RMS+模型的时标分离假设不再成立。本文表明,在高比例IBR系统中依赖RMS+研究可能得出错误的SSO稳定性结论。我们阐明了IBR控制与网络动态相互作用对SSO阻尼的影响,强调需采用包含网络动态的EMT-dq模型作为EMT-abc与RMS+之间的折中方法。EMT-dq计算效率高于EMT-abc,且支持频域分析,有助于深入理解与有效抑制SSO,凸显发展标准化EMT-dq工具以快速筛查SSO风险场景的必要性。
English Abstract
Low-frequency electromechanical oscillations ( < 2Hz) are time-separated from faster network dynamics, allowing network dynamics to be safely neglected in positive-sequence RMS (RMS + ) studies. However, with increasing shares of inverter-based resources (IBRs), sub-synchronous oscillations (SSOs) occur at higher frequencies ( > 5Hz) within the electromagnetic timescales. The shift challenges using RMS + tools for planning IBR-dominated grids, as the time-scale separation is no longer as distinct as in synchronous machine-based systems. This paper demonstrates that relying on RMS + studies in high-IBR scenarios can lead to erroneous conclusions about SSO, including a false assurance of stability. We explain how the interaction between IBR control and network dynamics affect the damping of SSO. This highlights the need for EMT- dq with network dynamics in a synchronously rotating reference frame as a middle ground between EMT- abc (point-on-wave) and RMS + for studying IBR-driven SSO. EMT- dq is computationally simpler than EMT- abc and allows frequency-domain analysis for deeper insight and effective SSO mitigation. This emphasizes the necessity of established (rather than bespoke) EMT- dq tools to quickly screen SSO-prone scenarios for detailed investigation in EMT- abc .
S
SunView 深度解读
该研究对阳光电源ST系列储能变流器和SG系列光伏逆变器的次同步振荡抑制具有重要指导意义。文章揭示高比例IBR系统中传统RMS+模型的局限性,提出EMT-dq折中建模方法,可直接应用于PowerTitan大型储能系统的并网稳定性分析。针对阳光电源构网型GFM和跟网型GFL控制策略,EMT-dq模型能高效评估控制参数与网络动态交互对SSO阻尼的影响,支持频域分析优化控制器设计。建议在iSolarCloud平台集成EMT-dq快速筛查工具,实现储能电站并网前的SSO风险预评估,提升三电平拓扑变流器在弱电网场景的稳定运行能力,降低现场调试成本。