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同步发电机与基于逆变器资源联合发电系统的多摆暂态稳定性
Multi-Swing Transient Stability of Synchronous Generators and IBR Combined Generation Systems
| 作者 | Songhao Yang · Bingfang Li · Zhiguo Hao · Yiwen Hu · Huan Xie · Tianqi Zhao |
| 期刊 | IEEE Transactions on Power Systems |
| 出版日期 | 2024年9月 |
| 技术分类 | 系统并网技术 |
| 技术标签 | 跟网型GFL 低电压穿越LVRT |
| 相关度评分 | ★★★★★ 5.0 / 5.0 |
| 关键词 | 同步发电机 暂态功角失稳 减速能量积累 多摆失稳 电网跟随型逆变器资源 |
语言:
中文摘要
传统观点认为,故障期间加速能量的积累会导致同步发电机(SGs)典型的首摆功角失稳。本文提出新见解:电网跟随型逆变器资源(GFL-IBRs)在低电压穿越及恢复控制过程中产生的减速能量累积,亦可能引发SGs的暂态功角失稳。该减速摆动阶段积聚的暂态能量将在后续摆动中转化为加速能量,导致多摆失稳现象。理论分析与仿真结果均验证了该机理。
English Abstract
In traditional views, the build-up of accelerating energy during faults can cause the well-known first-swing angle instability in synchronous generators (SGs). Interestingly, this letter presents a new insight that the accumulation of decelerating energy due to the low voltage ride-through (LVRT) and recovery control of grid-following inverter-based resources (GFL-IBRs), might also result in transient angle instability in SGs. The transient energy accumulated during angle-decreasing swing transforms into the acceleration energy of the subsequent swing, hence such phenomena often manifest as multi-swing instability. Both theoretical analysis and simulation support these findings.
S
SunView 深度解读
该研究揭示的GFL-IBR低电压穿越引发的多摆失稳机理,对阳光电源SG系列光伏逆变器和ST系列储能变流器的LVRT控制策略优化具有重要指导意义。建议在现有GFL控制基础上:1)优化电压恢复过程中的功率输出曲线,避免过快恢复导致的减速能量累积; 2)在SG3125HV等大功率机型中引入虚拟惯量控制,提升系统暂态稳定性; 3)针对PowerTitan储能系统开发基于该机理的暂态稳定预警算法。这些改进将提升阳光产品在高渗透率新能源场景下的并网适应性,巩固技术领先地位。