Session 9: Multi-scale Stability Analysis and Control for Power-electronized Power Systems
“电力电子化电力系统多尺度稳定分析与控制”
The rapid proliferation of large-scale renewable energy generation, HVDC/UHVDC transmission, FACTS, and AC variable frequency drive loads has propelled an electronics-centric transformation of critical power equipment throughout generation, transmission, distribution, and consumption. As conventional electromagnetic conversion equipment—represented by synchronous generators and induction motors—is progressively supplanted by power electronics-based conversion systems, the underlying mechanisms through which power electronic converters influence power system dynamic and transient responses under various disturbance events are not yet sufficiently understood. In recent years, persistent multi-timescale instability issues observed in power grids globally have elevated safety and stability risks. This fundamental shift toward power electronics penetration in grid-connected equipment necessitates innovative research in foundational theories for security and stability analysis of next-generation power systems.
随着大规模可再生能源发电、超/特高压直流输电、FACTS以及交流变频传动负荷的快速发展,电力系统正经历着发电、输配电及用电等环节核心电力装备的电力电子化变革。传统以同步发电机和异步电动机为代表的电磁变换装备被电力电子化变换装备大规模取代后,系统在不同扰动事件驱动下的动态/暂态过程受电力电子变换装备特性影响的机理尚未探明。近年来,国内外电力系统持续出现各种多时间尺度的不稳定问题,导致系统安全稳定风险不断升高。电力系统发电、输配电及用电等核心并网装备的电力电子化替代,对新一代电力系统安全稳定分析基础理论提出了创新性研究的迫切需求。
Topics (Including but not limited to)
- Power Electronic Converter Multi-timescale Small-signal Modeling Methodologies
电力电子变换装备多时间尺度小干扰模型及建模方法 - Multi-timescale Small-signal Stability Analytical Framework for Power-Electronics-Dominated Power Systems
电力电子化电力系统多时间尺度小干扰稳定分析方法 - Power Electronic Converter Multi-timescale Large-disturbance Transient Modeling Techniques
电力电子变换装备多时间尺度暂态模型及建模方法 - Multi-timescale Transient Stability Assessment Methodology for Power-Electronics-Dominated Power Systems
电力电子化电力系统多时间尺度暂态稳定分析方法 - Instability Mechanisms and Mitigation Strategies in Power-Electronics-Dominated Power Systems
电力电子化电力系统稳定机理与控制方法 - Symmetrical/Asymmetrical Fault Characteristics and Enhanced Control Schemes for Power-Electronics-Dominated Power Systems
电力电子化电力系统对称/不对称故障特性及控制方法
Chair: Assoc. Prof. Yingbiao Li, Huazhong University of Science and Technology, China
Yingbiao Li received the B.S. degree from Wuhan University, Wuhan, China, in 2014, and the M.S. and Ph.D. degrees from China Electric Power Research Institute, Beijing, China, in 2017 and 2020, respectively, all in electrical engineering. From 2019 to 2020, he was a guest PhD student with Aalborg University, Aalborg, Denmark. He is currently an Associate Professor with the State Key Laboratory of Advanced Electromagnetic Technology, School of Electrical and Electronic Engineering, Huazhong University of Science and Technology, Wuhan, China. His main research interests include cross-timescale interaction stability analysis of the power electronized power systems.
Co-chair: Dr. Jianwei Gu, China Renewable Energy Engineering Institute, China
Gu Jianwei received Ph.D degrees from China Electric Power Research Institute, Beijing, China in 2022, in electrical engineering and high voltage. His main research interests include renewable energy collaborative planning, Large-scale Power Grid Security and Stability, and advanced ultra-high voltage power transmission and transformation technology.
Critical Dates/重要日期
| Submission of Full Paper: | September 15th, 2025 |
| 投稿截止日: | 2025年9月15日 |
| Notification Deadline | September 30th, 2025 |
| 通知书发送: | 2025年9月30日 |
| Registration Deadline: | October 15th, 2025 |
| 注册截止日: | 2025年10月15日 |
Submission Guideline / 投稿指南
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2025 the 9th International Conference on Smart Grid and Smart Cities (ICSGSC)