Under the "Dual Carbon" framework, the accelerated integration of renewable energy sources (RES) such as wind and photovoltaic generation—interfaced via power electronics—has profoundly transformed power system dynamics. Reduced rotational inertia diminishes system frequency robustness, while weak damping and insufficient voltage support capability at sending/receiving ends introduce novel stability issues with unclear mechanisms.
Although power electronic devices offer fast and flexible regulation—serving as critical resources for system operation control—their operating principles fundamentally differ from traditional synchronous machines. Device-level grid-forming control struggles to reconcile multiple system operational requirements with inherent constraints, and system-level stability analysis and coordinated control still face theoretical gaps.
This special session focuses on breakthroughs in stability analysis frameworks and active grid-forming control technologies tailored for high-penetration RES integration. Topics include, but are not limited to:
1. Frequency/Voltage Support Grid-Forming Control Technologies for RES Equipment
2. Multi-Scale Stability Analysis of High-Penetration RES Power Systems
3. Stability Analysis and Optimal Control of Systems with Grid-Following/Grid-Forming Converters
4. Theoretical Frameworks for Multi-Source Coordinated Stability Analysis and Enhancement Control
“双碳”背景下,以电力电子接口的风电、光伏等新能源发电渗透率加速提升,给电力系统动态特性带来了深刻的变革,旋转惯量减少将降低系统频率鲁棒性,送/受端接入弱阻尼及电压支撑能力不足也给系统带来了诸多机理不明的稳定新问题。同时,电力电子设备具备快速灵活的调节特性,是系统运行控制的重要调节资源;然而,其运行原理与传统同步机不一,装备级构网控制难以兼顾系统多重运行需求及自身约束,系统级稳定分析与协同控制仍面临理论工具匮乏。本专题聚焦突破适应高比例新能源接入的稳定分析框架与主动构网控制技术,主题包括,但不限于:
1. 新能源发电装备的频率/电压支撑构网控制技术
2. 高比例新能源电力系统的多尺度稳定分析
3. 含跟/构网换流源系统的稳定分析与优化控制
4. 多源协同的系统稳定分析理论与提升控制方法
Dong Wang received the B. Eng. and M. Eng. degree from Huazhong University of Science and Technology in 2012 and 2015, respectively, and the Ph. D. degree in electrical engineering from The University of Hong Kong in 2019. He is currently an Associate Professor with the School of Automation, Wuhan University of Technology, Wuhan. He has publised more than 20 academic journal and conference papers, and received a best paper award for IEEE TEC. His research interests include stability analysis and control of renewable integration.
Yunhui Huang works at Wuhan University of Technology, engaged in long-term research on the stability and control of new energy grid connection. Presided over and participated in the National Natural Science Foundation of China, national key research and development projects, Guangdong Provincial Offshore Wind Power Joint Fund, State Key Laboratory Open Fund, State Grid/China Southern Power Grid science and technology projects, etc. Published 45 academic papers (12 SCI indexed and 19 EI indexed), with 836 citations (data source: Web of Science). In terms of teaching, I have guided students to participate in various levels of subject competitions and have won 10 national competition awards and 8 provincial awards in the past five years. In terms of scientific research, we won the third prize of the Science and Technology Progress Award of State Grid New Source Company in 2021, the SPEED Excellent Paper Award, the CIEEC Best Paper Award, and the CEEPE Best Report Award in 2024. In 2024, he/she was awarded the title of Outstanding Young Scientist by CEEPE and the Second Prize of Science and Technology Progress Award (Basic Research Category) by the China Power Supply Society. From 2022 to 2024, continuously selected for the annual impact list of the top 2% of global scientists.
She is an associate Professor of Wuhan University of Technology, she has long been engaged in the stability analysis and control of new energy grid-connected systems and flexible DC transmission. She has presided over a number of horizontal and vertical projects, such as the National Natural Science Foundation of China, the Digtal Grid Research Foundation of China Southern Power Grid, and the State Grid Technology, etc. She has published more than 20 papers, including 7 SCI papers as the first or corresponding author.2024 She was awarded the Second Prize of the Scientific and Technological Advancement of the 10th Power Supply Society (Sort 3), and the First Prize of the First National Colleges and Universities' Electrical Professional Courses Experimental Teaching Case Design Competition (Sort 3). First Prize (Sort 3) of the First National University Electrical Course Experimental Teaching Case Design Competition.
Submission of Full Paper | 投稿截止: August 30th, 2025 | 2025年8月30日
Notification Deadline | 录用通知: September 15th, 2025 | 2025年9月15日
Registration Deadline | 注册截止: September 30th, 2025 | 2025年9月30日
Template Download: Formatting.doc (文章模板)
Submit Now: Electronic Submission System (投稿链接)
