Special Session Ⅱ

Special Session Ⅱ

Operation and Control of Renewable Power Systems Based on Grid-Forming Energy Storage 

基于构网型储能的新能源电力系统运行与控制

Chair:
Lei Chen
Wuhan University, China

Keywords: 

• Grid-Forming Energy Storage

  (构网型储能)

• Renewable Power Systems

  (新能源电力系统)

• Optimal Operation

  (优化运行)

• Coordinated Control

  (协同控制)

Topics:

• Hybrid Grid-forming/following Strategies for RESs

  (新能源电力系统构网/跟网混合控制策略)

• Distributed Cooperative Control for GFES Clusters

  (构网型储能集群分布式协同控制技术)

• Multi-objective Optimization for Voltage/Frequency Support

  (构网型储能电压/频率支撑多目标优化方法)

• Small-signal/transient Stability Analysis with GFES

  (含构网型储能的系统小扰动/暂态稳定性分析)

• Sub/super-synchronous Oscillation Mitigation

  (含构网型储能的系统次/超同步振荡抑制技术)

• GFES-enabled Fault Ride-through Schemes

  (基于构网型储能的多类型变流器故障穿越技术)

• Hardware-in-the-loop Testbeds and Field Demonstrations

  (构网型储能硬件在环测试系统与工程示范应用)

Summary: 

• The global energy transition towards carbon neutrality has accelerated the integration of variable renewable energy sources (RESs), while grid-forming energy storage (GFES) technologies have emerged as a transformative solution to address related stability and flexibility challenges. As power systems evolve towards 100% renewable penetration, GFES plays a pivotal role in providing essential grid-support functions—including inertia emulation, voltage regulation, and black-start capability—that were traditionally supplied by synchronous generators.

  This Special Session seeks to compile high-quality research that bridges theoretical innovation with practical implementation, ultimately advancing the global transition to renewable-dominated power systems. We welcome original research articles and comprehensive review papers from academia and industry.

  
  

• 在全球碳中和进程加速推进的背景下，高比例可再生能源并网引发的电力系统稳定性问题日益凸显。构网型储能技术作为支撑新型电力系统稳定运行的关键技术，通过模拟同步发电机组的三大核心动态特性：虚拟惯量响应、自主电压构建及黑启动能力，正在重构电力系统的稳定运行范式。

  本专题致力于搭建理论创新与工程实践融合的学术交流平台，重点探讨可再生能源主导型电力系统面临的关键挑战。诚邀海内外专家学者分享最新研究成果，共同推动能源电力系统的绿色低碳转型。

DDL: Oct. 20, 2025