Session 18: Modeling, Control and Simulation of Distributed Tunable Resources in Virtual Power Plant

“虚拟电厂分布式可调节资源的建模、控制和仿真”

Session 18

Modeling, Control and Simulation of Distributed Tunable Resources in Virtual Power Plant
“虚拟电厂分布式可调节资源的建模、控制和仿真”

Virtual power plants (VPPs) have become a key technology for addressing the challenges of energy transformation by aggregating distributed energy resources (DERs) including energy storages, adjustable loads, and other resources to achieve flexible regulation. With the continuous increase in the penetration of renewable energy such as wind power and photovoltaics, the traditional power system is facing difficulties in power balancing, as well as insufficient frequency regulation capabilities. The large-scale integration of electric vehicles and smart buildings exacerbates the complexity of power grid operation due to their spatiotemporal dispersion and heterogeneity. In this context, VPPs use information physical fusion technology to collaboratively model and optimize distributed resources, which is of great significance for improving the resilience of the power system and promoting the consumption of renewable energy.
This Special Session focuses on the modeling, control, and simulation of distributed tunable resources in VPPs. The main topics include: Dynamic modeling of aggregation characteristics of multiple types of DERs; Heterogeneity of response and communication delay of the control strategies for VPPs; Coordinated multi-time-scale scheduling of resources from supply, network, demand, storage sides; Market trading strategies for VPPs, etc. The research results can provide flexible regulation capabilities for power system with high proportion of renewable energy resources, reduce the request for system reserve capacity, promote the evolution of the power system towards low-carbon and intelligent development, and improve the economic benefits and emission reduction value

Chair: Dr. Jian Wang, Shanghai Jiao Tong University, China

Dr. Jian Wang, Assistant Research Fellow at College of Smart Energy, Shanghai Jiao Tong University. Her research interests include optimal operation of new type power system and virtual power plant. She obtained PhD from Shanghai Jiao Tong University and Politecnico di Milano, and Bachelor degree from North China Electric Power University. She hosts National Natural Science Foundation of China, Shanghai Rewable Energy Technology Research Project, Ministry of Education Key Laboratory Open Fund, and industry-university research projects. She participates in National Key Research and Development Program, Italian Energy Technology Development and Demonstration Fund, and other projects. She has published 31 academic papers, with 8 SCI papers published as first/corresponding author, 6 patents and 1 monograph in the past five years.

Co-chair: Dr. Jiawei Dong, China Electric Power Research Institute, Co., Ltd, China

Dr. Jiawei Dong graduated from Shanghai Jiaotong University, majoring in electrical engineering. He is responsible for the research direction of virtual power plant operation and regulation in department of power utilization & energy Efficiency, China Electric Power Research Institute, Co., Ltd. His main research direction is distributed renewable energy generation control, microgrid, virtual power plant operation and control technology, etc. He has published more than 10 papers in high level SCI/EI journals,such as Jounal of Modern Power System and Clean Energy, etc. He also has 1 authorized invention patent and engages in 2 monograph writing .

Co-chair: Dr. Chunyang Gong, Shanghai University of Electric Power, China

Chunyang GONG received the B.E. degree in Shanghai University of Electric Power. Then he went abroad and received M.S. degree in University of Strathclyde. He is currently pursuing the Ph.D. degree with the College of Electric Power Engineering in Shanghai University of Electric Power, Shanghai, China.
His Current research interests focus on the planning and control technology of renewable energy, including planning and coordinated control for large-scale distributed energy access, control strategy of converter in energy storage system.

Call for Papers Timeline / 征稿时间

Submission of Full Paper： March 10th, 2025
投稿截止日： 2025年3月10日
Notification Deadline： March 30th, 2025
通知书发送： 2025年3月30日
Registration Deadline： April 10th, 2025
注册截止日期： 2025年4月10日

Submission Guideline / 投稿指南

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