Collaborative Interaction and Market-Oriented Dispatching of Diverse Participants in the Source-Grid-Load-Storage System

Session Chair(s) and Speakers:

Fuzhang Wu

Fuzhang Wu

Fuzhang Wu received his B.S. and Ph.D. degrees in Electrical Engineering from Wuhan University in 2015 and 2020, respectively. He is currently an Associate Research Fellow at the School of Electrical Engineering and Automation, Wuhan University. His research interests include power system operation, interaction between flexible resources and power grids, as well as electricity markets. Over the past five years, more than ten papers have been published by him as first and corresponding authors in top journals including IEEE Transactions and Applied Energy. As principal investigator, he has secured research grants from the National Natural Science Foundation of China and the Ministry of Education. His research portfolio also includes participation in the National Key R&D Program and National Major Science and Technology Projects. In total, he has contributed to six research projects at national and provincial/ministerial levels. He also acts as a reviewer for numerous international journals.

Gaojunjie Li

Gaojunjie Li

Gaojunjie Li received his B.Eng. degree in Electrical Engineering and Automation from Chongqing University in 2018 and his Ph.D. degree in Electrical Engineering from Wuhan University in 2024. He is currently a Postdoctoral Fellow in the Department of Electrical and Electronic Engineering at The Hong Kong Polytechnic University, working with Prof. Siqi Bu and Prof. Edward Chung. His research interests include optimal operation of power systems and electricity market mechanism design in the context of transportation electrification. He has published more than ten SCI/EI-indexed papers as first author or corresponding author in leading international and domestic journals, including IEEE Transactions journals. He has participated in several national research projects and industry-sponsored projects, and serves as a reviewer for multiple international journals, including IEEE Transactions on Smart Grid.

Session Abstract

Under the guidance of carbon peaking and carbon neutrality goals and the accelerated reform of electricity markets, the new power system is evolving toward high-penetration renewable energy and high-power-electronic characteristics. The capacity of wind-solar renewable generation, distribution networks, flexible loads and diversified energy storage entities has grown rapidly. Distinct ownership attributes, diversified interest claims, as well as stochastic volatility of generation and load profiles among multiple entities, coupled with mismatched existing market trading rules and prominent obstacles to cross-hierarchical collaborative dispatching, hinder renewable energy accommodation, secure grid operation and multi-party benefit equilibrium, which poses new challenges to integrated power system dispatching and operation.

Centering on the construction of a new-type energy system, this special topic focuses on core research themes including interest coupling, coordinated dispatching and market bidding of source-grid-load-storage entities. It investigates market-adaptive collaborative dispatching paradigms for hierarchical electricity markets, addresses critical bottlenecks involving multi-agent game theory, holistic resource scheduling and market mechanism deployment, and bridges the linkage gap between physical grid dispatching and market transaction operation.

This special topic provides a high-end academic communication platform for global researchers in relevant domains. It concentrates on mechanism design and coordinated control research, facilitates the improvement of market-driven dispatching frameworks for source-grid-load-storage multi-entity systems, and supports the low-carbon, economic and reliable operation of modern power systems. Relevant research interests include but are not limited to:

  • Regulation characteristics and response mechanism of source-grid-load-storage multi-entities
  • Interactive game and equilibrium coordination mechanism of source-grid-load-storage multi-entities
  • Bidding optimization and coordinated trading mechanism of multi-entities in hierarchical electricity markets
  • Coordinated optimal dispatching strategy for hierarchical power grids under integrated electricity market scenarios
  • Aggregated regulation, inter-entity coordination and market participation strategies of virtual power plants