Biography
I am a PhD candidate in the Department of Electrical Engineering at Tsinghua University, advised by Prof. Wenchuan Wu. I received my B.S. degree in Electrical Engineering from Xi'an Jiaotong University, where I studied in Qian Xuesen's Class.
My research focuses on the optimal operation, grid integration, and grid-support capabilities of renewable energy generation systems, with particular emphasis on wind farms and wind turbines. My research interests include power regulation and frequency support, coordinated wind farm optimization, wind-storage coordination, and the control of offshore and floating wind energy systems.
My work has appeared in IEEE Transactions on Industrial Informatics, IEEE Transactions on Sustainable Energy, Energy, and IET Renewable Power Generation.
Selected Publications
View All →Frequency-Routed Coordinated Pitch-Torque Control for Fatigue-Relevant Response Mitigation in Floating Offshore Wind Turbines
Zishuo Huang, Chenhui Lin, Qi Wang, Wenchuan Wu
IEEE Transactions on Sustainable Energy
A frequency-routed coordinated pitch-torque control framework for floating offshore wind turbines, balancing platform-motion and mooring-fluctuation mitigation, pitch-actuator activity reduction, and rapid rotor-speed-variation suppression.
A Bilevel Optimization Method for Wind Farm Layout Considering Yaw Control
Zishuo Huang, Chenhui Lin, Qi Wang, Wenchuan Wu
IEEE Transactions on Industrial Informatics
A bilevel framework that coordinates wind-farm layout design and yaw control.
Dual-Stage MPC-Based AGC for Wind Farm Considering Aerodynamic Interactions
Zishuo Huang, Wenchuan Wu
IEEE Transactions on Sustainable Energy
A dual-stage model predictive control framework for wind-farm active-power regulation with aerodynamic interactions.
Cooperative Strategies for Frequency Control of Wind Turbines to Mitigate Secondary Frequency Dip: Coefficient Allocation and Exit Techniques
Zishuo Huang, Wenchuan Wu, Chenhui Lin, Zizhen Guo
IEEE Transactions on Sustainable Energy
Coordinated coefficient allocation and exit strategies for reducing secondary frequency dip.
An Efficient Solution for Large Offshore Wind Farm Power Optimization with the Porté-Agel Wake Model: Optimality and Efficiency
Zishuo Huang, Wenchuan Wu
Energy
An efficient optimization method for large offshore wind farms using the Porté-Agel wake model.
News
Our paper, "Frequency-Routed Coordinated Pitch-Torque Control for Fatigue-Relevant Response Mitigation in Floating Offshore Wind Turbines," was accepted by IEEE Transactions on Sustainable Energy.
Published three first-author papers in IEEE Transactions on Industrial Informatics and IEEE Transactions on Sustainable Energy.
Published a first-author article in Energy on large offshore wind-farm power optimization.
Published a first-author article in IET Renewable Power Generation on stochastic MPC for wind-storage coordinated control.
