Biography

Dr. Zhengyang Hu received a B.E. degree in electrical engineering and automation from China University of Mining and Technology, Xuzhou, China in 2016, and a Ph.D. degree in electrical engineering from Southeast University, Nanjing, China in 2023. He is working as a postdoc fellow in The Hong Kong Polytechnic University, Kowloon, Hong Kong SAR.

Research Interests
  • Renewable energy integration
  • Inertia and frequency control
  • Power system resilience
  • Machine Learning
Education
Professional Experience

Recent News

2024/07, our paper "Optimized Temporary Frequency Support for Wind Power Plant Considering Expanded Operational Region of Wind Turbines" was accepted by CSEE Journal of Power and Energy Systems.

2023/08, our paper "Bidirectional support capability analysis and adaptive inertial control strategy of wind turbine" (风电机组双向支撑能力分析与自适应惯量控制策略) was accepted by Transactions of China Electrotechnical Society (电工技术学报).

2023/08, I passed my PhD dissertation defense.

2023/05, our paper "Review on fast active power control and frequency support technologies of renewable energy stations" (新能源场站快速有功控制及频率支撑技术综述) was accepted by Proceedings of the CSEE (中国电机工程学报).

Selected Publications

胡正阳, 高丙团, 张磊, . 风电机组双向支撑能力分析与自适应惯量控制策略, 电工技术学报, 2023.
高丙团, 胡正阳, 王伟胜, . 新能源场站快速有功控制及频率支撑技术综述, 中国电机工程学报, 2023.
Zhengyang Hu, Bingtuan Gao, Yongheng Mao. Nonlinear model predictive control-based active power dispatch strategy for wind power plant considering dynamic wake effect, International Journal of Electrical Power & Energy Systems, 2023.
Zhengyang Hu, Bingtuan Gao, Ruizhe Sun. An active primary frequency regulation strategy for grid integrated wind farms based on model predictive control, Sustainable Energy, Grids and Networks, 2022.
Zhengyang Hu, Bingtuan Gao, Ning Chen, et al. Modified virtual synchronous generator based-primary frequency regulation for renewable generation integrated into power system, IET Generation, Transmission & Distribution, 2020.

Selected Research Projects

1. 2023-2023 Research and implementation of Spatio-temporal Collaborative Frequency Control Technology in the Sending-end Power Grid with High Proportion New Energy Generation (Science and Technology Project of State Grid Corporation of China)
Involved in the research on the frequency characteristics of the sending-end power system with high proportion new energy generation and the corresponding frequency regulation strategy for new energy generation.

2. 2021-2023 Active and fast support of transient frequency and voltage for photovoltaic / wind power plant (National Key R&D Program of China under grant 2021YFB2400500)
Involved in the research of the active and fast frequency support technologies and the optimization of steady-state operating conditions for wind power plant.

3. 2018-2019 Research on Impact Mechanism and Active Support Technology for Application of Power Electronic on Renewable Energy in Regional Grid (sponsored by China Electric Power Research Institute)
Responsible for the scenario construction of photovoltaic/wind power plant integration and analysis of aggregation characteristics of photovoltaic/wind power plant.

4. 2017-2017 Research on the Impact of Large-scale Renewable Energy Integration on Damping Characteristics of Power System and the Corresponding Active Power Support Control Strategy (sponsored by China Electric Power Research Institute)
Involved in the analysis and control of damping characteristics of the power system integrated with renewable energy generation based on virtual synchronous generator.

Professional Services

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