Assoc. Prof. Dr. Yizhen wang - Power system stability and control - Best Researcher Award

Tianjin University - China

Author Profile

🎓 Early academic pursuits

Yizhen wang began his academic journey with a strong foundation in electrical engineering. he earned his bachelor's degree from tianjin university in 2010, followed by a master’s degree from the china electric power research institute (cepri) in 2013. determined to deepen his expertise, he pursued a ph.d. at tsinghua university, where he specialized in power system stability and control. his doctoral research laid the groundwork for his future innovations, focusing on the challenges of modern power systems, particularly in maintaining stability and optimizing performance in high-voltage dc (hvdc) networks.

🚀 Professional endeavors

Since 2020, yizhen wang has served as an associate professor at the school of electrical engineering and automation, tianjin university. his work has been instrumental in shaping the field of power system protection and hvdc transmission. his expertise spans various critical areas, including power system stability analysis, voltage source converter (vsc)-hvdc systems, and multi-terminal dc networks. by leading multiple national research projects, he has contributed significantly to enhancing the resilience and efficiency of modern power grids, ensuring stable and reliable electricity transmission in increasingly complex energy networks.

🧐 Contributions and research focus

Yizhen wang’s research is centered on stability control and dc fault ride-through technology for multi-terminal vsc-hvdc systems. his work focuses on three primary aspects: developing a reduced-order small-signal stability model, designing an efficient control system, and formulating an advanced dc fault ride-through strategy. through these innovations, he has provided Power system stability and control valuable solutions to critical challenges in integrating offshore wind power into hvdc networks. his research has strengthened grid stability by optimizing control mechanisms and developing new methodologies for power system protection.

🏆 Accolades and recognition

As a leading researcher in power system engineering, yizhen wang has gained significant recognition for his contributions. he has successfully led two projects funded by the national natural science foundation of china (nsfc), along with three sub-projects under national key research initiatives. his work has also been supported by the china postdoctoral science foundation. his Power system stability and control research output includes 36 sci-indexed publications, with 21 papers authored as either the first or corresponding author. one of his papers has been recognized as an esi highly cited paper, demonstrating the impact of his findings, which have been cited 553 times by other researchers.

👨‍💻 Impact and influence

Yizhen wang’s research has made a profound impact on the field of power system stability and protection. his innovative control strategies and stability models have been adopted in the development of next-generation hvdc networks, particularly for offshore wind power integration. his contributions have influenced the way power grids operate under fluctuating energy Power system stability and control demands and renewable energy sources. through his work, he has helped bridge the gap between theoretical advancements and practical implementation, ensuring that power networks remain efficient, stable, and resilient against disturbances.

🌍 Legacy and future contributions

Looking ahead, yizhen wang aims to further enhance the efficiency and reliability of power systems by integrating artificial intelligence with hvdc control strategies. he is committed to advancing research in multi-spatio-temporal coupling mechanisms and wide-area coordinated control in modern power networks. by mentoring young engineers and collaborating with international researchers, he continues to pave the way for new breakthroughs in power system engineering. his legacy will be defined by his relentless pursuit of innovation, shaping the future of electrical power transmission and ensuring sustainable energy solutions for generations to come.

Notable Publications

Title: A Mode-switching Strategy of Droop Control for VSC-MTDC Systems Considering Maximum DC Voltage Regulation Capability
Author(s): Wang, Y.; Qiu, F.; Wang, Z.; Ji, Y.; Chen, Z.; Wang, C.
Journal: CSEE Journal of Power and Energy Systems
Title: A Novel Optimal Configuration Method of Energy Storage System for Offshore Isolated Grid
Author(s): Pei, A.; Huang, C.; Li, G.; Dong, F.; Li, J.; Wang, Y.
Journal: IEEE Power and Energy Society General Meeting
Title: An Improved AC-Link Voltage Matching Control for the Multiport Modular Multilevel DC Transformer in MVDC Applications
Author(s): Chen, Y.; Yu, S.; Wang, Y.; Yang, R.; Cheng, X.
Journal: Energies
Title: Analysis and Control of DC Voltage Dynamics Based on a Practical Reduced-Order Model of Droop-Controlled VSC-MTDC System in DC Voltage Control Timescale
Author(s): Wang, Y.; Wang, Z.; Lei, M.; Qiu, F.
Journal: IEEE Transactions on Power Delivery
Title: Low-voltage DC building distribution and utilization system and its implementation in China southern grid
Author(s): Guo, P.; Zhang, X.-Y.; Yuan, Z.; Zhao, Y.; Wang, Y.; Liu, G.; Man, J.; Wang, Y.; Jiang, Z.; Xiang, M. et al.
Journal: IET Renewable Power Generation

🎓 Early academic pursuits

Peng Chen, born in november 1988, embarked on his academic journey with a strong foundation in chemistry. he earned his bachelor’s degree in chemistry from qinghai normal university in 2010. his passion for inorganic chemistry led him to pursue a master’s degree at yunnan university, where he deepened his knowledge and research skills. motivated by a desire to contribute to materials engineering, peng chen pursued his ph.d. at northeastern university. his doctoral studies were enriched by international experiences as a visiting ph.d. student at nanjing tech university and georgia institute of technology, where he gained exposure to cutting-edge research in metallurgy and materials engineering.

💼 Professional endeavors

peng chen’s career in academia began in 2014 when he joined tongren university as a lecturer. his dedication to teaching and research quickly propelled him to the position of associate professor by 2022. throughout his career, he has been actively involved in several research projects, focusing on the development of advanced materials for energy storage and environmental applications. his work at tongren university has been supported by significant funding from the natural science foundation of guizhou province and the thousands talent program of guizhou province, where he served as the principal investigator.

🔬 Contributions and research focus

peng chen’s research is primarily centered on the development of innovative materials for energy storage, particularly in the field of zinc-ion Energy transition and storage batteries. at nanjing tech university, under the supervision of professor yuping wu, he worked on modifying zinc anodes for high-energy aqueous rechargeable zinc-ion batteries. his time as a visiting ph.d. student at georgia institute of technology under professor nian liu further enhanced his expertise in this area. he contributed to pioneering research on nanoscale carbon shells inspired by pomegranates and the performance of zinc metal anodes with electron-conductive polymer coatings. his work also extended to the design of flexible energy storage devices and the development of self-healing liquid metals for silicon anodes.

🏅 Accolades and recognition

peng chen’s research achievements have been recognized with various awards and grants, reflecting his contributions to the field of materials engineering. his successful acquisition of funding from prestigious programs such as the natural science foundation of guizhou province and the thousands talent program of guizhou province highlights his standing as a leading researcher in his field. his work has been instrumental in Energy transition and storage advancing the understanding and development of materials for energy storage and environmental protection.

🌍 Impact and influence

peng chen’s research has had a significant impact on the scientific community, particularly in the field of energy storage. his work on zinc-ion batteries and advanced materials has not only contributed to academic knowledge but also holds potential for real-world applications in Energy transition and storage sustainable energy solutions. his research on the quantitative analysis of heavy metals in gastrodia elata and the adsorbing performance of metal-organic frameworks (mofs) for nitrogen and sulfur oxides has further expanded the applications of his work into environmental protection.

🔧 Legacy and future contributions

looking forward, peng chen’s legacy is likely to be marked by his innovative contributions to materials engineering and his commitment to advancing sustainable technologies. his ongoing research at tongren university continues to push the boundaries of what is possible in the field of energy storage and environmental protection. as he continues to mentor the next generation of scientists, his influence will extend beyond his own research, shaping the future of materials engineering for years to come.