Mrs Jiawei Yu | Electrical Engineering | Best Researcher

Researcher , Huazhong University of Science and Technology , China

Jiawei Yu 👨‍🔬, born in June 1996 🎂, is a dedicated researcher at the Electric Power Research Institute ⚡ in Guangzhou, China 🇨🇳. With a strong academic background in accounting and electrical engineering 📚🔌, he specializes in real-time simulation and stability analysis of power systems 💡. Passionate about scientific exploration 🔬, Jiawei contributes to safer and more efficient renewable energy integration 🌱🔋. His rigorous work ethic and innovative mindset 🧠 make him a valuable figure in the field of new energy and grid safety 🔧. Jiawei is recognized for advancing power system technologies 🏆.

Professional Profile:

SCOPUS

Education & Experience :

Jiawei Yu completed his master’s degree 🎓 in Accounting and Electrical Engineering from Huazhong University of Science and Technology 🏫 (2018–2021). His research focused on the stability analysis of power systems and new energy control ⚙️🔋. Since July 2021, he has been working as a researcher at the Electric Power Research Institute 🔬, contributing to real-time simulation of large-scale power grids, grid connection testing for renewables, and stability evaluations ⚡🌐. Based in Guangzhou 📍, he brings academic excellence and technical expertise to China’s evolving energy landscape 🇨🇳.

Professional Development :

Professionally, Jiawei Yu focuses on power grid simulation and renewable energy integration ⚡🌿. His key skillset includes expertise in RTDS (Real-Time Digital Simulator) 🖥️, allowing advanced modeling of grid behavior. He has played an essential role in grid connection testing of new energy projects 🚧⚡, ensuring safety and performance. Jiawei consistently demonstrates a rigorous and scientific approach to research 🔍, working at the intersection of innovation, policy, and practical grid operations 🧠💼. His contributions reflect a blend of academic knowledge and industry application, shaping the smart grid future 🌐🔧.

Research Focus :

Jiawei Yu’s research focus lies in electrical engineering and power systems, with emphasis on renewable energy integration, stability analysis, and real-time simulation ⚡🔋. He is deeply involved in testing how new energy sources interact with large grids 🌍 and analyzing their safety and operational impact 🚨. His work supports the transition to green energy through technical innovation and simulation technologies like RTDS 🌱💻. This positions him within Energy Systems Engineering, Smart Grid Development, and New Energy Control Systems 🧠🔧, making him a vital contributor to the modernization of China’s power infrastructure 🇨🇳.

Awards & Honors :

Jiawei Yu has earned prestigious accolades for his groundbreaking work in electrical power research 🥇🔋. In 2022, he received the Outstanding Technical Service Award 🏅 from the China Southern Power Grid Research Institute, honoring his excellence in technical implementation and reliability assurance. In 2023, he was awarded First Prize for Scientific and Technological Progress 🥇, recognizing his contributions to simulation and safety analysis in renewable energy systems 🔬⚡. These honors reflect his commitment to innovation, problem-solving, and the advancement of sustainable energy technologies 🌱🏆.

Publication Top Notes:

1. Hydrodynamic Interactions of Two Ships Advancing Parallelly in the Head and Oblique Seas

• Authors: Guo‑hua Dong, Chao‑bang Yao, Xiao‑shuai Sun, Jia‑wei Yu, Da‑kui Feng ship-research.com+15link.springer.com+15sciencedirect.com+15
• Year: 2025 (Published 19 May 2025) ntnuopen.ntnu.no+2link.springer.com+2pureportal.strath.ac.uk+2
• Citations: 0 (as per preview)
• Points:
  • Introduces a 3D panel method with an inner/outer domain via virtual control surface
  • Employs Taylor expansion BEM inside, and free-surface Green function outside
  • Validated against experiments; analyzes six-component motions and viscous damping
  • Explores longitudinal & heading-angle effects on ship interactions sciencedirect.com+13link.springer.com+13eurekamag.com+13

2. A Partitioned Functional-Decomposition Scheme for Modelling Wave‑Ship‑Sloshing Interaction

• Authors: Jiawei Yu, Chaobang Yao, Guohua Dong, Fanchen Zhang, Da‑kui Feng arxiv.org+6sciencedirect.com+6link.springer.com+6
• Year: 2024 (Published ~6 months ago) sciencedirect.com+2sciencedirect.com+2sciencedirect.com+2
• Citations: 0 (as per preview)
• Points:
  • Proposes hybrid model combining SWENSE (functional decomposition) and sloshing solver
  • Couples potential flow and viscous domains; uses Level‑set & implicit inner iterations
  • Achieves accurate and efficient wave–ship–sloshing simulation core.ac.uk+15sciencedirect.com+15sciencedirect.com+15

3. Numerical Study on Hydrodynamic Interaction Between Two Parallel Surge‑Released Ships Advancing in Head Regular Waves Based on the Hybrid Method

• Authors: (Not listed in available preview) eurekamag.com+15sciencedirect.com+15dcwan.sjtu.edu.cn+15
• Year: 2024 (published ~7 months ago)
• Citations: 1
• Points:
  • Utilizes hybrid approach: potential flow + functional-decomposed URANS
  • Simulates surge-release scenarios in regular head waves
  • Provides efficient and accurate hydrodynamic interaction insights pureportal.strath.ac.uk+15sciencedirect.com+15academia.edu+15

4. A Frequency Domain Hybrid Green Function Method for Seakeeping and Added Resistance Performance of Ships Advancing in Waves

• Authors: (Preview did not state authors)
• Year: 2024
• Citations: 2 (as per your list)
• Points:
  • Develops hybrid Green function method in frequency domain
  • Focuses on seakeeping and added resistance analysis
  • Enhances accuracy of motion predictions in wave scenarios

5. Vertical Line Time Domain Green Function and Its Applications in Numerical Simulation of Ship Seakeeping Performance

• Authors: (Not listed in preview)
• Year: 2024
• Citations: 0 (as per your list)
• Points:
  • Introduces vertical line time-domain Green function
  • Potentially improves time-domain response prediction accuracy
  • Applies it in numerical simulations of seakeeping behavior

Conclusion :

Jiawei Yu exemplifies the qualities of a leading early-career researcher through his innovative contributions to power system simulation and marine hydrodynamics. His work addresses real-world energy challenges using advanced simulation tools and has direct applications in renewable energy grid safety, ship engineering, and sustainable infrastructure. With a growing citation record, multiple impactful publications, and institutional recognition, he stands out as a well-rounded, high-impact researcher deserving of the Best Researcher Award.