Haijie Dong | Fusion reactor design | Best Researcher Award

Mr. Haijie Dong | Fusion reactor design | Best Researcher Award

Engineer, Southwestern Institute of Physics, China

Mr. Haijie Dong, an esteemed engineer at the Southwestern Institute of Physics in China, has been recognized with the prestigious Best Researcher Award for his groundbreaking contributions to fusion reactor design 🏆. With his innovative work, Mr. Dong has significantly advanced the field, pushing the boundaries of scientific knowledge and bringing us closer to realizing the potential of fusion energy. His dedication and expertise serve as an inspiration to fellow researchers worldwide, highlighting the importance of collaboration and ingenuity in tackling humanity’s energy challenges.

Profile

orcid

Education

From September 2009 to June 2013, Mr. Haijie Dong pursued his Bachelor’s degree in Engineering Structure and Analysis at Xi’an Jiaotong University, laying the foundation for his future endeavors. 📚

Continuing his academic journey, from September 2013 to June 2016, he pursued a Master’s degree at the same institution, delving deeper into research activities centered around the application of new electromagneto-mechanical coupling analysis methods within the realm of Tokamak structures. 🎓 His notable contributions during this period include publications such as “Electromagneto-mechanical coupling analysis of a test module in J-TEXT Tokamak during plasma disruption” and “A Simplified Analytical Model for the Analysis of Magnetomechanical Dynamic Response of a Test Module in J-TEXT Tokamak.” 📝 These publications underscore Mr. Dong’s dedication to advancing the understanding and application of electromagnetics in fusion reactor design.

Experience

Mr. Haijie Dong embarked on a pivotal role at the China Ship Scientific Research Center, where he spearheaded design and research efforts focused on deep-sea equipment. Due to the sensitive nature of his achievements, detailed introductions are withheld to uphold confidentiality protocols. 🌊

Transitioning to the Southwestern Institute of Physics in June 2020, Mr. Dong embarked on a multifaceted journey, concurrently pursuing a Doctoral degree while contributing significantly to fusion reactor design and engineering research. His focus on electromagnetic and structural analysis has yielded noteworthy publications, including “Maxwell force analysis of CN HCCB TBM based on preliminary design” and “Electromagnetic analysis of HCCB TBM-set during plasma major disruptions.” 🚀 These publications underscore his commitment to advancing the understanding and application of electromagnetic principles in fusion reactor design, marking him as a prominent figure in the field.

Contribution

Our research group at Xi’an Jiaotong University has pioneered a new and efficient numerical method based on the Lagrangian approach, revolutionizing the calculation of dynamic responses in Tokamak structures. 🌟 This method, adept at considering electromagneto-mechanical coupling effects, has demonstrated exceptional accuracy when applied to benchmark problems, aligning closely with experimental results. Currently, our focus lies on its implementation in actual Tokamak structures. 🛠️ Representative works, including “Numerical analysis of electromagneto-mechanical coupling using Lagrangian approach and adaptive time stepping method,” published in the International Journal of Applied Mechanics, underscore our commitment to advancing fusion engineering. 📈 Other publications in prestigious journals like Fusion Engineering and Design and IEEE Transactions on Plasma Science further highlight our impactful contributions.

Publications Top Notes

  1. “Electromagnetic analysis of HCCB TBM-set during plasma major disruptions”
    • Fusion Engineering and Design (2024)
    • Authors: Haijie Dong, Xiang Liu, Xuru Duan, Qian Sheng, Xinghua Wu, Xiaoyu WANG
    • DOI: 10.1016/j.fusengdes.2023.114121
    • 🌌
  2. “Numerical method and experimental validation of the magneto-thermal-mechanical coupling problem with application to tokamak structures”
    • Applied Mathematical Modelling (2023)
    • Authors: Li, X.; Xue, L.; Chen, R.; Dong, H.; Li, Y.; Wang, S.; Pan, Y.; Chen, Z.
    • DOI: 10.1016/j.apm.2023.01.044
    • 🧲
  3. “Maxwell force analysis of CN HCCB TBM based on preliminary design”
    • Fusion Engineering and Design (2022)
    • Authors: Dong, H.; Liu, X.; Sheng, Q.; Wu, X.; Wang, X.; Liao, H.; Chen, Y.
    • DOI: 10.1016/j.fusengdes.2022.113045
    • 🔍
  4. “Numerical analysis method of dynamic derivatives of ground effect vehicle in viscous flow,地效翼船爬升角导数数值分析方法”
  5. “A Simplified Analytical Model for the Analysis of Magnetomechanical Dynamic Response of a Test Module in J-TEXT Tokamak”
    • IEEE Transactions on Plasma Science (2019)
    • Authors: Li, X.; Dong, H.; Yuan, H.; Wang, K.; Yang, J.; Wang, W.; Chen, Z.
    • DOI: 10.1109/TPS.2019.2928822
  6. “Modeling of Ohmic Disruptive Discharge in J-TEXT Using the Tokamak Simulation Code”
    • IEEE Transactions on Plasma Science (2018)
    • Authors: Yang, J.; Wang, H.; Chu, D.; Shi, B.; Zhang, Q.; Qi, J.; Zhang, M.; Dong, H.; Deng, H.; Wang, W.
    • DOI: 10.1109/TPS.2018.2827927
    • 🌀
  7. “Electromagneto-mechanical coupling analysis of a test module in J-TEXT Tokamak during plasma disruption”
    • Fusion Engineering and Design (2016)
    • Authors: Dong, H.; Yuan, Z.; Yuan, H.; Pei, C.; Chen, Z.; Yang, J.; Wang, W.
    • DOI: 10.1016/j.fusengdes.2016.02.030
    • 🧪
  8. “Numerical analysis of electromagneto-mechanical coupling using Lagrangian approach and adaptive time stepping method”
    • International Journal of Applied Mechanics (2014)
    • Authors: Li, W.; Dong, H.; Yuan, Z.; Chen, Z.
    • DOI: 10.1142/S1758825114500513
    • 📐