Mingzhi Guan | Superconducting Magnet | Best Researcher Award

Published on by Global Energy Awards

Prof Dr. Mingzhi Guan | Superconducting Magnet | Best Researcher Award

PHD at Lanzhou University, China

Prof. Mingzhi Guan is a distinguished researcher at the Institute of Modern Physics, Chinese Academy of Sciences (CAS). He has been recognized as an Outstanding Youth Program awardee by CAS and a key talent in Gansu Province. Prof. Guan earned his Doctoral degree at Lanzhou University in 2012 and furthered his research as a visiting scholar at the Massachusetts Institute of Technology (MIT) in the USA and the University of Strathclyde in the UK. Superconducting Magnet

Professional Profiles

Education

Lanzhou University Doctoral Degree, 2012 Visiting Scholar Massachusetts Institute of Technology (MIT), USA University of Strathclyde, UK Superconducting Magnet

Awards and Honors

First-Prize in Technological Invention from the Ministry of Education (2019) Second-Prize in Technological Progress from the China Electrotechnical Society (2021) Second-Prize in Technological Invention from Beijing (2024) Chinese Academy of Sciences Western Youth Award Fellow of the Youth Innovation Promotion Association

Key Achievements

Pioneered the world’s first extreme full-background superconducting mechanics measurement and control device, a version of which has been made available to seven research institutions. Published over 100 academic papers, with notable recognition in the form of Best Paper Awards and Highlight Papers. Holds more than 10 national invention patents, with four successfully commercialized.

Research Focus

Prof. Guan focuses on multi-field coupled mechanics and superconducting mechanics under extreme environments. His innovative research has resulted in over 100 published academic papers, with four receiving Best Paper Awards and Highlight Papers from international journals. Additionally, he holds more than 10 national invention patents, four of which have been successfully commercialized.

Publications

  1. Numerical Study on Mechanical Behavior and Electromechanical Properties of Solder-Jointed REBCO-Coated Conductors, Publication date: 2024.
  2. Experimental study on screening-current induced strain in REBCO insert coils: under critical current control and operation current cycles, Publication date: 2024.
  3. Distributed Strain Measurements for a 5T Split NbTi Superconducting Magnet Based on Rayleigh Scattering Distributed Fiber, Publication date: 2024.
  4. Enhanced strain and temperature sensing in copper-coated fiber Bragg Grating sensors across a wide temperature range from cryogenic to elevated levels, Publication date: 2024.
  5. Quench Analysis and Improvement of a Semi-Open Split NbTi Superconducting Magnet With Large Inductance, Publication date: 2024.
  6. Design of a 3 T REBCO Dipole Magnet Considering Screening Current Induced Magnetic Field and its First Test Result at 77 K, Publication date: 2024.
  7. An Advanced Computational Approach for Evaluating Screening-Current-Induced Strain in REBCO HTS Coils Considering Electromagnetic-Mechanical Coupling,
  8. Design and Testing of a Prototype Canted-Cosine-Theta HTS Dipole Magnet using CORC CablePublication date: 2023.
  9. Quench analysis and experiment of CiADS linac superconducting solenoid, Publication date: 2024.
  10. Distributed real-time strain monitoring for Nb3Sn sextupole superconducting magnets: from assembly to excitationPublication date: 2024.
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