ABOUT US

Professors

Professors

Prof. KUANG Guangli
Professor of
Plasma Physics

 

Biography & Introduction

KUANG Guangli, male, PhD, director and professor of the High Magnetic Field Laboratory of Chinese Academy of Sciences. Kuang was engaged in the research on tokomak plasma, especially on the physics and technology related to plasma heating & current drive by means of microwave. He focuses on physics on high magnetic field facilities now.

KUANG Guangli received his PhD degree from the Institute of Plasma Physics of Chinese Academy of Sciences in April 1990. He was then invited to do research on Tokamak's plasma disruption in the Research Center Juelich, Germany, as a visiting scholar for two years. After he returned to China, He has been involved in the development of a megawatt microwave system for plasma current drive, experiments on lower hybrid current drive in Tokamak machines, and simulations on plasma heating and current drive, etc. As project head and coordinator, he carried out several projects from the National Nature Science Foundation and from the Chinese Academy of Sciences. In 2005, He began to do research on high magnetic field. KUANG Guangli is now in charge of a project to develop steady state high field magnets.

Professional Activities

     May 2008 - present    Director and professor, High Magnetic Field Laboratory of Chinese Academy of Sciences;

     Aug. 1992 - Apr. 2008    Institute of Plasma Physics of Chinese Academy of Sciences

     May 2000 - Apr. 2008    Deputy director 

     Jan. 1998 - Apr. 2000    Full professor  

     Jan. 1995 - Dec. 1997     Associate professor     

     Aug. 1992 - Dec. 1994    Assistant professor

     Jun. 1990 - Jul. 1992    Visiting scholar, Research Center Juelich, Germany

 

Research

Selected Publications 

  1. Yunfei Tan, Wenge Chen, Feilong Xu, Jiawu Zhu, Zhiyou Chen, Pengcheng Huang, and Guangli Kuang*, “Thermal-Hydraulic Performance Analysis of the Superconducting Magnet During the Trip of the Resistive Magnet in CHMFL Hybrid Magnet”, IEEE Trans. Appl. Supercond., Vol 24(3), 4300404, 2014.
  2. W. Chen, Tan, Y., Chen, Z., Zhu, J., Chen, Z., Pan, Y., Wang, F., Huang, P., Kuang, G., “Final Design of the 40T Hybrid Magnet Superconducting Outsert”, IEEE Trans. Appl. Supercond., Vol 23(3), 4300404, 2013.
  3. W.G. Chen, Y.F. Tan, F.T. Wang, Z.M. Chen, Y.N. Pan, Z.Y. Chen, P.C. Huang, J.W. Zhu, P. He, Y. Ren, C. Wang, M. Zhang, Q.Y. Shi and G.L. Kuang, “Test Results of the Model Coil for the 40 T Hybrid Magnet Superconducting Outsert,” IEEE Trans. Appl. Supercond., Vol 22(3), 9502204-9502207, 2012.
  4. Jiawu Zhu, Yinnian Pan, Wenge Chen, Yunfei Tan, Pengcheng Huang, and Guangli Kuang, “Fabrication Technique of the Model Coil for the 40-T Hybrid Magnet Superconducting Outsert”, IEEE Trans. Appl. Supercond., Vol 22(2), 4300105-4300108, 2012.
  5. Y.F. Tan, W.G. Chen, Z.Y. Chen, P. He, J.W. Zhu, Y. Ren, Y.N. Pan, F.T. Wang, Z.M. Chen, G.L. Kuang*, “Characterization of Nb3Sn strands for the model coil of the 40 T hybrid magnet”, IEEE Trans. Appl. Supercond. vol. 21 (4), 3447-3450, 2011.
  6. Yunfei Tan, Wenge Chen, Jiawu Zhu, Zhuomin Chen, Yinnian Pan, Futang Wang, Zhiyou Chen, Peng He, Yong Ren, Guangli Kuang*, “Design and Manufacture of the Low-resistance Nb3Sn Joints for the CHMFL 40 T Hybrid Magnet”, IEEE Trans. Appl. Supercond., Vol 21 (3), 2020-2023, 2011.
  7. Tan, Y.; Ren, Y.; Chen, W.; Zhu, J.; Li, J.; He, P.; Kuang, G.*; “Thermal Performance Simulation of a Model Coil for a 40-T Hybrid Magnet”, IEEE Trans. Appl. Supercond. Vol 21 (6), 3608-3611, 2011.
  8. Jiawu Zhu, Yinnian Pan, Wenge Chen, Yunfei Tan, Pengcheng Huang, Guangli Kuang, “Structural Design and Analysis of the Model Coil for the Hybrid Magnet Superconducting Outsert ”, IEEE Trans. Appl. Supercond., Vol 21 (4), 3465-3468, 2011.
  9. Guangli Kuang, “A 40T Hybrid Magnet Under Construction in China”, IEEE Trans. Appl. Supercond., Vol 20 (3), 680-683,2010.
  10. Tan, Y.F.; Kuang, G.L.; Pan, Y.N.; Zhu, J.W.; Chen, W.G.; Wang, F.T.; Chen, Z.M.; Chen, Z.Y.; Ren, Y., “Dummy Coil Development for the Cable-in-Conduit Conductors Superconducting Outsert Coils of a 40 Tesla Hybrid Magnet”, IEEE Trans. Appl. Supercond. Vol 20 (3), 648-651, 2010.
  11. Chen, W.G. Chen, Z.M. Pan, Y.N. Wang, F.T. Chen, Z.Y. Tan, Y.F. Zhu, J.W. Ren, Y. He, P. Kuang, G.L., “Engineering Design of the Superconducting Outsert for 40 T Hybrid Magnet”, IEEE Trans. Appl. Supercond. Vol 20 (3), 1920-1923, 2010.
  12. Zhu J.W., Pan Y.N., Chen W.G., Tan Y.F., Wang F.T., Chen Z.M., Chen Z.Y., He P., Ren Y., Kuang G.L., “Mechanical Behavior Analysis of Model Coil for the 40-T Hybrid Magnet Superconducting Outsert”, IEEE Trans. Appl. Supercond. Vol 20 (3), 628-631, 2010.
  13. Y.F. Tan, F.T. Wang, Z.M. Chen, Y.N. Pan, G.L. Kuang*,“The design of cable-in-conduit conductors for the superconducting outsert coils of a 40 tesla hybrid magnet” Superconductor Science and Technology, vol 22, 025010, 2009.
  14. Tan, Y. Chen, W. Pan, Y. Wang, F. Chen, Z. Zhu, J. Kuang, G.*,“A Conceptual Design of Model Coil for the 40-T Hybrid Magnet Superconducting Outsert ” IEEE Trans. Appl. Supercond., vol 19 (6), 3790, 2009.
 
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