Progress of the KSTAR Research Program Exploring the Advanced High Performance and Steady-State Plasma Operations

Progress of the KSTAR Research Program Exploring the Advanced High Performance and Steady-State Plasma Operations

Korea Superconducting Tokamak Advanced Research (KSTAR) program is strongly focused on solving the scientific and technological issues in steady-state high performance plasma operation in preparation for ITER operation as well as the design basis for DEMO. In this regards, KSTAR has made significant...

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Bibliographic Details
Published in:Journal of the Korean Physical Society Vol. 73; no. 6; pp. 712 - 735
Main Authors: Oh, Yeong-Kook, Yoon, Siwoo, Jeon, Young-Mu, Ko, Won-Ha, Hong, Suk-Ho, Lee, Hyung-Ho, Kwon, Jae-Min, Choi, Minjun, Park, Byung-Ho, Kwak, Jong-Gu, Kim, Woong-Chae, Nam, Yong-Un, Wang, Sonjong, Jeong, Jin-Hyun, Park, Kap-rae, Kim, Yaung-Soo, In, Yongkyoon, Park, Hyeon K., Yun, Gunsu, Choe, Wonho, Ghim, Young-Chul, Na, Yong-Su, Hwang, Y. S.
Format: Journal Article
Language:English
Published: Seoul The Korean Physical Society 01-09-2018
Springer Nature B.V
한국물리학회
Subjects:
Coils
Discharge
Elongation
Error correction
Heating systems
JKPS 50th Anniversary Reviews
Magnetohydrodynamics
Mathematical and Computational Physics
Nuclear power plants
Particle and Nuclear Physics
Physics
Physics and Astronomy
Plasma (physics)
Plasma control
Plasma currents
Review Articles
Safety factors
Steady state
Superconductivity
Theoretical
Tokamak devices
물리학
Edge Localized Mode
Plasma
KSTAR
Steady-state
Fusion
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Summary:Korea Superconducting Tokamak Advanced Research (KSTAR) program is strongly focused on solving the scientific and technological issues in steady-state high performance plasma operation in preparation for ITER operation as well as the design basis for DEMO. In this regards, KSTAR has made significant advances in developing long pulse and high performance plasma scenarios utilizing the advantage of the fully superconducting tokamak. Ten-year of KSTAR operation showed the outstanding progress in the plasma control extending the operation window of the plasma discharges achieving the H-mode up to 1 MA in plasma current, up to 72 s in flat top duration, and up to 2.16 in elongation. In addition to the long pulse discharge, high performance discharges with high betas ( β N ~ 3) could be achieved in the broad range of edge safety factor ( q 95) without external error field correction. The unique features of the KSTAR device (magnetic accuracy with extremely low error fields, steady-state capable heating systems, in-vessel control coils, and advanced imaging and profile diagnostics) has been fully exploited to explore the unveiled physics as well as to exploring the systematic solution for suppression of edge localized mode (ELM) crash. Achieved examples are the record long pulse of H-mode operation without an ELM crash (~ 30 s up to date), and progress in the fundamental transport physics through systematic study using these unique capabilities. Based on the previous research results, intensive research will be followed to explore the advanced high beta operation ( β N ~ 4) with fully suppressed harmful MHD instabilities aiming the integrated solution for DEMO. In this regards, an additional current drive systems and in-vessel structures will be upgraded.
ISSN:0374-4884
1976-8524
DOI:10.3938/jkps.73.712