High beta stability research on KSTAR at high non-inductive fraction

Steven Anthony Sabbagh; Young-Seok Park; John W Berkery; Jae-Heon Ahn; Yanzheng Jiang; Juan D Riquezes; Jun-Gyo Bak; Sang-Hee Hahn; Hyunsun Hahn; Young-Mu Jeon; Jayhyun Kim; Hyun-Seok Seok Kim; Jin-Seok Ko; Won Ha Ko; Jong-Hua Lee; Byung-Ho Park; Laurent Terzolo; Si-Woo Yoon; Alan Herbert Glasser; Zhirui Wang

High beta stability research on KSTAR at high non-inductive fraction

ORAL

Abstract

KSTAR plasmas have exceeded the ideal n = 1 no-wall MHD stability limit and reached β_N > 4. Analysis of advanced operation regimes using TRANSP indicate that the non-inductive current fraction has reached 75 percent. Regions of weak safety factor q shear can form in different parts of the plasma dependent upon the broadness of the bootstrap current profile. Kinetic equilibrium reconstructions with MSE data to constrain the local magnetic field pitch angle are used as input to evaluate ideal and resistive stability using DCON. At present, high β_N operation is limited by tearing instabilities rather than resistive wall modes (RWM) that are computed to be stabilized by kinetic MHD effects. TRANSP code predictive capability is used to examine the effects of the second (off-axis) NBI system installed for the 2018 run determining plasma parameters important for stability. Values of the global energy confinement quality (H98y2) and the Greenwald density fraction are set to match past performance for reliable extrapolation. Predictive analyses are used to design experiments yielding solutions with β_N~4.5 and 100% non-inductive current drive. Active RWM feedback with both DC and AC field compensation has been implemented for mode control in 2018.

Nov. 7, 2018, 1:18 PM – Nov. 7, 2018, 1:30 PM

Presenters

Steven Anthony Sabbagh

Columbia University, Columbia U., Columbia Univ

Authors

Steven Anthony Sabbagh

Columbia University, Columbia U., Columbia Univ
Young-Seok Park

Columbia U., Columbia Univ, Columbia University
John W Berkery

Columbia U.
Jae-Heon Ahn

Columbia U., Columbia Univ, Columbia University
Yanzheng Jiang

Columbia U., Columbia Univ, Columbia University
Juan D Riquezes

Columbia U., Columbia Univ, Columbia U, Columbia University
Jun-Gyo Bak

National Fusion Research Institute
Sang-Hee Hahn

National Fusion Research Institute, Natl Fusion Res Inst, NFRI
Hyunsun Hahn

National Fusion Research Institute, Natl Fusion Res Inst
Young-Mu Jeon

National Fusion Research Institute
Jayhyun Kim

National Fusion Research Institute
Hyun-Seok Seok Kim

National Fusion Research Institute
Jin-Seok Ko

National Fusion Research Institute, Natl Fusion Res Inst, University of Science and Technology in Korea, NFRI, National Fusion Research Institute, National Fusion Research Institute
Won Ha Ko

Natl Fusion Res Inst, National Fusion Research Institute
Jong-Hua Lee

National Fusion Research Institute, Natl Fusion Res Inst
Byung-Ho Park

National Fusion Research Institute
Laurent Terzolo

National Fusion Research Institute, NFRI
Si-Woo Yoon

Natl Fusion Res Inst, National Fusion Research Institute
Alan Herbert Glasser

Fusion Theory & Computation, Inc., Fusion Theory and Computation, Inc.
Zhirui Wang

PPPL, Princeton Plasma Phys Lab