Investigation of MHD Stability and Active Mode Control Supporting Disruption Avoidance on KSTAR

POSTER

Abstract

H-mode plasma operation in KSTAR has surpassed the computed n = 1 ideal no-wall stability limit for several seconds in duration. High normalized beta operation was limited by resistive tearing instabilities rather than RWMs. Kinetic equilibrium reconstructions including MSE data have been developed for accurate stability and transport analysis. The reconstructed high performance equilibria can exhibit significant variation of the q-profile dependent upon the broadness of the bootstrap current profile as computed by TRANSP code. The stability of the observed m/n = 2/1 tearing mode is computed by using the resistive DCON code and the M3D-C1 code. MISK code analysis examining global MHD stability modified by kinetic effects shows significant passive kinetic stabilization of RWMs. To accurately measure the dynamics of unstable RWMs expected to onset at higher beta by utilizing the newly installed second NBI system, real-time mode identification and active control has been developed in the KSTAR PCS including magnetic sensor compensation of the prompt applied field and the field from the induced current in the passive conductors. This analysis provides the foundation for disruption prediction and avoidance research on KSTAR.

Presenters

  • Young-Seok Park

    Columbia U., Columbia Univ, Columbia University

Authors

  • Young-Seok Park

    Columbia U., Columbia Univ, Columbia University

  • Steven Anthony Sabbagh

    Columbia University, Columbia U., Columbia Univ

  • John William Berkery

    Columbia Univ, Columbia University

  • 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

  • Byung-Ho Park

    National Fusion Research Institute

  • Hyunsun Hahn

    National Fusion Research Institute, Natl Fusion Res Inst

  • Jun-Gyo Bak

    National Fusion Research Institute

  • Young-Mu Jeon

    National Fusion Research Institute

  • Jayhyun Kim

    National Fusion Research Institute

  • Sang-Hee Hahn

    National Fusion Research Institute, Natl Fusion Res Inst, NFRI

  • Minjun J. Choi

    Natl Fusion Res Inst, National Fusion Research Institute

  • Hyun-Seok Seok Kim

    National Fusion Research Institute

  • Jong-Hua Lee

    National Fusion Research Institute, Natl Fusion Res Inst

  • 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

  • Si-Woo Yoon

    Natl Fusion Res Inst, National Fusion Research Institute

  • Nathaniel M Ferraro

    Princeton Plasma Phys Lab, Princeton Plasma Physics Laboratory

  • Zhirui Wang

    PPPL, Princeton Plasma Phys Lab

  • Alan Herbert Glasser

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