Investigation of MHD instabilities and control in KSTAR preparing for high beta operation

Y. S. Park; S. A. Sabbagh; J. M. Bialek; J. W. Berkery; S. G. Lee; W. H. Ko; J. G. Bak; Y. M. Jeon; J. K. Park; J. Kim; S. H. Hahn; J. W. Ahn; S. W. Yoon; K. D. Lee; M. J. Choi; G. S. Yun; H. K. Park; K. I. You; Y. S. Bae; Y. K. Oh; W. C. Kim; J. G. Kwak

doi:10.1088/0029-5515/53/8/083029

Investigation of MHD instabilities and control in KSTAR preparing for high beta operation

Y. S. Park, S. A. Sabbagh, J. M. Bialek, J. W. Berkery, S. G. Lee, W. H. Ko, J. G. Bak, Y. M. Jeon, J. K. Park, J. Kim, S. H. Hahn, J. W. Ahn, S. W. Yoon, K. D. Lee, M. J. Choi, G. S. Yun, H. K. Park, K. I. You, Y. S. Bae, Y. K. OhW. C. Kim, J. G. Kwak

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Abstract

Initial H-mode operation of the Korea Superconducting Tokamak Advanced Research (KSTAR) is expanded to higher normalized beta and lower plasma internal inductance moving towards design target operation. As a key supporting device for ITER, an important goal for KSTAR is to produce physics understanding of MHD instabilities at long pulse with steady-state profiles, at high normalized beta, and over a wide range of plasma rotation profiles. An advance from initial plasma operation is a significant increase in plasma stored energy and normalized beta, with W_tot = 340 kJ, β_N = 1.9, which is 75% of the level required to reach the computed ideal n = 1 no-wall stability limit. The internal inductance was lowered to 0.9 at sustained H-mode duration up to 5 s. In ohmically heated plasmas, the plasma current reached 1 MA with prolonged pulse length up to 12 s. Rotating MHD modes are observed in the device with perturbations having tearing rather than ideal parity. Modes with m/n = 3/2 are triggered during the H-mode phase but are relatively weak and do not substantially reduce W_tot. In contrast, 2/1 modes to date only appear when the plasma rotation profiles are lowered after H-L back-transition. Subsequent 2/1 mode locking creates a repetitive collapse of β_N by more than 50%. Onset behaviour suggests the 3/2 mode is close to being neoclassically unstable. A correlation between the 2/1 mode amplitude and local rotation shear from an x-ray imaging crystal spectrometer suggests that the rotation shear at the mode rational surface is stabilizing. As a method to access the ITER-relevant low plasma rotation regime, plasma rotation alteration by n = 1, 2 applied fields and associated neoclassical toroidal viscosity (NTV) induced torque is presently investigated. The net rotation profile change measured by a charge exchange recombination diagnostic with proper compensation of plasma boundary movement shows initial evidence of non-resonant rotation damping by the n = 1, 2 applied field configurations. The result addresses perspective on access to low rotation regimes for MHD instability studies applicable to ITER. Computation of active RWM control using the VALEN-3D code examines control performance using midplane locked mode detection sensors. The LM sensors are found to be strongly affected by mode and control coil-induced vessel current, and consequently lead to limited control performance theoretically.

Original language	English (US)
Article number	083029
Journal	Nuclear Fusion
Volume	53
Issue number	8
DOIs	https://doi.org/10.1088/0029-5515/53/8/083029
State	Published - Aug 2013

All Science Journal Classification (ASJC) codes

Nuclear and High Energy Physics
Condensed Matter Physics

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Park, Y. S., Sabbagh, S. A., Bialek, J. M., Berkery, J. W., Lee, S. G., Ko, W. H., Bak, J. G., Jeon, Y. M., Park, J. K., Kim, J., Hahn, S. H., Ahn, J. W., Yoon, S. W., Lee, K. D., Choi, M. J., Yun, G. S., Park, H. K., You, K. I., Bae, Y. S., ... Kwak, J. G. (2013). Investigation of MHD instabilities and control in KSTAR preparing for high beta operation. Nuclear Fusion, 53(8), Article 083029. https://doi.org/10.1088/0029-5515/53/8/083029

@article{fde98e7baddd4f39bd78d0c0ce27b438,

title = "Investigation of MHD instabilities and control in KSTAR preparing for high beta operation",

abstract = "Initial H-mode operation of the Korea Superconducting Tokamak Advanced Research (KSTAR) is expanded to higher normalized beta and lower plasma internal inductance moving towards design target operation. As a key supporting device for ITER, an important goal for KSTAR is to produce physics understanding of MHD instabilities at long pulse with steady-state profiles, at high normalized beta, and over a wide range of plasma rotation profiles. An advance from initial plasma operation is a significant increase in plasma stored energy and normalized beta, with Wtot = 340 kJ, βN = 1.9, which is 75\% of the level required to reach the computed ideal n = 1 no-wall stability limit. The internal inductance was lowered to 0.9 at sustained H-mode duration up to 5 s. In ohmically heated plasmas, the plasma current reached 1 MA with prolonged pulse length up to 12 s. Rotating MHD modes are observed in the device with perturbations having tearing rather than ideal parity. Modes with m/n = 3/2 are triggered during the H-mode phase but are relatively weak and do not substantially reduce Wtot. In contrast, 2/1 modes to date only appear when the plasma rotation profiles are lowered after H-L back-transition. Subsequent 2/1 mode locking creates a repetitive collapse of βN by more than 50\%. Onset behaviour suggests the 3/2 mode is close to being neoclassically unstable. A correlation between the 2/1 mode amplitude and local rotation shear from an x-ray imaging crystal spectrometer suggests that the rotation shear at the mode rational surface is stabilizing. As a method to access the ITER-relevant low plasma rotation regime, plasma rotation alteration by n = 1, 2 applied fields and associated neoclassical toroidal viscosity (NTV) induced torque is presently investigated. The net rotation profile change measured by a charge exchange recombination diagnostic with proper compensation of plasma boundary movement shows initial evidence of non-resonant rotation damping by the n = 1, 2 applied field configurations. The result addresses perspective on access to low rotation regimes for MHD instability studies applicable to ITER. Computation of active RWM control using the VALEN-3D code examines control performance using midplane locked mode detection sensors. The LM sensors are found to be strongly affected by mode and control coil-induced vessel current, and consequently lead to limited control performance theoretically.",

author = "Park, \{Y. S.\} and Sabbagh, \{S. A.\} and Bialek, \{J. M.\} and Berkery, \{J. W.\} and Lee, \{S. G.\} and Ko, \{W. H.\} and Bak, \{J. G.\} and Jeon, \{Y. M.\} and Park, \{J. K.\} and J. Kim and Hahn, \{S. H.\} and Ahn, \{J. W.\} and Yoon, \{S. W.\} and Lee, \{K. D.\} and Choi, \{M. J.\} and Yun, \{G. S.\} and Park, \{H. K.\} and You, \{K. I.\} and Bae, \{Y. S.\} and Oh, \{Y. K.\} and Kim, \{W. C.\} and Kwak, \{J. G.\}",

year = "2013",

month = aug,

doi = "10.1088/0029-5515/53/8/083029",

language = "English (US)",

volume = "53",

journal = "Nuclear Fusion",

issn = "0029-5515",

publisher = "IOP Publishing Ltd.",

number = "8",

}

Park, YS, Sabbagh, SA, Bialek, JM, Berkery, JW, Lee, SG, Ko, WH, Bak, JG, Jeon, YM, Park, JK, Kim, J, Hahn, SH, Ahn, JW, Yoon, SW, Lee, KD, Choi, MJ, Yun, GS, Park, HK, You, KI, Bae, YS, Oh, YK, Kim, WC & Kwak, JG 2013, 'Investigation of MHD instabilities and control in KSTAR preparing for high beta operation', Nuclear Fusion, vol. 53, no. 8, 083029. https://doi.org/10.1088/0029-5515/53/8/083029

TY - JOUR

T1 - Investigation of MHD instabilities and control in KSTAR preparing for high beta operation

AU - Park, Y. S.

AU - Sabbagh, S. A.

AU - Bialek, J. M.

AU - Berkery, J. W.

AU - Lee, S. G.

AU - Ko, W. H.

AU - Bak, J. G.

AU - Jeon, Y. M.

AU - Park, J. K.

AU - Kim, J.

AU - Hahn, S. H.

AU - Ahn, J. W.

AU - Yoon, S. W.

AU - Lee, K. D.

AU - Choi, M. J.

AU - Yun, G. S.

AU - Park, H. K.

AU - You, K. I.

AU - Bae, Y. S.

AU - Oh, Y. K.

AU - Kim, W. C.

AU - Kwak, J. G.

PY - 2013/8

Y1 - 2013/8

N2 - Initial H-mode operation of the Korea Superconducting Tokamak Advanced Research (KSTAR) is expanded to higher normalized beta and lower plasma internal inductance moving towards design target operation. As a key supporting device for ITER, an important goal for KSTAR is to produce physics understanding of MHD instabilities at long pulse with steady-state profiles, at high normalized beta, and over a wide range of plasma rotation profiles. An advance from initial plasma operation is a significant increase in plasma stored energy and normalized beta, with Wtot = 340 kJ, βN = 1.9, which is 75% of the level required to reach the computed ideal n = 1 no-wall stability limit. The internal inductance was lowered to 0.9 at sustained H-mode duration up to 5 s. In ohmically heated plasmas, the plasma current reached 1 MA with prolonged pulse length up to 12 s. Rotating MHD modes are observed in the device with perturbations having tearing rather than ideal parity. Modes with m/n = 3/2 are triggered during the H-mode phase but are relatively weak and do not substantially reduce Wtot. In contrast, 2/1 modes to date only appear when the plasma rotation profiles are lowered after H-L back-transition. Subsequent 2/1 mode locking creates a repetitive collapse of βN by more than 50%. Onset behaviour suggests the 3/2 mode is close to being neoclassically unstable. A correlation between the 2/1 mode amplitude and local rotation shear from an x-ray imaging crystal spectrometer suggests that the rotation shear at the mode rational surface is stabilizing. As a method to access the ITER-relevant low plasma rotation regime, plasma rotation alteration by n = 1, 2 applied fields and associated neoclassical toroidal viscosity (NTV) induced torque is presently investigated. The net rotation profile change measured by a charge exchange recombination diagnostic with proper compensation of plasma boundary movement shows initial evidence of non-resonant rotation damping by the n = 1, 2 applied field configurations. The result addresses perspective on access to low rotation regimes for MHD instability studies applicable to ITER. Computation of active RWM control using the VALEN-3D code examines control performance using midplane locked mode detection sensors. The LM sensors are found to be strongly affected by mode and control coil-induced vessel current, and consequently lead to limited control performance theoretically.

AB - Initial H-mode operation of the Korea Superconducting Tokamak Advanced Research (KSTAR) is expanded to higher normalized beta and lower plasma internal inductance moving towards design target operation. As a key supporting device for ITER, an important goal for KSTAR is to produce physics understanding of MHD instabilities at long pulse with steady-state profiles, at high normalized beta, and over a wide range of plasma rotation profiles. An advance from initial plasma operation is a significant increase in plasma stored energy and normalized beta, with Wtot = 340 kJ, βN = 1.9, which is 75% of the level required to reach the computed ideal n = 1 no-wall stability limit. The internal inductance was lowered to 0.9 at sustained H-mode duration up to 5 s. In ohmically heated plasmas, the plasma current reached 1 MA with prolonged pulse length up to 12 s. Rotating MHD modes are observed in the device with perturbations having tearing rather than ideal parity. Modes with m/n = 3/2 are triggered during the H-mode phase but are relatively weak and do not substantially reduce Wtot. In contrast, 2/1 modes to date only appear when the plasma rotation profiles are lowered after H-L back-transition. Subsequent 2/1 mode locking creates a repetitive collapse of βN by more than 50%. Onset behaviour suggests the 3/2 mode is close to being neoclassically unstable. A correlation between the 2/1 mode amplitude and local rotation shear from an x-ray imaging crystal spectrometer suggests that the rotation shear at the mode rational surface is stabilizing. As a method to access the ITER-relevant low plasma rotation regime, plasma rotation alteration by n = 1, 2 applied fields and associated neoclassical toroidal viscosity (NTV) induced torque is presently investigated. The net rotation profile change measured by a charge exchange recombination diagnostic with proper compensation of plasma boundary movement shows initial evidence of non-resonant rotation damping by the n = 1, 2 applied field configurations. The result addresses perspective on access to low rotation regimes for MHD instability studies applicable to ITER. Computation of active RWM control using the VALEN-3D code examines control performance using midplane locked mode detection sensors. The LM sensors are found to be strongly affected by mode and control coil-induced vessel current, and consequently lead to limited control performance theoretically.

UR - https://www.scopus.com/pages/publications/84881447523

UR - https://www.scopus.com/inward/citedby.url?scp=84881447523&partnerID=8YFLogxK

U2 - 10.1088/0029-5515/53/8/083029

DO - 10.1088/0029-5515/53/8/083029

M3 - Article

AN - SCOPUS:84881447523

SN - 0029-5515

VL - 53

JO - Nuclear Fusion

JF - Nuclear Fusion

IS - 8

M1 - 083029

ER -

Investigation of MHD instabilities and control in KSTAR preparing for high beta operation

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