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JI Xiang (戢翔), SONG Yuntao (宋云涛), WU Songtao(武松涛), WANG Zhibin(王志滨), SHEN Guang (沈光), LIU Xufeng (刘旭峰), CAO Lei (曹磊), ZHOU zibo (周自波), PENG Xuebing(彭学兵), WANG Chenghao(王成昊). Electromagnetic Modeling of the Passive Stabilization Loop at EAST[J]. Plasma Science and Technology, 2012, 14(9): 855-858. DOI: 10.1088/1009-0630/14/9/16
Citation: JI Xiang (戢翔), SONG Yuntao (宋云涛), WU Songtao(武松涛), WANG Zhibin(王志滨), SHEN Guang (沈光), LIU Xufeng (刘旭峰), CAO Lei (曹磊), ZHOU zibo (周自波), PENG Xuebing(彭学兵), WANG Chenghao(王成昊). Electromagnetic Modeling of the Passive Stabilization Loop at EAST[J]. Plasma Science and Technology, 2012, 14(9): 855-858. DOI: 10.1088/1009-0630/14/9/16
  • A passive stabilization loop (PSL) has been designed and manufactured in order to enhance the control of vertical instability and accommodate the new stage for high-performance plasma at EAST. Eddy currents are induced by vertical displacement events (VDEs) and disruption, which can produce a magnetic field to control the vertical instability of the plasma in a short timescale. A finite element model is created and meshed using ANSYS software. Based on the simulation of plasma VDEs and disruption, the distribution and decay curve of the eddy currents on the PSL are obtained. The largest eddy current is 200 kA and the stress is 68 MPa at the outer current bridge, which is the weakest point of the PSL because of the eddy currents and the magnetic fields. The analysis results provide the supporting data for the structural design.
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