Self-consistent modeling of CFETR baseline scenarios for steady-state operation

Integrated modeling for core plasma is performed to increase confidence in the proposed baseline scenario in the 0D analysis for the China Fusion Engineering Test Reactor (CFETR). The steady-state scenarios are obtained through the consistent iterative calculation of equilibrium, transport, auxiliar...

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Veröffentlicht in:	Plasma physics and controlled fusion 2017-07, Vol.59 (7), p.75005
Hauptverfasser:	Chen, Jiale, Jian, Xiang, Chan, Vincent S, Li, Zeyu, Deng, Zhao, Li, Guoqiang, Guo, Wenfeng, Shi, Nan, Chen, Xi, CFETR Physics Team
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Sprache:	eng
Schlagworte:	CFETR integrated modeling operation scenario
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container_title	Plasma physics and controlled fusion
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creator	Chen, Jiale Jian, Xiang Chan, Vincent S Li, Zeyu Deng, Zhao Li, Guoqiang Guo, Wenfeng Shi, Nan Chen, Xi CFETR Physics Team
description	Integrated modeling for core plasma is performed to increase confidence in the proposed baseline scenario in the 0D analysis for the China Fusion Engineering Test Reactor (CFETR). The steady-state scenarios are obtained through the consistent iterative calculation of equilibrium, transport, auxiliary heating and current drives (H&CD). Three combinations of H&CD schemes (NB + EC, NB + EC + LH, and EC + LH) are used to sustain the scenarios with qmin > 2 and fusion power of ∼70-150 MW. The predicted power is within the target range for CFETR Phase I, although the confinement based on physics models is lower than that assumed in 0D analysis. Ideal MHD stability analysis shows that the scenarios are stable against n = 1-10 ideal modes, where n is the toroidal mode number. Optimization of RF current drive for the RF-only scenario is also presented. The simulation workflow for core plasma in this work provides a solid basis for a more extensive research and development effort for the physics design of CFETR.
doi_str_mv	10.1088/1361-6587/aa6d20
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title	Self-consistent modeling of CFETR baseline scenarios for steady-state operation
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