Vincent Chan
General Atomics
144 Papers
835 Citations
Vincent Chan is an academic researcher from General Atomics. The author has contributed to research in topics: Tokamak & Fusion power. The author has an hindex of 30, co-authored 138 publications. Previous affiliations of Vincent Chan include University of Science and Technology of China.
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Papers
Overview of the present progress and activities on the CFETR
Yuanxi Wan,Yuanxi Wan,Jiangang Li,Yong Liu,Xiaolin Wang,Vincent Chan,Chang’an Chen,Xuru Duan,P. Fu,Xiang Gao,Kaiming Feng,Liu Songlin,Yuntao Song,Peide Weng,Baonian Wan,Farong Wan,Heyi Wang,Songtao Wu,Minyou Ye,Qingwei Yang,G.Y. Zheng,Ge Zhuang,Qiang Li,Cfetr Physics Team +23 more
TL;DR: The China Fusion Engineering Test Reactor (CFETR) is the next device in the roadmap for the realization of fusion energy in China, which aims to bridge the gaps between the fusion experimental reactor ITER and the demonstration reactor (DEMO).
568
Progress of the CFETR design
Ge Zhuang,G.Q. Li,Jiuyuan Li,Yuanxi Wan,Y. Liu,X.L. Wang,Yong Song,Vincent Chan,Q.W. Yang,B. N. Wan,X.R. Duan,P. Fu,B.J. Xiao +12 more
TL;DR: In this paper, a multi-dimensional code suite with physics-based models, self-consistent steady-state and hybrid mode scenarios for CFETR have been developed under a high magnetic field up to 6.5 T. Subsequently the engineering design of CFETr including the magnet system, vacuum system, tritium breeding blanket, divertor, remote handling and maintenance system.
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Stable Equilibria for Bootstrap-Current Driven Low Aspect Ratio Tokamaks
Robert L. Miller,Y. R. Lin-Liu,A. D. Turnbull,Vincent Chan,L. D. Pearlstein,Olivier Sauter +5 more
- 01 Nov 1996
Abstract: Note: 38th Annual Meeting, APS Division of Plasma Physics, Denver, CO, USA, November 1996, Bull. Amer. Phys. Soc. 41, 1404 (2R27) (1996) Reference CRPP-CONF-1996-032 Record created on 2008-05-13, modified on 2017-05-12
137
Fusion Nuclear Science Facility Candidates
R.D. Stambaugh,Vincent Chan,A.M. Garofalo,Mohamed E. Sawan,D.A. Humphreys,L.L. Lao,J.A. Leuer,T.W. Petrie,Ron Prater,P. B. Snyder,J. Smith,C.P.C. Wong +11 more
TL;DR: Two candidates for the FNSF are considered and the methods of selecting optimum machine design points versus aspect ratio are fully presented; both options appear viable.
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The spherical tokamak path to fusion power
TL;DR: The low-aspect-ratio tokamak or spherical torus (ST) approach offers the two key elements needed to enable magnetic confinement fusion to make the transition from a government-funded research program to the commercial marketplace: a low-cost, low-power, small-size market entry vehicle and a strong economy of scale in larger devices.
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