学位论文详细信息
Extension of neoclassical rotation theory for tokamaks to account for geometric expansion/compression of magnetic flux surfaces
Neoclassical;Plasma;Tokamak;Rotation
Bae, Cheonho ; Nuclear and Radiological Engineering
University:Georgia Institute of Technology
Department:Nuclear and Radiological Engineering
关键词: Neoclassical;    Plasma;    Tokamak;    Rotation;   
Others  :  https://smartech.gatech.edu/bitstream/1853/45839/1/bae_cheonho_201212_phd.pdf
美国|英语
来源: SMARTech Repository
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【 摘 要 】

An extended neoclassical rotation theory (poloidal and toroidal) is developed from the fluid moment equations, using the Braginskii decomposition of the viscosity tensor extended to generalized curvilinear geometry and a neoclassical calculation of the parallel viscosity coefficient interpolated over collision regimes. Important poloidal dependences of density and velocity are calculated using the Miller equilibrium flux surface geometry representation, which takes into account elongation, triangularity, flux surface compression/expansion and the Shafranov shift.The resulting set of eight (for a two-ion-species plasma model) coupled nonlinear equations for the flux surface averaged poloidal and toroidal rotation velocities and for the up-down and in-out density asymmetries for both ion species are solved numerically.The numerical solution methodology, a combination of nonlinear Successive Over-Relaxation(SOR) and Simulated Annealing(SA), is also discussed.Comparison of prediction with measured carbon poloidal and toroidal rotation velocities in a co-injected and a counter-injected H-mode discharges in DIII-D [J. Luxon, Nucl. Fusion 42, 614 (2002)] indicates agreement to within <10% except in the very edge in the co-injected discharge.

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