论文信息 - Moment equation approach to neoclassical transport theory

Moment equation approach to neoclassical transport theory

The neoclassical cross‐field fluxes for a toroidally confined, axisymmetric plasma are calculated in terms of the thermodynamic forces from the fluid continuity and momentum balance equations. This macroscopic formulation of neoclassical transport theory unifies the numerous complex expressions for the transport coefficients, previously obtained by solving the Fokker–Planck equation, and elucidates their physical basis. In the large aspect ratio limit, the continuous transition in the scaling of the diffusion coefficient throughout various collisionality regimes is shown to depend on the ratio of parallel viscosity coefficients of the plasma species. Comparison of the present results with the kinetic theory expressions for the neoclassical fluxes determines the parallel viscosity coefficients for a multispecies plasma in the long‐mean‐free‐path regime.

S. Hirshman

[1] S. P. Hirshman,et al. Neoclassical transport of a multispecies toroidal plasma in various collisionality regimes , 1977 .

[2] F. Werkoff,et al. Diffusion in tokamaks with impurities in the Pfirsch-Schlüter regime , 1977 .

[3] S. P. Hirshman,et al. Approximate Fokker–Planck collision operator for transport theory applications , 1976 .

[4] R. Hazeltine,et al. Detailed ambipolar balancing in tokamak diffusion , 1976 .

[5] E. Frieman,et al. Toroidal plasma rotation in axisymmetric and slightly nonaxisymmetric systems , 1976 .

[6] S. Hirshman. Transport properties of a toroidal plasma in a mixed collisionality regime , 1976 .

[7] A. Boozer. Orthogonal conductivity of a toroidal plasma , 1975 .

[8] Impurity transport in tokamaks in the banana-plateau regime , 1974 .

[9] R. Hazeltine,et al. Rotation of a toroidally confined, collisional plasma , 1974 .

[10] T. H. Stix,et al. Decay of poloidal rotation in a tokamak plasma , 1973 .

[11] J. Connor,et al. The neo-classical transport theory of a plasma with multiple ion species , 1973 .

[12] Marshall N. Rosenbluth,et al. Plasma Transport in Toroidal Confinement Systems , 1972 .

[13] H. Wimmel. Energy-balance equation and enhanced collisional plasma diffusion , 1970 .

[14] P. Rutherford. COLLISIONAL DIFFUSION IN AN AXISYMMETRIC TORUS. , 1970 .

[15] B. Liley,et al. Dynamical Equations and Transport Relationships for a Thermal Plasma , 1960 .