A two-dimensional ion kinetic model of the scrape-off layer of a diverted plasma with a private flux region
Journal Article
·
· Physics of Plasmas; (United States)
- Massachusetts Institute of Technology, Plasma Fusion Center, 167 Albany Street, NW16-236, Cambridge, Massachusetts 02139 (United States)
- UKAEA Government Division, Fusion (Euratom/UKAEA Fusion Association), Culham, Abingdon, Oxfordshire, OX143DB (United Kingdom)
Earlier two-dimensional (radial and poloidal angle), analytically tractable ion kinetic models of the scrape-off layer (SOL) in which a steady state is achieved by balancing the streaming loss of ions to the divertor target plates with the radial diffusion of ions from the core are unable to distinguish between limited and diverted plasmas. The model presented here removes this limitation while still remaining amenable to a similar Wiener--Hopf solution procedure. To phenomenologically model ion recycling, the boundary conditions employed at the divertor plates allow for partial reflection. The diffusion into the private flux region and the extended divertor channels (all of normalized length [ital d] along the magnetic field), as well as the rest of the SOL, is evaluated. The SOL is shown to be asymmetric about the separatrix because ions from the core must stream by the X point be- fore diffusing into the private flux region. The channel or leg SOL width is of order [[ital LD](1+2[ital d])/[ital v][sub [ital i]] [vert bar]ln [gamma][vert bar]][sup 1/2], where [ital D], [ital L], [ital v][sub [ital i]], and [gamma] are the diffusion coefficient, connection length, ion thermal speed, and reflection coefficient, respectively. The SOL in the private flux region is narrower [bold (]by [2[ital d]/(1+2[ital d])][sup 1/2][bold )] with a lower density [bold (]by [2[ital d]/(1+2[ital d])][sup 3/4][bold )] and a stronger poloidal dependence than the region beyond the separatrix. To equalize the heat load between the private flux region and the leg portions of the target, the legs must be longer than the connection length.
- DOE Contract Number:
- FG02-91ER54109
- OSTI ID:
- 6709857
- Journal Information:
- Physics of Plasmas; (United States), Journal Name: Physics of Plasmas; (United States) Vol. 2:1; ISSN PHPAEN; ISSN 1070-664X
- Country of Publication:
- United States
- Language:
- English
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Related Subjects
70 PLASMA PHYSICS AND FUSION TECHNOLOGY
700330 -- Plasma Kinetics
Transport
& Impurities-- (1992-)
700350* -- Plasma Production
Heating
Current Drive
& Interactions-- (1992-)
BOUNDARY CONDITIONS
BOUNDARY LAYERS
CHARGED PARTICLES
CLOSED PLASMA DEVICES
DIFFUSION
DIVERTORS
EQUATIONS
IONS
KINETIC EQUATIONS
LAYERS
PLASMA SCRAPE-OFF LAYER
THERMONUCLEAR DEVICES
TOKAMAK DEVICES
WALL EFFECTS
700330 -- Plasma Kinetics
Transport
& Impurities-- (1992-)
700350* -- Plasma Production
Heating
Current Drive
& Interactions-- (1992-)
BOUNDARY CONDITIONS
BOUNDARY LAYERS
CHARGED PARTICLES
CLOSED PLASMA DEVICES
DIFFUSION
DIVERTORS
EQUATIONS
IONS
KINETIC EQUATIONS
LAYERS
PLASMA SCRAPE-OFF LAYER
THERMONUCLEAR DEVICES
TOKAMAK DEVICES
WALL EFFECTS