Benchmarking UEDGE with DIII‐D Data
Copyright policy )Benchmarking UEDGE with DIII‐D Data
AbstractComparisons between a 2‐D fluid simulation of the SOL plasma of a diverted tokamak and experimental data from the DIII‐D are shown. It is concluded that a simple diffusive model for perpendicular transport is consistent with the data. Discrepancies in the simulation suggest that impurity radiation may be playing a significant role in the experiment, and that further work is required to understand hydrogen recycling at the divertor.
- Lawrence Berkeley National Laboratory United States
- University of California, Berkeley United States
- University of North Texas United States
- Lawrence Livermore National Laboratory United States
- General Atomics (United States) United States
Plasma Impurities, Divertors, Plasma Scrape-Off Layer, Plasma Kinetics, Transport, Plasma Simulation 700330, Plasma Fluid Equations, Two-Dimensional Calculations, U Codes, Energy Transfer, And Impurities, 70 Plasma Physics And Fusion Technology, Doublet-3 Device, Charged-Particle Transport, Computerized Simulation, Hydrogen
Plasma Impurities, Divertors, Plasma Scrape-Off Layer, Plasma Kinetics, Transport, Plasma Simulation 700330, Plasma Fluid Equations, Two-Dimensional Calculations, U Codes, Energy Transfer, And Impurities, 70 Plasma Physics And Fusion Technology, Doublet-3 Device, Charged-Particle Transport, Computerized Simulation, Hydrogen
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