Stellarator-tokamak energy confinement comparison based on ASDEX Upgrade and Wendelstein 7-X hydrogen plasmas

U. Stroth, G. Fuchert, M. N.A. Beurskens, G. Birkenmeier, P. A. Schneider, E. R. Scott, K. J. Brunner, F. Günzkofer, P. Hacker, O. Kardaun, J. P. Knauer, K. Rahbarnia, D. Zhang

Research output: Contribution to journalArticlepeer-review

8 Scopus citations

Abstract

A confinement database with mainly electron-heated hydrogen plasmas from ASDEX Upgrade and Wendelstein 7-X was assembled. Stellarator confinement scaling expressions describe both standard discharges in the stellarator and L-mode plasmas in the tokamak similarly well and indicate a similar quality of energy confinement in both devices. While the energy confinement time in ASDEX Upgrade benefits from the smaller aspect ratio of the device, the transport coefficients in Wendelstein 7-X appear to be smaller possibly due to reduced average magnetic field curvature. A physics based confinement scaling is derived from a model that successfully describes transport in tokamaks. The dimensionally correct scaling has very similar parameter dependencies as the stellarator scalings and reproduces also the trends in the data from ITER L- A nd H-mode databases reasonably well. On the basis of this scaling, which represents the confinement times of the present data base, average tokamak L-mode and H-mode confinement is 7% lower and 76% higher, respectively.

Original languageEnglish
Article number016003
JournalNuclear Fusion
Volume61
Issue number1
DOIs
StatePublished - 1 Jan 2021

Keywords

  • Critical gradient model
  • Energy confinement scaling
  • Gyro-bohm scaling
  • Stellarator tokamak comparison

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