Modeling of neutral pressure and pumping in the Tore Supra ergodic divertor and outboard pump limiter

L. W. Owen, T. Loarer, A. Grosman, B. Meslin, C. C. Klepper, P. K. Mioduszewski, T. Uckan

Research output: Contribution to journalArticlepeer-review

Abstract

Active control of the core plasma density and partial depletion of the wall particle content have been achieved in experiments on Tore Supra with the plasma leaning on either the ergodic divertor (ED) or the pump limiters. Measurements of neutral pressures in the ED and outboard pump limiter (OPL) are modeled with 1D parallel transport equations (continuity and momentum balance) tor the SOL plasma coupled to 2D neutral particle transport simulations. SOL density and temperature profiles from reciprocating Langmuir probe measurements for a range of volume-averaged densities are renormalized, where necessary, to agree with Langmuir probe measurements in the OPL throat and constitute the upstream boundary conditions for the ID calculations. Good agreement with measured pressures and exhaust rates are obtained for both the ED and OPL in scans that span a factor of 2-3 in volume-averaged density. The importance of a self-consistent treatment of the plasma and neutral particle transport in the neighborhood of the neutraliser plate is demonstrated, particularly in the stronger recycling regimes characteristic of densities at the high end of the scans. Plasma flow reversal near the plasma/plenum interface is predicted to occur at the higher densities due to the large local ionization source. Predictions of pressure buildup in the plenum behind the prototype vented neutraliser plate agree with experiment if it is assumed that both the tops and partially the sides of the needles comprising the plate are wetted by the plasma. A discharge in which the ED pumps are active is analyzed: the calculated pressure and exhaust rate agree with experiment. The core fueling rate is the same as without pumping, suggesting, as is seen in the experiment, a small density decay rate and significant wall particle depletion.

Original languageEnglish
Pages (from-to)499-504
Number of pages6
JournalJournal of Nuclear Materials
Volume241-243
DOIs
StatePublished - Feb 11 1997

Funding

Research sponsored by the Office of Fusion Energy, U.S. Department of Energy, under contract number DE-AC05-84OR21400 with Lockheed Martin Energy Systems, Inc.

FundersFunder number
Lockheed Martin Energy Systems, Inc.
U.S. Department of EnergyDE-AC05-84OR21400
Fusion for Energy

    Keywords

    • 3D model
    • Ergodic divertor
    • Monte Carlo simulation
    • Neutral confinement and transport
    • Tore Supra

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