Analysis of Tungsten Ion Transport in Rotating Tokamak Plasmas by Orbit Calculation
Abstract
To explain the increase in the accumulation of tungsten in case of the toroidal rotation opposite to the plasma current, which was observed in the JT-60U experiment, analytical models of the PHZ (inward pinch of high-Z impurity due to atomic processes) and the pinch due to the radial electric field Er through Coulomb collision were proposed. In the analysis of the JT-60U experiment, it was found that the experimental conditions did not satisfy assumptions of the original Er pinch. Furthermore, trapped particles were not considered in the original models. In order to overcome these shortcomings of the models, we developed a code to calculate the guiding center orbit of an impurity ion and evaluate the PHZ pinch and the Er pinch in rotating tokamak plasma. In the analysis of the JT-60U experiment, a positive dependence of the tungsten accumulation on the counter toroidal rotation was obtained. The tungsten accumulation was larger compared to the previous analysis using analytical pinch models for the large toroidal rotation cases.
This study was supported by the Collaboration Research Programme of Joint Special Design Team for Fusion DEMO in Japan and by the Tokamak Plasma Collaboration Research Programme in National institutes for Quantum and Radiological Science and Technology.- Publication:
-
APS Division of Plasma Physics Meeting Abstracts
- Pub Date:
- 2019
- Bibcode:
- 2019APS..DPPP10129F