Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
6745515 | Fusion Engineering and Design | 2015 | 13 Pages |
Abstract
During a loss of vacuum accident (LOVA), dusts that will be present in the future tokamak ITER are likely to be re-suspended. Such aerosols formed may present a risk for explosion and airborne contamination. This article presents parameters that govern the forces affecting particles deposited on a wall and subject to airflow. It is shown the influence of three parameters in the dust mobilization mechanism, i.e.: the particles diameter, the fluid density and the friction velocity. From numerical simulations, it is determined the evolution of wall friction velocities in the vacuum vessel (VV) of ITER during a LOVA. The numerical calculations performed with ANSYS CFX code provide average friction velocities in the lower part of the tokamak between 12 m sâ1 at a pressure of 150 Pa, and 0.5 m sâ1 at a pressure of 105 Pa.
Keywords
Related Topics
Physical Sciences and Engineering
Energy
Energy Engineering and Power Technology
Authors
T. Gélain, A. Rondeau, S. Peillon, J.C. Sabroux, F. Gensdarmes,