Numerical modeling of induced forces during vertical disruption events in a vacuum vessel with anisotropic resistivity.

Gabriele Ferrero; Joseph Jerkins; Jeffrey P Freidberg; Sara E Ferry; Ethan E Peterson; Dennis Whyte

Numerical modeling of induced forces during vertical disruption events in a vacuum vessel with anisotropic resistivity.

POSTER

Abstract

Vertical disruption events (VDE) can pose a significant risk on tokamak operations and economics due to the potential structural damage that can arise from them. In this work, we employ a numerical COMSOL® model to explore the effect of anisotropic resistivity on the induced forces due to a VDE. A verification of this model against the analytical model for a cylindrical geometry has been carried out. The effects of realistic tokamak shapes and characteristic parameters are then explored by taking advantage of the flexibility of numerical model.

Presenters

Gabriele Ferrero

Massachusetts Institute of Technology

Authors

Gabriele Ferrero

Massachusetts Institute of Technology
Joseph Jerkins

Massachusetts Institute of Technology, Massachusetts Institute of Technology MIT
Jeffrey P Freidberg

Massachusetts Institute of Technology
Sara E Ferry

MIT Plasma Science and Fusion Center, Massachusetts Institute of Technology, MIT
Ethan E Peterson

Massachusetts Institute of Technology MIT
Dennis Whyte

Massachusetts Institute of Technology MIT, MIT