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Main Authors: Paschalidis, K., Castello, F. Lucco, Ratynskaia, S., Tolias, P., Brandt, L.
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2404.12904
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author Paschalidis, K.
Castello, F. Lucco
Ratynskaia, S.
Tolias, P.
Brandt, L.
author_facet Paschalidis, K.
Castello, F. Lucco
Ratynskaia, S.
Tolias, P.
Brandt, L.
contents The MEMENTO (MEtallic Melt Evolution in Next-step TOkamaks) code is a new numerical implementation of the physics model originally developed for the MEMOS-U code with the objective to self-consistently describe the generation of melt and its subsequent large scale dynamics in fusion devices and to assess the damage of metallic reactor armor under powerful normal and off-normal plasma events. The model has been validated in multiple dedicated EUROfusion experiments. MEMENTO solves the heat and phase transfer problem coupled with the incompressible Navier-Stokes equations in the shallow water approximation for the thin liquid film over the solid metal and with the current propagation equations on a domain that features a time-evolving deforming metal-plasma interface. The code utilizes non-uniform and adaptive meshing along with sub-cycling in time facilitated by the AMReX open-source framework as well as AMReX's built-in parallelization capabilities.
format Preprint
id arxiv_https___arxiv_org_abs_2404_12904
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle The MEMENTO code for modelling of macroscopic melt motion in fusion devices
Paschalidis, K.
Castello, F. Lucco
Ratynskaia, S.
Tolias, P.
Brandt, L.
Plasma Physics
Fluid Dynamics
The MEMENTO (MEtallic Melt Evolution in Next-step TOkamaks) code is a new numerical implementation of the physics model originally developed for the MEMOS-U code with the objective to self-consistently describe the generation of melt and its subsequent large scale dynamics in fusion devices and to assess the damage of metallic reactor armor under powerful normal and off-normal plasma events. The model has been validated in multiple dedicated EUROfusion experiments. MEMENTO solves the heat and phase transfer problem coupled with the incompressible Navier-Stokes equations in the shallow water approximation for the thin liquid film over the solid metal and with the current propagation equations on a domain that features a time-evolving deforming metal-plasma interface. The code utilizes non-uniform and adaptive meshing along with sub-cycling in time facilitated by the AMReX open-source framework as well as AMReX's built-in parallelization capabilities.
title The MEMENTO code for modelling of macroscopic melt motion in fusion devices
topic Plasma Physics
Fluid Dynamics
url https://arxiv.org/abs/2404.12904