Record #243564 - GSI Repository

MEDUSA

Multiscale Fluid and Plasma Dynamics using Particles

Grant period	2021-01-01 - 2025-12-31
Funding body	European Union
Call number	ERC-2020-STG
Grant number	899981
Identifier	G:(EU-Grant)899981

Note: In the last decades, non-equilibrium effects in fluid and plasma dynamics have become the major topic for the understanding of the physics behind many applications and important industrial fields. These applications include mirco- and nano-technologies along with plasma-based coating processes of nano device fabrication itself, where small dimensions lead to non-eq. effects. But the applications range right up to other key areas, e.g. re-entry flows and flows around satellites, where rarefied gas and high velocities cause non-equilibrium. Furthermore, continuing miniaturization and increase of process energies will lead to non-eq. effects within technologies in the near future e.g. micro- and nano-fabrication, next-generation lithography or various space systems such as electric propulsion or actively electrodynamically shielded re-entry. At the moment, non-eq. is still a perturbing phenomenon, because experimental measurements are complicated and simulation tools are only available for specialised problems due to the complexity. The objective is to progress toward particle-based multiscale methods for thermo-chemical non-eq. gas and plasma flows allowing for the first time simulations of the whole range of high-tech applications and maintaining the competitiveness of European future industry. As the availability of computational resources increases with decreasing prices, particle methods have become a novel attractive, accurate and elegant numerical tool. This project will connect competences in physics, mathematics, chemistry and computational science and extend the open-source code platform PICLas, resulting in a direct benefit for the simulation community. Finally, as a main contributor in the field of particle-based fluid dynamics and the main developer of PICLas, I am confident to establish these novel methods as the state-of-the-art in research and academia as well as to enable their utilization in industrial applications.

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Record created 2021-10-10, last modified 2023-02-12

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