In this work results from the new NanoDome model for the simulation of nanoparticle synthesis in a plasma reactor are presented and compared with CFD computations of particle dynamics. The novelty of the NanoDome approach entails the simulation of all the scales involved in the process; the results presented here are obtained by linking the continuum scale with mesoscale calculations. The model can capture correctly the evolution of the nanoparticles and matches well with the CFD calculations.

Francesco Strappaveccia, F.G. (2017). H2020 NanoDome Project: A Unified Approach for Gas-Phase Nanoparticles Synthesis Modelling.

H2020 NanoDome Project: A Unified Approach for Gas-Phase Nanoparticles Synthesis Modelling

francesco strappaveccia
Membro del Collaboration Group
;
GALLENI, FRANCESCO
Membro del Collaboration Group
;
emanuele ghedini
Membro del Collaboration Group
2017

Abstract

In this work results from the new NanoDome model for the simulation of nanoparticle synthesis in a plasma reactor are presented and compared with CFD computations of particle dynamics. The novelty of the NanoDome approach entails the simulation of all the scales involved in the process; the results presented here are obtained by linking the continuum scale with mesoscale calculations. The model can capture correctly the evolution of the nanoparticles and matches well with the CFD calculations.
2017
ISPC 23 Proceedings : book of extended abstracts
97
100
Francesco Strappaveccia, F.G. (2017). H2020 NanoDome Project: A Unified Approach for Gas-Phase Nanoparticles Synthesis Modelling.
Francesco Strappaveccia, Francesco Galleni, Emanuele Ghedini
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11585/627641
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