This paper describes the modeling and simulation of trapped granular media, within the context of the Granular Imager project. We describe the physics of trapped granular media in space, and the methodologies used to stably confine and shape such a medium using electromagnetic fields. The numerical models have also been validated with results in the literature, obtaining excellent agreement. The results of the numerical tests indicate that it is possible, with structural arrangements of rings and plates at different levels of electrostatic potential, to stably confine one or more charged particles, when driven by voltages that can be modulated in time and space.
Modeling and simulation of trapping mechanisms of granular media in space / Quadrelli, M. B.; Ius, P.; Lanzoni, L.. - (2016). (Intervento presentato al convegno AIAA/AAS Astrodynamics Specialist Conference, 2016 tenutosi a usa nel 13 - 16 settembre 2016) [10.2514/6.2016-5572].
Modeling and simulation of trapping mechanisms of granular media in space
Lanzoni L.
2016
Abstract
This paper describes the modeling and simulation of trapped granular media, within the context of the Granular Imager project. We describe the physics of trapped granular media in space, and the methodologies used to stably confine and shape such a medium using electromagnetic fields. The numerical models have also been validated with results in the literature, obtaining excellent agreement. The results of the numerical tests indicate that it is possible, with structural arrangements of rings and plates at different levels of electrostatic potential, to stably confine one or more charged particles, when driven by voltages that can be modulated in time and space.
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