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Article Dans Une Revue Physics of Plasmas Année : 2012

Global model of a gridded-ion thruster powered by a radiofrequency inductive coil

Résumé

A global (volume-averaged) model of a gridded-ion thruster is proposed. The neutral propellant (xenon gas) is injected into the thruster chamber at a fixed rate and a plasma is generated by circulating a radiofrequency current in an inductive coil. The ions generated in this plasma are accelerated out of the thruster by a pair of DC biased grids. The neutralization downstream is not treated. Xenon atoms also flow out of the thruster across the grids. The model, based on particle and energy balance equations, solves for four global variables in the thruster chamber: the plasma density, the electron temperature, the neutral gas (atom) density, and the neutral gas temperature. The important quantities to evaluate the thruster efficiency and performances are calculated from these variables and from the voltage across the grids. It is found that the mass utilization efficiency rapidly decreases with the gas flow rate. However, the radiofrequency power transfer efficiency increases significantly with the injected gas flow rate. Therefore, there is a compromise to be found between these two quantities.
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Dates et versions

hal-01549430 , version 1 (28-06-2017)

Identifiants

Citer

Pascal Chabert, J. Arancibia Monreal, Jérôme Bredin, Lara Popelier, Ane Aanesland. Global model of a gridded-ion thruster powered by a radiofrequency inductive coil. Physics of Plasmas, 2012, 19, pp.195201. ⟨10.1063/1.4737114⟩. ⟨hal-01549430⟩
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