JETA, Vol. 3, Pages 42: Preliminary Numerical Modelling of the Ionization Region to Model Ionic Propulsion

Journal of Experimental and Theoretical Analyses doi: 10.3390/jeta3040042

Authors:
Jason Knight
Mojtaba Ghodsi
Bradley Horne
Edward John Taylor
Niah Laurel Virhuez Montaño
Daniel George Chattock
James Buick
Ethan Krauss
Andrew Lewis

Ionic propulsion, where charged particles, ions, are produced between electrodes and accelerate towards the negative electrode, has practical applications as a propulsion system in the space industry; however, its adoption to in-atmosphere ionic propulsion is relatively new and faces different challenges. A high potential difference is required to achieve a corona discharge between a positive and negative electrode. In this work, we will explore the feasibility of ionic propulsion using CFD modelling to replicate the effect of the ions, with a future aim of improving efficiency. The ionization region is modelled for a 15 kV potential difference, which is replicated with a velocity inlet, based on experimental data. The output velocity from the numerical simulation shows the same trend as theoretical predictions but significantly underestimates the magnitude of the ionic wind when compared with theoretical estimates. Further modelling is highlighted to improve predictions and assess if the theoretical model overestimates the ionic wind.

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Jason Knight www.mdpi.com