Aerospace (Jan 2023)

Theoretical Research on Magnetic Confinement Mechanism of Applied-Field Magnetoplasmadynamic Thruster

  • Yifan Du,
  • Jinxing Zheng,
  • Haiyang Liu,
  • Yong Li,
  • Cheng Zhou,
  • Ge Wang,
  • Zhuoyao Tang,
  • Yudong Lu,
  • Luoqi Wang

DOI
https://doi.org/10.3390/aerospace10020124
Journal volume & issue
Vol. 10, no. 2
p. 124

Abstract

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Since the invention of rockets, mankind has been constantly trying to explore the universe. It was not until the beginning of the last century that electric propulsion technology was introduced. With the same weight of fuel consumed as chemical propulsion, electric propulsion technology can transport a spacecraft to a more distant universe. With its excellent performance in terms of specific impulse and thrust, the MPDT (MagnetoPlasmaDynamic Thruster) is garnering significant attention in the field of electric propulsion. Recent research has focused on improving its propulsion performance and service life. Due to the complexity of its working mechanism, there is no perfect explanation for it. Further analysis of its working mechanism may lead to a solution to the improvement of certain significant performance aspects such as thrust. An ideal magnetic fluid model of the MPDT is established based on the MHD method, and the working mechanism is analyzed and summarized according to simulations and experiments. The results of the analysis indicate that reducing the size of the cathode could significantly improve the thruster’s performance.

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