Iodine Plasma Propulsion Test Results at 1–10 kW

Author

Szabo, James ; Robin, Mike ; Paintal, Surjeet ; Pote, Bruce ; Hruby, Vlad ; Freeman, Chas

Author_Institution

Busek Co., Inc., Natick, MA, USA

Volume

43

Issue

1

fYear

2015

fDate

Jan. 2015

Firstpage

141

Lastpage

148

Abstract

The near-term potential for iodine propellant in Hall thrusters is explored. The merits of iodine with respect to other propellants are presented. Recent performance measurements are summarized, and new measurements taken with an 8 kW thruster are presented. Thruster discharge power exceeded 10 kW, and peak measured anode efficiency exceeded 65%. Spacecraft interactions issues are also addressed and relevant data taken with a 1 kW thruster are presented. Plume data showed lower divergence with iodine than with xenon, and that a plume shield could effectively attenuate the far field plume. Material samples placed in the plume showed a strong reaction with iron, but little reaction with typical spacecraft materials. System level benefits, including low storage pressure and extremely high density, are also discussed. All results so far indicate iodine is a viable propellant for electric rockets, and for some missions is superior to xenon.

Keywords

aerospace materials; anodes; discharges (electric); electric propulsion; iodine; plasma accelerators; plasma density; plasma magnetohydrodynamics; plasma pressure; Hall thrusters; I; Xe; anode efficiency; electric rockets; extremely high density; iodine plasma propulsion; iodine propellant; iron; low storage pressure; plasma accelerators; power 1 kW to 10 kW; spacecraft interactions; spacecraft materials; thruster discharge power; xenon; Anodes; Cathodes; Propulsion; Reservoirs; Testing; Uncertainty; Xenon; Cathodes; Hall thrusters; plasma accelerators; space propulsion; space propulsion.;

fLanguage

English

Journal_Title

Plasma Science, IEEE Transactions on

Publisher

ieee

ISSN

0093-3813

Type

jour

DOI

10.1109/TPS.2014.2367417

Filename

6979267