Implementation and Initial Validation of a 100-Kilowatt Class Nested-Channel Hall Thruster

The X3 is a 100-kilowatt class nested-channel Hall thruster developed by the Plasmadynamics and Electric Propulsion Laboratory at the University of Michigan in collaboration with the Air Force Research Laboratory and NASA. The cathode, magnetic circuit, boron nitride channel rings, and anodes all required specific design considerations during thruster development, and thermal modeling was used to properly account for thermal growth in material selection and component design. A number of facility upgrades were required at the University of Michigan to facilitate operation of the X3. These upgrades included a re-worked propellant feed system, a completely redesigned power and telemetry break-out box, and numerous updates to thruster handling equipment. The X3 was tested on xenon propellant at two current densities, 37% and 73% of the nominal design value. It was operated to a maximum steady-state discharge power of 60.8 kilowatts. The tests presented here served as an initial validation of thruster operation. Thruster behavior was monitored with telemetry, photography and high-speed current probes. The photography showed a uniform plume throughout testing. At constant current density, reductions in mass flow rate of 18% and 26% were observed in the three-channel operating configuration as compared to the superposition of each channel running individually. The high-speed current probes showed that the thruster was stable at all operating points and that the channels influence each other when more than one is operating simultaneously. Additionally, the ratio of peak-to-peak AC-coupled discharge current oscillations to mean discharge current did not exceed 51% for any operating points reported here, and did not exceed 17% at the higher current density

Implementation and Initial Validation of a 100-kW Class Nested-channel Hall Thruster

Peer Reviewedhttps://deepblue.lib.umich.edu/bitstream/2027.42/140462/1/6.2014-3815.pd

DISTRIBUTION STATEMENT A: Approved for public release; distribution unlimited. First Firing of a 100-kW Nested-channel Hall Thruster

NHT is a three-channel NHT with a nominal power throttling range from 1 kW to >200 kW. Based on conventional thruster scaling, to the X3 may achieve 15 N of thrust and 4,600 sec of Isp with xenon and krypton propellant, respectively. In this paper we preview the initial operation of the 100-kW class NHT. = peak-to-peak channel discharge current oscillation I sp = specific impulse P = thruster electrical power input T = thrust T/P = thrust to power ratio = Thruster efficiency in converting electrical power to directed kinetic powe