Electrospray Thruster Plume Impingement on CubeSat Solar Arrays: A Particle-Tracking Study

Abstract

Electrospray thrusters are emerging as a leading propulsion technology for CubeSats, offering high specific impulse (Isp > 1000 s) and low power requirements. However, the divergent ion plumes can impinge on spacecraft surfaces, particularly body-mounted solar arrays, causing contamination and thrust efficiency losses. This study presents a validated particle-tracking simulation to quantify the effects of thruster placement on thrust efficiency and surface contamination for 1U, 3U, and 6U CubeSats. The plume model employs a cosine power distribution (k=1.8) with half-angle 46, validated against experimental data with errors below 7%. Results show that thrust efficiency ranges from 53.6% for rear-mounted thrusters on 3U body-mounted configurations to 100% for side-mounted configurations with deployable arrays. CubeSat size significantly affects impingement: 3U platforms experience 46.4% contamination with rear-mounted thrusters compared to 16.6% for 1U. Deployable solar arrays reduce contamination by 77% compared to body-mounted arrays, while side-mounted thrusters eliminate impingement entirely at the cost of only 1.6% efficiency loss. Corner-mounted configurations at 30 cant provide intermediate performance with 88.9% efficiency and 11.1% contamination. These quantitative design guidelines enable mission planners to optimize thruster integration based on power budget and propellant mass constraints, with statistical uncertainty below 0.15% across all configurations.

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