Plume composition measurements of a high-emission-density electrospray thruster
Plume composition measurements of a high-emission-density electrospray thruster
An electrospray thruster designed for nanosatellites is introduced in this paper. The thruster has a compact size featuring a passive propellant transport method through the use of porous materials. Porous electrospray emitters with 1, 25, and 100 emission tips were fabricated using conventional machining techniques. The geometrical features of the emission tips were measured using a high-precision laser profilometer. Thruster prototypes fitted with different emitters were tested in a bipolar operation mode. The emission currents and voltage characteristics were studied, which demonstrated a wide range of operational voltage with relatively high emission currents. The maximum overall emission currents were +3.22 and −4.72 mA achieved using a 100-tip emitter at ±3500 , and the maximum per-tip emission currents were +93.2 and −100.8 μA
achieved using a 25-tip emitter at ±3500 , respectively. Time-of-flight systems were used to characterize the mass and velocity distribution of the charged particles in the thruster plume, and the results suggest that the electrospray emission were highly ionic, containing mostly monomer ions and dimer ions. The thruster performance was conservatively estimated, with the thrust ranging from approximately 0.92 to 221 μN, and the specific impulse ranging from 2733 to 5550 s. The maximum thrust per emission tip was approximately 5.82 μN
in a purely ionic emission regime, which is considerably high in this type of technology.
Ma, Chengyu
284a62a1-e01b-4a2a-90ab-432306ef4952
Bull, Thomas
f3f00de4-1bfa-42c4-b957-dbd95a1a9aa2
Ryan, Charles N.
3627e47b-01b8-4ddb-b248-4243aad1f872
November 2021
Ma, Chengyu
284a62a1-e01b-4a2a-90ab-432306ef4952
Bull, Thomas
f3f00de4-1bfa-42c4-b957-dbd95a1a9aa2
Ryan, Charles N.
3627e47b-01b8-4ddb-b248-4243aad1f872
Ma, Chengyu, Bull, Thomas and Ryan, Charles N.
(2021)
Plume composition measurements of a high-emission-density electrospray thruster.
Journal of Propulsion and Power, 37 (6).
(doi:10.2514/1.b37996).
Abstract
An electrospray thruster designed for nanosatellites is introduced in this paper. The thruster has a compact size featuring a passive propellant transport method through the use of porous materials. Porous electrospray emitters with 1, 25, and 100 emission tips were fabricated using conventional machining techniques. The geometrical features of the emission tips were measured using a high-precision laser profilometer. Thruster prototypes fitted with different emitters were tested in a bipolar operation mode. The emission currents and voltage characteristics were studied, which demonstrated a wide range of operational voltage with relatively high emission currents. The maximum overall emission currents were +3.22 and −4.72 mA achieved using a 100-tip emitter at ±3500 , and the maximum per-tip emission currents were +93.2 and −100.8 μA
achieved using a 25-tip emitter at ±3500 , respectively. Time-of-flight systems were used to characterize the mass and velocity distribution of the charged particles in the thruster plume, and the results suggest that the electrospray emission were highly ionic, containing mostly monomer ions and dimer ions. The thruster performance was conservatively estimated, with the thrust ranging from approximately 0.92 to 221 μN, and the specific impulse ranging from 2733 to 5550 s. The maximum thrust per emission tip was approximately 5.82 μN
in a purely ionic emission regime, which is considerably high in this type of technology.
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Accepted/In Press date: 6 March 2021
e-pub ahead of print date: 1 June 2021
Published date: November 2021
Identifiers
Local EPrints ID: 489054
URI: http://eprints.soton.ac.uk/id/eprint/489054
ISSN: 0748-4658
PURE UUID: 01cf2f00-e138-4341-b261-c3a27b885bca
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Date deposited: 11 Apr 2024 17:17
Last modified: 11 Apr 2024 17:17
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Author:
Chengyu Ma
Author:
Thomas Bull
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