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Development of a 50 W porous emitter electrospray thruster towards flight

Development of a 50 W porous emitter electrospray thruster towards flight
Development of a 50 W porous emitter electrospray thruster towards flight
A low power porous electrospray propulsion system (PET-50)has been developed and tested at the University of Southampton in collaboration with RHP Technology Austria and AVS UK.The thruster utilizes a 313-emitter array, a molybdenum extractor plate and stainless-steel porous reservoir, also working as distal electrode. The performance of the thruster has been characterized using electrical diagnostics, plume diagnostics, Time-of-Flight (ToF) mass spectrometry and direct thrust measurements. PET-50 demonstrated high beam current after onset, with maximum values of around +1.5/-1.5 mA at 3400 V. Assuming a 50 % monomer-dimer mix, the estimated thrust and specific impulse is ~180 μN and~5800 s with an input power of 5.5 W. The measured thrust time response depicted increase in thrust with increasing voltage, reaching ~175 μN at 5.5 W, in excellent agreement with that estimated solely from electrical measurements. Four thruster units operating together will produce a total thrust of ~0.7 mN consuming only ~22 W with thrust to power ratio of ~32 μN/W.
Quraishi, Arsad
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Dworski, Szymon
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Batchelor, Emmanuel
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Gonzalez Machado, Alejandro
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Ryan, Charlie
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Ferreri, Alessandro
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Vincent, Guillaume
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Croos, Albun
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Garbayo, Alberto
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Vozarova, Maria
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Neubauer, Erich
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Quraishi, Arsad
89198ae5-abfe-46fa-866b-7010d8dc051a
Dworski, Szymon
f289e004-475e-4b2b-b326-06eb26d6bfb3
Batchelor, Emmanuel
82eef09f-ebb2-439b-82c9-ce38486967fc
Gonzalez Machado, Alejandro
b439496c-d6ce-45fa-a97b-c7ee0a717199
Ryan, Charlie
3627e47b-01b8-4ddb-b248-4243aad1f872
Ferreri, Alessandro
7a455699-af1d-43c0-bf39-55ff612d28c9
Vincent, Guillaume
c2e630e6-77c3-40ba-849c-c1722d33c018
Croos, Albun
e50cc68a-250e-4f5a-8b66-35b4f9b7255e
Garbayo, Alberto
4619c16b-da25-406d-a68e-5cf70257279e
Vozarova, Maria
e6d3d587-e976-4a7c-a3fc-5ce2052cdcdd
Neubauer, Erich
ec1b8752-fb2e-4059-9224-da4f54ba66dd

Quraishi, Arsad, Dworski, Szymon, Batchelor, Emmanuel, Gonzalez Machado, Alejandro, Ryan, Charlie, Ferreri, Alessandro, Vincent, Guillaume, Croos, Albun, Garbayo, Alberto, Vozarova, Maria and Neubauer, Erich (2023) Development of a 50 W porous emitter electrospray thruster towards flight. 74th International Astronautical Congress: Global Challenges and Opportunities: Give Space a Chance, , Baku, Azerbaijan. 02 - 06 Oct 2023. 16 pp .

Record type: Conference or Workshop Item (Paper)

Abstract

A low power porous electrospray propulsion system (PET-50)has been developed and tested at the University of Southampton in collaboration with RHP Technology Austria and AVS UK.The thruster utilizes a 313-emitter array, a molybdenum extractor plate and stainless-steel porous reservoir, also working as distal electrode. The performance of the thruster has been characterized using electrical diagnostics, plume diagnostics, Time-of-Flight (ToF) mass spectrometry and direct thrust measurements. PET-50 demonstrated high beam current after onset, with maximum values of around +1.5/-1.5 mA at 3400 V. Assuming a 50 % monomer-dimer mix, the estimated thrust and specific impulse is ~180 μN and~5800 s with an input power of 5.5 W. The measured thrust time response depicted increase in thrust with increasing voltage, reaching ~175 μN at 5.5 W, in excellent agreement with that estimated solely from electrical measurements. Four thruster units operating together will produce a total thrust of ~0.7 mN consuming only ~22 W with thrust to power ratio of ~32 μN/W.

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Published date: 5 October 2023
Venue - Dates: 74th International Astronautical Congress: Global Challenges and Opportunities: Give Space a Chance, , Baku, Azerbaijan, 2023-10-02 - 2023-10-06

Identifiers

Local EPrints ID: 484166
URI: http://eprints.soton.ac.uk/id/eprint/484166
PURE UUID: cab967e7-e8db-4946-a222-ac2f6ace586d

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Date deposited: 10 Nov 2023 18:16
Last modified: 17 Mar 2024 05:42

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Contributors

Author: Arsad Quraishi
Author: Szymon Dworski
Author: Emmanuel Batchelor
Author: Alejandro Gonzalez Machado
Author: Charlie Ryan
Author: Alessandro Ferreri
Author: Guillaume Vincent
Author: Albun Croos
Author: Alberto Garbayo
Author: Maria Vozarova
Author: Erich Neubauer

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