Performance characterization of the low-power halo electric propulsion system
Performance characterization of the low-power halo electric propulsion system
Performance measurements have been obtained of a novel propulsion concept called the Halo thruster under development within the University of Surrey. The Halo thruster, a type of cusped-field thruster with close similarity to the cylindrical Hall thruster, is motivated by the need for low-power and low-cost electric propulsion for the small satellite sector. Two versions of the device are investigated in this study: a design using permanent magnets at high magnetic-field strength and a design using electromagnets with moderate field strength. While operating at 200 W discharge power, which is of particular interest to power-limited small satellite platforms, the permanent-magnet design achieved a maximum thrust efficiency of 8% at a specific impulse of approximately 900 s using a krypton propellant. By comparison, the electromagnet design achieved a maximum thrust efficiency of 28% at a specific impulse of approximately 1500 s at 200 W using a xenon propellant. For higher levels of power (tested up to 800 W), the performance of the electromagnetic design saturated at approximately 25% thrust efficiency using krypton and 30% using xenon. The thrust efficiency of the permanent-magnet design appeared to increase monotonically up to 600 W reaching a maximum value of 14%.
Read More: https://arc.aiaa.org/doi/abs/10.2514/1.B36091
1544-1549
Ryan, C.
3627e47b-01b8-4ddb-b248-4243aad1f872
Wantock, T.
0aa0ef4e-dd55-4949-bd75-02daad62e71d
Harle, T.
5504cb52-63af-4057-bedd-6b554c48c692
Knoll, A.
48e05aaf-c182-48c2-846b-7c4719cbe9b5
Ryan, C.
3627e47b-01b8-4ddb-b248-4243aad1f872
Wantock, T.
0aa0ef4e-dd55-4949-bd75-02daad62e71d
Harle, T.
5504cb52-63af-4057-bedd-6b554c48c692
Knoll, A.
48e05aaf-c182-48c2-846b-7c4719cbe9b5
Ryan, C., Wantock, T., Harle, T. and Knoll, A.
(2016)
Performance characterization of the low-power halo electric propulsion system.
Journal of Propulsion and Power, 32 (6), .
(doi:10.2514/1.B36091).
Abstract
Performance measurements have been obtained of a novel propulsion concept called the Halo thruster under development within the University of Surrey. The Halo thruster, a type of cusped-field thruster with close similarity to the cylindrical Hall thruster, is motivated by the need for low-power and low-cost electric propulsion for the small satellite sector. Two versions of the device are investigated in this study: a design using permanent magnets at high magnetic-field strength and a design using electromagnets with moderate field strength. While operating at 200 W discharge power, which is of particular interest to power-limited small satellite platforms, the permanent-magnet design achieved a maximum thrust efficiency of 8% at a specific impulse of approximately 900 s using a krypton propellant. By comparison, the electromagnet design achieved a maximum thrust efficiency of 28% at a specific impulse of approximately 1500 s at 200 W using a xenon propellant. For higher levels of power (tested up to 800 W), the performance of the electromagnetic design saturated at approximately 25% thrust efficiency using krypton and 30% using xenon. The thrust efficiency of the permanent-magnet design appeared to increase monotonically up to 600 W reaching a maximum value of 14%.
Read More: https://arc.aiaa.org/doi/abs/10.2514/1.B36091
Text
160715
- Accepted Manuscript
More information
Accepted/In Press date: 26 June 2016
e-pub ahead of print date: 26 August 2016
Organisations:
Astronautics Group
Identifiers
Local EPrints ID: 412069
URI: http://eprints.soton.ac.uk/id/eprint/412069
ISSN: 0748-4658
PURE UUID: 53ce738a-82bc-470a-824c-e4a9c16a848a
Catalogue record
Date deposited: 05 Jul 2017 16:32
Last modified: 15 Mar 2024 13:12
Export record
Altmetrics
Contributors
Author:
T. Wantock
Author:
T. Harle
Author:
A. Knoll
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics