Expansion tunnel radiation experiments to support Hayabusa re-entry observations
Paper
Paper/Presentation Title | Expansion tunnel radiation experiments to support Hayabusa re-entry observations |
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Presentation Type | Paper |
Authors | Buttsworth, David (Author), D'Souza, Mary (Author), Potter, Daniel (Author), Eichmann, Troy (Author), Mudford, Neil (Author), McGilvray, Matthew (Author), McIntyre, Timothy J. (Author), Jacobs, Peter (Author) and Morgan, Richard (Author) |
Journal or Proceedings Title | Proceedings of the 48th AIAA Aerospace Sciences Meeting Including the New Horizons Forum and Aerospace Exposition (AIAA 2010) |
Number of Pages | 14 |
Year | 2010 |
Place of Publication | Reston, VA, United States |
ISBN | 9781600867392 |
Web Address (URL) of Paper | http://airborne.seti.org/hayabusa/PV2010_634.pdf |
Conference/Event | 48th AIAA Aerospace Sciences Meeting Including the New Horizons Forum and Aerospace Exposition (AIAA 2010) |
Event Details | 48th AIAA Aerospace Sciences Meeting Including the New Horizons Forum and Aerospace Exposition (AIAA 2010) Event Date 04 to end of 07 Jan 2010 Event Location Orlando, United States |
Abstract | The Hayabusa sample return capsule is scheduled for re-entry near Woomera, Australia in June 2010 and expansion tube experiments are being performed to support the planned re-entry observation campaign. Initial experiments using a 1/10th scale model of the Hayabusa forebody have been performed in the X2 expansion tunnel facility at The University of Queensland to simulate aerothermal elements of the anticipated re-entry. Experiments have been performed at an effective flight speed of around 9.8 km/s using steel models, and steel models coated with a layer of epoxy to simulate pyrolysis gases associated with heat shield ablation. Spectral emissions from the stagnation region of the capsule have been acquired using a spectrograph system. Two dimensional maps of the luminous emissions from the shock heated flow have also been acquired using a high speed camera. Deduction of flow conditions generated in the X2 expansion tunnel is achieved using quasione- dimensional simulations coupled to an axisymmetric simulation of the flow through the expansion tunnel nozzle. The effects of the ablative epoxy material are observed in the data from both the spectrograph system and the high speed camera. Both systems register strong emissions in the ablative layer, and the strength of the spectral peaks associated with CN emissions are shown to be enhanced by the presence of the epoxy. Further measurement and analysis is required to confidently define the flow conditions produced by the expansion tunnel, and to quantify results from the spectrograph and high speed camera measurements. Copyright © 2010 by Buttsworth, D'Souza, Potter, Eichmann, Mudford, McGilvray, McIntyre, Jacobs, and Morgan. |
Keywords | aerothermal; Australia; axisymmetric simulation; epoxy material; expansion tubes; flight speed; flow condition; flowthrough; heat shields; heated flow; measurement and analysis; quasi-one-dimensional; radiation experiment; sample return capsule; scale models; spectral emission; spectral peak; stagnation regions; two-dimensional map; University of Queensland |
ANZSRC Field of Research 2020 | 401213. Turbulent flows |
400107. Satellite, space vehicle and missile design and testing | |
400106. Hypersonic propulsion and hypersonic aerothermodynamics | |
Public Notes | Files associated with this item cannot be displayed due to copyright restrictions. |
Byline Affiliations | Computational Engineering and Science Research Centre |
University of Queensland | |
University of New South Wales | |
Institution of Origin | University of Southern Queensland |
https://research.usq.edu.au/item/q0x5y/expansion-tunnel-radiation-experiments-to-support-hayabusa-re-entry-observations
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