Introduction
There are large uncertainties in the aerothermodynamic modelling of super-orbital re-entry which impact the design of spacecraft thermal protection systems (TPS). Aspects of the thermal environment of super-orbital re-entry flows can be simulated in the laboratory using arc- and plasma jet facilities and these devices are regularly used for TPS certification work [5]. Another laboratory device which is capable of simulating certain critical features of both the aero and thermal environment of super-orbital re-entry is the expansion tube, and three such facilities have been operating at the University of Queensland in recent years [10]. Despite some success, wind tunnel tests do not achieve full simulation, however, a virtually complete physical simulation of particular re-entry conditions can be obtained from dedicated flight testing, and the Apollo-era FIRE II flight experiment [2] is the premier example which still forms an important benchmark for modern simulations. Dedicated super-orbital flight testing is generally considered too expensive today, and there is a reluctance to incorporate substantial instrumentation for aerothermal diagnostics into existing missions since it may compromise primary mission objectives. An alternative approach to on-board flight measurements, with demonstrated success particularly in the ‘Stardust’ sample return mission, is remote observation of spectral emissions from the capsule and shock layer [8].
JAXA’s ‘Hayabusa’ sample return capsule provides a recent super-orbital reentry example through which we illustrate contributions in three areas: (1) physical simulation of super-orbital re-entry conditions in the laboratory; (2) computational simulation of such flows; and (3) remote acquisition of optical emissions from a super-orbital re-entry event.
This is a preview of subscription content, log in via an institution to check access.
Preview
Unable to display preview. Download preview PDF.
References
Buttsworth, D.R., D’Souza, M., Potter, D., Eichmann, T., Mudford, N., McGilvray, M., McIntyre, T.J., Jacobs, P., Morgan, R.: Expansion tunnel radiation experiments to support hayabusa re-entry observations. In: 48th AIAA Aerospace Sciences Meeting, AIAA Paper 2010-634, Orlando, Florida, January 4-7 (2010)
Cauchon, D.L.: Radiative heating results from FIRE II flight experiment at a re-entry velocity of 11.4 km/s. Technical Memorandum X-1402, NASA (1967)
D’Souza, M.G., Eichmann, T.N., Potter, D.F., Morgan, R.G., McIntyre, T.J., Jacobs, P.A., Mudford, N.R.: Observation of an ablating surface in expansion tunnel flow. AIAA Journal 48(7), 1557–1560 (2010)
Eichmann, T.N., Khan, R., McIntyre, T.J., Jacobs, C., Porat, H., Buttsworth, D., Upcroft, B.: Radiometric temperature analysis of the hayabusa spacecraft re-entry. In: 28th International Symposium on Shock Waves, Manchester, UK, July 17-22 (2011)
Herdrich, G., Knapp, A., Löhle, S., Petkow, D., Fasoulas, S.: Ground testing facilities and modeling tools: Research examples. In: 27th AIAA Aerodynamic Measurement Technology and Ground Testing Conference, AIAA Paper 2010-4339, Chicago, Illinois, June 28 – July 1 (2010)
Jacobs, P.A., Gollan, R.J.: The Eilmer3 code: User guide and example book. Mechanical Engineering Report 2008/07, The University of Queensland, Brisbane, Australia (2010)
Jacobs, P.A., Gollan, R.J., Potter, D.F., Gildfind, D.E., Eichmann, T.N., O’Flaherty, B.T., Buttsworth, D.R.: CFD tools for design and simulation of transient flows in hypersonic facilities. In: Chazot, O., Bensassi, K. (eds.) RTO-AVT-VKI Lecture Series 2010-AVT186 Aerothermodynamic Design, Review on Ground Testing and CFD, March 2010, von Karman Institute for Fluid Dynamics, Belgium (2010)
Kontinos, D.A., Wright, M.J.: Introduction: Atmospheric entry of the Stardust sample return capsule. Journal of Spacecraft and Rockets 47(6), 865–867 (2010)
Löhle, S., Marynowski, T., Mezger, A.: Spectroscopic analysis of the hayabusa re-entry using airborne and ground based equipment. In: 7th European Aerothermodynamics Symposium on Space Vehicles, Brugge, Belgium (2011)
Morgan, R.G., McIntyre, T.J., Buttsworth, D.R., Jacobs, P.A., Potter, D.F., Brandis, A.M., Gollan, R.J., Jacobs, C.M., Capra, B.R., McGilvray, M., Eichmann, T.N.: Impulse facilities for the simulation of hypersonic radiating flows. In: 38th Fluid Dynamics Conference and Exhibit, Paper AIAA–2008–4270. American Institute of Astronautics and Aeronautics (June 2008)
Potter, D.F.: Ph.D. dissertation, Department of Mechanical and Mining Engineering, University of Queensland, Brisbane, Australia (2011)
Smith, A.J., Wood, A., Dubois, J., Fertig, M., Pfeiffer, B.: Plasma radiation database PARADE v2.2, Final Report Issue 3. TR28/96 Issue 3, ESTEC Contract 11148/94/NL/FG (October 2006)
Author information
Authors and Affiliations
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2012 Springer-Verlag Berlin Heidelberg
About this paper
Cite this paper
Buttsworth, D. et al. (2012). Super-Orbital Re-entry in Australia: Laboratory Measurement, Simulation and Flight Observation. In: Kontis, K. (eds) 28th International Symposium on Shock Waves. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-25688-2_5
Download citation
DOI: https://doi.org/10.1007/978-3-642-25688-2_5
Publisher Name: Springer, Berlin, Heidelberg
Print ISBN: 978-3-642-25687-5
Online ISBN: 978-3-642-25688-2
eBook Packages: EngineeringEngineering (R0)