Aerothermal Postflight Analysis of the Sharp Edge Flight Experiment-II

The aerothermal instrumentation of the Sharp Edge Hypersonic Flight Experiment SHEFEX-II, which was launched from Andøya Rocket Range on top of a two-stage rocket configuration, provided very useful flight data. Complementary to the pressure data, heat flux rate and surface temperature were measured...

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Bibliographic Details
Published in:Journal of Spacecraft and Rockets
Main Authors: Gülhan, A., Neeb, Dominik, Thiele, Thomas, Siebe, Frank
Other Authors: Edquist, K. T.
Format: Article in Journal/Newspaper
Language:unknown
Published: American Institute of Aeronautics and Astronautics (AIAA) 2015
Subjects:
Über- und Hyperschalltechnologien
Andøya
Online Access:https://elib.dlr.de/101591/
http://arc.aiaa.org/doi/abs/10.2514/1.A33275
id ftdlr:oai:elib.dlr.de:101591
record_format openpolar
spelling ftdlr:oai:elib.dlr.de:101591 2023-12-31T09:58:56+01:00 Aerothermal Postflight Analysis of the Sharp Edge Flight Experiment-II Gülhan, A. Neeb, Dominik Thiele, Thomas Siebe, Frank Edquist, K. T. 2015-12-29 https://elib.dlr.de/101591/ http://arc.aiaa.org/doi/abs/10.2514/1.A33275 unknown American Institute of Aeronautics and Astronautics (AIAA) Gülhan, A. und Neeb, Dominik und Thiele, Thomas und Siebe, Frank (2015) Aerothermal Postflight Analysis of the Sharp Edge Flight Experiment-II. Journal of Spacecraft and Rockets. American Institute of Aeronautics and Astronautics (AIAA). doi:10.2514/1.A33275 <https://doi.org/10.2514/1.A33275>. ISSN 0022-4650. Über- und Hyperschalltechnologien Zeitschriftenbeitrag NonPeerReviewed 2015 ftdlr https://doi.org/10.2514/1.A33275 2023-12-04T00:24:07Z The aerothermal instrumentation of the Sharp Edge Hypersonic Flight Experiment SHEFEX-II, which was launched from Andøya Rocket Range on top of a two-stage rocket configuration, provided very useful flight data. Complementary to the pressure data, heat flux rate and surface temperature were measured at selected locations on the payload along the complete ascent and descent trajectory. Measured heat flux rate and pressure fluctuations show excellent correlation with angle-of-attack variations. Calculated heat flux evolution using a hypersonic boundary-layer code along the trajectory is in reasonable agreement with measured heat flux data during flight. Boundary-layer transition was measured at a boundary-layer edge Reynolds number of approximately 3⋅10E6 for both ascent and descent phases. The complementary analytical and numerical study for the flight rebuilding at selected flight points provided very useful data and allowed better understanding of the physical phenomena. Finally, a combined analytical–numerical approach was validated and applied for the computation of the heat flux rate along the flight trajectory. This verified method can be used for the design and analysis of future hypersonic flights of slender vehicles. Article in Journal/Newspaper Andøya German Aerospace Center: elib - DLR electronic library Journal of Spacecraft and Rockets 53 1 153 177
institution Open Polar
collection German Aerospace Center: elib - DLR electronic library
op_collection_id ftdlr
language unknown
topic Über- und Hyperschalltechnologien
spellingShingle Über- und Hyperschalltechnologien
Gülhan, A.
Neeb, Dominik
Thiele, Thomas
Siebe, Frank
Aerothermal Postflight Analysis of the Sharp Edge Flight Experiment-II
topic_facet Über- und Hyperschalltechnologien
description The aerothermal instrumentation of the Sharp Edge Hypersonic Flight Experiment SHEFEX-II, which was launched from Andøya Rocket Range on top of a two-stage rocket configuration, provided very useful flight data. Complementary to the pressure data, heat flux rate and surface temperature were measured at selected locations on the payload along the complete ascent and descent trajectory. Measured heat flux rate and pressure fluctuations show excellent correlation with angle-of-attack variations. Calculated heat flux evolution using a hypersonic boundary-layer code along the trajectory is in reasonable agreement with measured heat flux data during flight. Boundary-layer transition was measured at a boundary-layer edge Reynolds number of approximately 3⋅10E6 for both ascent and descent phases. The complementary analytical and numerical study for the flight rebuilding at selected flight points provided very useful data and allowed better understanding of the physical phenomena. Finally, a combined analytical–numerical approach was validated and applied for the computation of the heat flux rate along the flight trajectory. This verified method can be used for the design and analysis of future hypersonic flights of slender vehicles.
author2 Edquist, K. T.
format Article in Journal/Newspaper
author Gülhan, A.
Neeb, Dominik
Thiele, Thomas
Siebe, Frank
author_facet Gülhan, A.
Neeb, Dominik
Thiele, Thomas
Siebe, Frank
author_sort Gülhan, A.
title Aerothermal Postflight Analysis of the Sharp Edge Flight Experiment-II
title_short Aerothermal Postflight Analysis of the Sharp Edge Flight Experiment-II
title_full Aerothermal Postflight Analysis of the Sharp Edge Flight Experiment-II
title_fullStr Aerothermal Postflight Analysis of the Sharp Edge Flight Experiment-II
title_full_unstemmed Aerothermal Postflight Analysis of the Sharp Edge Flight Experiment-II
title_sort aerothermal postflight analysis of the sharp edge flight experiment-ii
publisher American Institute of Aeronautics and Astronautics (AIAA)
publishDate 2015
url https://elib.dlr.de/101591/
http://arc.aiaa.org/doi/abs/10.2514/1.A33275
genre Andøya
genre_facet Andøya
op_relation Gülhan, A. und Neeb, Dominik und Thiele, Thomas und Siebe, Frank (2015) Aerothermal Postflight Analysis of the Sharp Edge Flight Experiment-II. Journal of Spacecraft and Rockets. American Institute of Aeronautics and Astronautics (AIAA). doi:10.2514/1.A33275 <https://doi.org/10.2514/1.A33275>. ISSN 0022-4650.
op_doi https://doi.org/10.2514/1.A33275
container_title Journal of Spacecraft and Rockets
container_volume 53
container_issue 1
container_start_page 153
op_container_end_page 177
_version_ 1786811206341754880

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