Iterative adaption of the bidimensional wall of the French T2 wind tunnel around a C5 axisymmetrical model: Infinite variation of the Mach number at zero incidence and a test at increased incidence

The top and bottom two-dimensional walls of the T2 wind tunnel are adapted through an iterative process. The adaptation calculation takes into account the flow three-dimensionally. This method makes it possible to start with any shape of walls. The tests were performed with a C5 axisymmetric model a...

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Hauptverfasser:	Archambaud, J. P., Dor, J. B., Payry, M. J., Lamarche, L.
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Sprache:	eng
Schlagworte:	Research And Support Facilities (Air)
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creator	Archambaud, J. P. Dor, J. B. Payry, M. J. Lamarche, L.
description	The top and bottom two-dimensional walls of the T2 wind tunnel are adapted through an iterative process. The adaptation calculation takes into account the flow three-dimensionally. This method makes it possible to start with any shape of walls. The tests were performed with a C5 axisymmetric model at ambient temperature. Comparisons are made with the results of a true three-dimensional adaptation.
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B. ; Payry, M. J. ; Lamarche, L.</creator><creatorcontrib>Archambaud, J. P. ; Dor, J. B. ; Payry, M. J. ; Lamarche, L.</creatorcontrib><description>The top and bottom two-dimensional walls of the T2 wind tunnel are adapted through an iterative process. The adaptation calculation takes into account the flow three-dimensionally. This method makes it possible to start with any shape of walls. The tests were performed with a C5 axisymmetric model at ambient temperature. 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title	Iterative adaption of the bidimensional wall of the French T2 wind tunnel around a C5 axisymmetrical model: Infinite variation of the Mach number at zero incidence and a test at increased incidence
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