Calibration and performance characterization of a Mach 5 Ludwieg tube

Calibration and performance characterization of a Mach 5 Ludwieg tube

Calibration, commissioning, and design features of a new Mach 5 Ludwieg Tube wind tunnel at the University of Arizona are discussed. Mach number uniformity and free-stream noise levels are measured using a Pitot rake at a range of unit Reynolds numbers and at multiple spanwise and streamwise positio...

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Veröffentlicht in:Review of scientific instruments 2022-08, Vol.93 (8), p.085104-085104
Hauptverfasser: Bearden, Kyle P., Padilla, Victor E., Taubert, Lutz, Craig, Stuart A.
Format: Artikel
Sprache:eng
Schlagworte:
Acoustic noise
Calibration
Core flow
Diameters
Fluid flow
Free flow
Ludwieg tubes
Mach number
Noise levels
Reynolds number
Scientific apparatus & instruments
Wind tunnels
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Zusammenfassung:Calibration, commissioning, and design features of a new Mach 5 Ludwieg Tube wind tunnel at the University of Arizona are discussed. Mach number uniformity and free-stream noise levels are measured using a Pitot rake at a range of unit Reynolds numbers and at multiple spanwise and streamwise positions. The wind tunnel is shown to have a free-stream Mach number of 4.82 with maximum variance less than 0.8% (and less than 0.5% at most streamwise positions). The average free-stream acoustic noise level in the core (based on Pitot pressure) is shown to be less than 1.2% at an intermediate Reynolds number with some regions dropping locally below 1.0%. The core flow region is measured to be 282.4 mm (11.1 in.) in diameter at the nozzle exit.
ISSN:0034-6748
1089-7623
DOI:10.1063/5.0093052