DocumentCode
1719851
Title
Infrared diode laser absorption spectroscopic characterization of the free-stream in the f4 wind tunnel
Author
Mohamed, A.K. ; Vérant, J.L. ; Soutadé, J.
Author_Institution
ONERA, Chatillon, France
fYear
2001
fDate
8/1/2001 12:00:00 AM
Firstpage
302
Lastpage
308
Abstract
We report here on measurements performed with the infrared diode laser absorption spectroscopy (DLAS) in the hypersonic flows generated in the ONERA-F4 high enthalpy hot shot wind tunnel. Velocity and temperature characterization of the free stream of air or CO2 flows has been carried out in a series of calibration tests aiming to better understand real-gas/chemistry and pollution effects typical to this kind of wind tunnel. We present a few results of measurements in air flows which have been seeded with carbon dust to enhance pollution effects in the aim to better quantify these effects. We also,describe measurements on both CO and CO2 molecules for CO2 flows, which have a more complex chemistry than air flows
Keywords
air pollution measurement; calibration; chemically reactive flow; enthalpy; flow measurement; hypersonic flow; infrared spectroscopy; spectral methods of temperature measurement; wind tunnels; CO; CO2; IR LD absorption spectroscopy; Martian atmospheric entry; ONERA-F4 wind tunnel; aerothermodynamics; air flows; calibration tests; carbon dust; combustion-derived dust; flow chemistry; high enthalpy flows; high enthalpy hot shot wind tunnel; hypersonic flows; pollution effects; re-entry conditions testing; temperature characterization; velocity characterization; vibrational temperature; Air pollution; Calibration; Chemistry; Diode lasers; Electromagnetic wave absorption; Infrared spectra; Performance evaluation; Pollution measurement; Spectroscopy; Temperature;
fLanguage
English
Publisher
ieee
Conference_Titel
Instrumentation in Aerospace Simulation Facilities, 2001. 19th International Congress on ICIASF 2001
Conference_Location
Cleveland, OH
Print_ISBN
0-7803-7022-8
Type
conf
DOI
10.1109/ICIASF.2001.960264
Filename
960264
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