DocumentCode
1690106
Title
Performance studies of the constant voltage anemometer in a Mach 2.3 boundary layer
Author
Comte-Bellot, Geneviéve ; Sarma, Garimella R. ; Faure, Thierry M. ; Dussauge, Jean-Paul ; Dupont, Pierre ; Debiéve, Jean-François
Author_Institution
Ecole Centrale de Lyon, Ecully, France
fYear
1999
fDate
6/21/1905 12:00:00 AM
Abstract
The operational features of the Constant Voltage Anemometer (CVA) are shown to be well adapted for measurements in supersonic flows. The time constant of hot-wire under constant voltage operation is verified to be much smaller than that under constant current operation. Good noise immunity feature of the constant voltage operation with large bandwidth of the CVA circuit were also noticed from the experiments. An extensive investigation has been conducted in a Mach 2.3 boundary layer. The software compensation approach described in an earlier study is again applied to the data in the present experiments. The approach of compensating the CVA for the hot-wire time constant partially with hardware during the experiment and later correcting the CVA output with the actual in-situ measured time constant has produced consistently good results with an increased bandwidth. The turbulence levels estimates deduced from CVA data collected at different wire overheats agree well with earlier published results. Comparisons with the Constant Current Anemometer (CCA) and the Constant Temperature Anemometer (CTA) were conducted in the same experimental conditions
Keywords
anemometers; boundary layers; flow measurement; supersonic flow; Mach 2.3 boundary layer; constant voltage anemometer; hot wire time constant; supersonic flow measurement; thermal lag compensation; turbulence spectra; Bandwidth; Circuit noise; Electric resistance; Fluid flow measurement; Hardware; Noise measurement; Temperature; Time measurement; Voltage; Wire;
fLanguage
English
Publisher
ieee
Conference_Titel
Instrumentation in Aerospace Simulation Facilities, 1999. ICIASF 99. 18th International Congress on
Conference_Location
Toulouse
Print_ISBN
0-7803-5715-9
Type
conf
DOI
10.1109/ICIASF.1999.827180
Filename
827180
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