Computer Science
Scientific paper
Aug 1981
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1981sdli.rept.....m&link_type=abstract
Final Report, Apr. - Nov. 1980 Spectron Development Labs., Inc., Costa Mesa, CA.
Computer Science
Angular Velocity, Flow Velocity, Laser Anemometers, Transonic Flow, Wind Tunnel Apparatus, Wind Tunnel Walls, Backscattering, Data Bases, Flow Distribution, Mach Number, Microcomputers, Particle Size Distribution, Velocity Errors
Scientific paper
The measurement of a backscatter laser transit anemometer was tested in the FDL Trisonic Gasdynamics Facility (TGF) and the nine-inch Self Adapting Wall (SAW) wind tunnel. The tests included flow analysis in the two foot by two foot subsonic, transonic and supersonic test sections as well as the fifteen-inch transonic test section insert all in the TGF. The magnitude and flow angle precisions were as good as 0.3% and 0.3 deg, respectively, as limited by the statistical fluctuations of the data. Calculations indicate that the minimum natural particle size observed in the TGF was approximately 0.2 micron in diameter. Flow speed and angle were mapped about a microfighter flow field in the TGF fifteen-inch transonic test section at Mach number 0.7 and 0.9 to develop a data base for evaluation of the Self Adaptive Wall wind tunnel concept. Measurements were then made to the same model in the FDL nine-inch Self Adaptive Wall wind tunnel. These indicated that the precision of the instrument exceeded the current precision to establish and repeat flow conditions in the tunnel. The SAW results indicated non-uniform particle content of the flow which adversely affected the available angle precision; however, velocity measurements were good. Presentation of the equipment and measurement results of the present project are included.
Hermes R. J.
Mayo T. Jr. W.
Smart A. E.
Trolinger J. D.
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