Open AccessDynamic Wind-Tunnel Testing of a Sub-Scale Iced S-3B Viking
Author(s) -
Sam Lee,
Billy Barnhart,
Thomas Ratvasky
Publication year - 2009
Publication title -
nasa sti repository (national aeronautics and space administration)
Language(s) - English
Resource type - Conference proceedings
DOI - 10.2514/6.2009-4262
Subject(s) - scale (ratio) , wind tunnel , environmental science , computer science , marine engineering , engineering , aerospace engineering , geography , cartography
‡The effect of ice accretion on a 1/12-scale complete aircraft model of S-3B Viking was studied in a rotary-balance wind tunnel. Two types of ice accretions were considered: ice protection system failure shape and runback shapes that form downstream of the thermal ice protection system. The results showed that the ice shapes altered the stall characteristics of the aircraft. The ice shapes also reduced the control surface effectiveness, but mostly near the stall angle of attack. There were some discrepancies with the data with the flaps deflected that were attributed to the low Reynolds number of the test. Rotational and forced-oscillation studies showed that the effects of ice were mostly in the longitudinal forces, and the effects on the lateral forces were relatively minor.
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