Abstract
Unsteady aerodynamic flow phenomena are investigated in the wind tunnel by oscillating a realistic 50% scale model around its vertical axis. Thus the model is exposed to time-dependent flow conditions at realistic Reynolds and Strouhal numbers. Using this setup unsteady aerodynamic loads are observed to differ significantly from quasi-steady loads. In particular, the unsteady yaw moment exceeds the quasi-steady approximation by 80%. On the other hand, side force and roll moment are over predicted by quasi-steady approximation but exhibit a significant time delay. Using hotwire anemometry a delayed reaction of the wake flow of Ît/T = 0.15 is observed, which is thought to be the principal cause for the differences between unsteady and quasi-steady aerodynamic loads. A schematic mechanism explaining these differences due to the delayed reaction of the wake flow is proposed. Additionally, the wake topology observed in previous studies for constant yaw featuring fluid entering into the wake region from the leeward side accompanied by two counter-rotating vortices is confirmed.
Original language | English |
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DOIs | |
State | Published - 2011 |
Event | SAE 2011 World Congress and Exhibition - Detroit, MI, United States Duration: 12 Apr 2011 → 14 Apr 2011 |
Conference
Conference | SAE 2011 World Congress and Exhibition |
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Country/Territory | United States |
City | Detroit, MI |
Period | 12/04/11 → 14/04/11 |