Thrust-Reverser Investigation by Large-Scale 3D PIV
I. Hysa (Royal Netherlands Aerospace Centre NLR)
Marthijn Tuinstra (Royal Netherlands Aerospace Centre NLR)
K Lammers (Royal Netherlands Aerospace Centre NLR)
F. Scarano (TU Delft - Aerodynamics)
A. Sciacchitano (TU Delft - Aerodynamics)
Roy Gebbink (German-Dutch Wind Tunnels (DNW))
C Harrison (Gulfstream Aerospace Corporation)
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Abstract
Volumetric PIV measurements are performed to study the flow development around a 1:12 scale model of a thrust reverser in a low-speed wind tunnel. The thrust-reverser operates in a freestream flow of 3-5 m/s and with a jet to freestream velocity ratio Vjet/Vinf ranging from 1.5 to 6. Making use of sub-millimeter helium-filled soap bubbles, large-scale PIV measurements are performed that encompass a 3D domain of approximately 0.4 m3. The flow exiting the thrust-reverser features two inclined jets that interact with the wind tunnel free stream, the nacelle, fuselage and ultimately the tunnel walls. Such interactions result in highly three-dimensional patterns and jets large scale fluctuations. The jet reversal characteristics with varying freestream velocity and nozzle pressure ratio are characterized quantitatively. The work demonstrates the feasibility of quantitative inspection of the flow behavior in a three dimensional domain for industrial applications.