Abstract
This study examined the effect of Reynolds number on plasma-assisted flow control ahead of a compression ramp geometry in Mach-2 supersonic flow. The experiments were conducted in the supersonic wind tunnel SBR-50 at the University of Notre Dame. Stagnation temperature and pressure were varied as T0=294-500K and P0=1-3bar to attain Reynolds number ranging from 3.4×105-2.2×106. Ramp pressure measurements, schlieren visualization, and high-speed camera imaging were used for the evaluation of plasma-assisted flow control effects. A linear dependency was found between the ramp pressure change per averaged plasma power and Reynolds number.
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CITATION STYLE
Watanabe, Y., Leonov, S. B., Houpt, A., Hedlund, B. E., & Elliott, S. (2017). Plasma-Assisted Control of Mach-2 Flowfield over Ramp Geometry. In IOP Conference Series: Materials Science and Engineering (Vol. 249). Institute of Physics Publishing. https://doi.org/10.1088/1757-899X/249/1/012006
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