K. Todd Lowe scite author profile

In the literature, the application of sonic anemometry has been limited to low subsonic Mach number, near-incompressible flow conditions. To the best of the authors’ knowledge, this paper represents the first time a sonic anemometry approach has been used to characterize flow velocity beyond Mach 0.3. Using a high speed jet, flow velocity was measured using a modified sonic anemometry technique in flow conditions up to Mach 0.83. A numerical study was conducted to identify the effects of microphone placement on the accuracy of the measured velocity. Based on estimated error strictly due to uncertainty in time-of-acoustic flight, a random error of 4 m s−1 was identified for the configuration used in this experiment. Comparison with measurements from a Pitot probe indicated a velocity RMS error of 9 m s−1. The discrepancy in error is attributed to a systematic error which may be calibrated out in future work. Overall, the experimental results from this preliminary study support the use of acoustics for high subsonic flow characterization.

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Application of a Novel Laser-Doppler Velocimeter for Turbulence: Structural Measurements in Turbulent Boundary Layers

Lowe¹

2006

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Equilibrium and non-equilibrium turbulent boundary layers

Devenport

Lowe

2022

Progress in Aerospace Sciences

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Development and application of a point Doppler velocimeter featuring two-beam multiplexing for time-resolved measurements of high-speed flow

et al. 2014

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Cross-correlation Doppler global velocimetry (CC-DGV)

Cadel¹,

Lowe²

2015

Optics and Lasers in Engineering

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K. Todd Lowe

Extension of sonic anemometry to high subsonic Mach number flows

Application of a Novel Laser-Doppler Velocimeter for Turbulence: Structural Measurements in Turbulent Boundary Layers

Equilibrium and non-equilibrium turbulent boundary layers

Development and application of a point Doppler velocimeter featuring two-beam multiplexing for time-resolved measurements of high-speed flow

Cross-correlation Doppler global velocimetry (CC-DGV)

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