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Pascioni, K. A., & Cattafesta, L. N. (2018). Unsteady Characteristics Of A Slat-cove Flow Field. Physical Review Fluids. Retrieved from http://purl.flvc.org/fsu/fd/FSU_libsubv1_wos_000428659900002
The leading-edge slat of a multielement wing is a significant contributor to the acoustic signature of an aircraft during the approach phase of the flight path. An experimental study of the two-dimensional 30P30N geometry is undertaken to further understand the flow physics and specific noise source mechanisms. The mean statistics from particle image velocimetry (PIV) shows the differences in the flow field with angle of attack, including the interaction between the cove and trailing-edge flow. Phase-locked PIV successfully links narrow-band peaks found in the surface pressure spectrum to shear layer instabilities and also reveals that a bulk cove oscillation at a Strouhal number based on a slat chord of 0.15 exists, indicative of shear layer flapping. Unsteady surface pressure measurements are documented and used to estimate spanwise coherence length scales. A narrow-band frequency prediction scheme is also tested and found to agree well with the data. Furthermore, higher-order spectral analysis suggests that nonlinear effects cause additional peaks to arise in the power spectrum, particularly at low angles of attack.
Pascioni, K. A., & Cattafesta, L. N. (2018). Unsteady Characteristics Of A Slat-cove Flow Field. Physical Review Fluids. Retrieved from http://purl.flvc.org/fsu/fd/FSU_libsubv1_wos_000428659900002