Transition due to isolated roughness in a swept wing boundary layer

The present work is dedicated to the investigation of the effect of an isolated roughness element on a swept wing boundary layer. In particular, the flow modifications incurred by a single cylindrical element applied on a swept wing model are measured, toward describing the nature of the perturbatio...

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Veröffentlicht in:	Physics of fluids (1994) 2022-08, Vol.34 (8)
Hauptverfasser:	Zoppini, Giulia, Ragni, Daniele, Kotsonis, Marios
Format:	Artikel
Sprache:	eng
Schlagworte:	Boundary layer transition Cross flow Disturbances Infrared imaging Laminar boundary layer Laminar flow Perturbation Roughness Swept wings Thermography Two dimensional boundary layer Velocity measurement
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container_title	Physics of fluids (1994)
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creator	Zoppini, Giulia Ragni, Daniele Kotsonis, Marios
description	The present work is dedicated to the investigation of the effect of an isolated roughness element on a swept wing boundary layer. In particular, the flow modifications incurred by a single cylindrical element applied on a swept wing model are measured, toward describing the nature of the perturbations introduced in the flow field, their development in the near and far wake region, as well as their eventual breakdown. The measurements are performed using infrared thermography, to achieve a general overview of the element wake origin and spatial spreading. Local quantitative characterization of the stationary and unsteady disturbances evolving in the flow is instead acquired through hot wire anemometry. When present in an undisturbed laminar boundary layer, isolated roughness elements are found to introduce flow disturbances, which lead to the formation of a turbulent wedge. As it develops downstream, the wedge undergoes rapid spanwise expansion, affecting the adjacent laminar flow regions. The wedge origin and development is mostly associated with the instabilities introduced by the shedding process initiated in the roughness element wake, comparably to the dominant flow features characterizing the transition of two-dimensional boundary layers conditioned by an isolated roughness element. Nonetheless, the presence of the crossflow velocity component in the boundary layer baseflow notably affects the overall flow development, introducing an asymmetric evolution of the main flow features.
doi_str_mv	10.1063/5.0101187
format	Article
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source	AIP Journals Complete; Alma/SFX Local Collection
subjects	Boundary layer transition Cross flow Disturbances Infrared imaging Laminar boundary layer Laminar flow Perturbation Roughness Swept wings Thermography Two dimensional boundary layer Velocity measurement
title	Transition due to isolated roughness in a swept wing boundary layer
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