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Type: Journal article
Title: Spatial and temporal concentration of hydrokinetic energy in the wake of a bluff body
Author: Manickam Sureshkumar, E.
Arjomandi, M.
Cazzolato, B.
Dally, B.
Citation: Ocean Engineering, 2018; 164:181-198
Publisher: Elsevier
Issue Date: 2018
ISSN: 0029-8018
Statement of
Eshodarar Manickam Sureshkumar, Maziar Arjomandi, Benjamin S. Cazzolato, Bassam B. Dally
Abstract: Numerical simulations of a rigid, stationary, bluff body were performed using three-dimensional Computational Fluid Dynamics (CFD) and validated against published data. Bluff body cross sections such as the circle, semi-circle, straight-edged triangle, concave-edged triangle and convex-edged triangle were modelled at a Reynolds number of 10,000 in ANSYS FLUENT (v17.1). The streamwise and transverse wake energy components were investigated using Fourier analysis to analyse the spatial and temporal concentration of bluff bodies. The simulation results of the circular cylinder are compared against known experimental values and there was good agreement for the flow characteristics. The time-averaged energy in the wake, for all the shapes, does not present significant augmentation in the wake, except for a 60% increase in the streamwise kinetic energy near the surface of the cylinder due to a jetting effect (spatial concentration). Maxima for the temporal fluctuations in kinetic energy components (u’ and v’) occur between a streamwise distance of 1 < x/D < 3 and a transverse distance of 0 < |y/D| < 1, and occur mostly at the shedding frequency. Since WIV is vibration that is enhanced by fluctuations in the wake, a cross-section which increases temporal energy can lead to more energy captured by such a system. Changing the cross-section of the cylinder changes the distribution of the wake energy, where the convex-edged triangle and semi-circular cylinders demonstrated the greatest concentration of energy in transverse velocity fluctuations compared to others (1.5 times the freestream energy).
Keywords: Bluff body; spatial and temporal; wake induced vibration; energy concentration; wake energy; CFD
Rights: © 2018 Elsevier Ltd. All rights reserved.
DOI: 10.1016/j.oceaneng.2018.06.028
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