Title of article
On the Mechanism of Drag Reduction in Fully-Developed Turbulent Channel Flow with a Streamwise Microfeatured Superhydrophobic Wall
Author/Authors
Saadat-Bakhsh ، M. Iran University of Science and Technology , Nouri ، N. M. Iran University of Science and Technology , Norouzi ، H. Iran University of Science and Technology
Pages
12
From page
1363
To page
1374
Abstract
The superhydrophobic drag reduction changes the structures of turbulent flow. However, the underlying mechanism is not clear. The aim of this study is to determine the alternations of turbulent flow due to applying a streamwise micro-featured superhydrophobic wall. Large eddy simulations are performed to explore the effect of micro-features on near-wall behaviors. The results indicate that the outward motion of the lifted low-speed streaks is restricted to the lower wall layers, and the region of maximum production of streamwise vorticities is shifted toward the micro-featured wall. The quadrant analysis of Reynolds stress shows that there is a stronger increase in outward motion of high-speed fluid and inward motion of low-speed fluid than ejection and sweep.
Keywords
Superhydrophobic surface , Drag reduction mechanism , Coherent structures , Streak strength.
Journal title
Journal of Applied Fluid Mechanics
Serial Year
2017
Journal title
Journal of Applied Fluid Mechanics
Record number
2449956
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