Flow
 2023
DOI: 10.1017/flo.2023.18
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Numerical investigation of the drag reduction effect in turbulent channel flow by superhydrophobic grooved surfaces

Ali Safari,
Mohammad Hassan Saidi,
Sajad Salavatidezfouli
et al.

Abstract: Superhydrophobic surfaces (SHSs) are considered to be a promising technology for achieving skin-friction drag reduction. Development of more efficient techniques for simulating the turbulent boundary layer on SHSs continues to be a subject of interest. In this study, numerical simulations were carried out to capture near-wall behaviours due to the effect of the SHS on wall-bounded flows. To achieve this, high- to intermediate-fidelity turbulence models including Reynolds-averaged Navier–Stokes, detached eddy s… Show more

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Cited by 5 publications
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References 46 publications
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Sustainable drag reduction in Taylor-Couette flow using riblet superhydrophobic surfaces

Safari,
Hassan Saidi,
Yao
2025
Experimental Thermal and Fluid Science
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Sustainable drag reduction in Taylor-Couette flow using riblet superhydrophobic surfaces

Safari,
Hassan Saidi,
Yao
2025
Experimental Thermal and Fluid Science
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Enhanced drag reduction of superhydrophobic coatings with femtosecond laser processing and TEOS/KH-SiO2/SA hybridization: CFD simulation and particle image velocimetry

Jiang,
Zhou,
Su
et al. 2024
Progress in Organic Coatings
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A laser-induced superhydrophobic surface with multiple microstructures for stable drag reduction

Qu,
He,
Sun
et al. 2024
Surface and Coatings Technology
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