Large Drag Reduction over Superhydrophobic Riblets
Fluid Dynamics
2014-06-04 v1
Abstract
Riblets and superhydrophobic surfaces are two demonstrated passive drag reduction techniques. We describe a method to fabricate surfaces that combine both of these techniques in order to increase drag reduction properties. Samples have been tested with a cone-and-plate rheometer system, and have demonstrated significant drag reduction even in the transitional-turbulent regime. Direct Numerical Simulations have been performed in order to estimate the equivalent slip length at higher rotational speed. The sample with 100~m deep grooves has been performing very well, showing drag reduction varying from 15 to 20 over the whole range of flow conditions tested, and its slip length was estimated to be over 100 m.
Keywords
Cite
@article{arxiv.1406.0787,
title = {Large Drag Reduction over Superhydrophobic Riblets},
author = {Charlotte Barbier and Elliot Jenner and Brian D'Urso},
journal= {arXiv preprint arXiv:1406.0787},
year = {2014}
}