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Superhydrophobic Drag Reduction for Turbulent Flows in Open Water

Muchen Xu, Andrew Grabowski, Ning Yu, Gintare Kerezyte, Jeong‐Won Lee, Byron R. Pfeifer, Chang‐Jin Kim

2020Physical Review Applied109 citationsDOIOpen Access PDF

Abstract

Trapping air under water, superhydrophobic surfaces on boats have long been coveted for hydrodynamic drag reduction without bubble injection. Despite many reports of drag reduction in lab tests, such surfaces have not been successful in real-world tests on open water, at high Reynolds numbers. The authors develop hydrophobic microtrenches that provide a large slip, with a subtle detail that maximizes air retention. Replacing a portion of a motorboat's hull with the developed surface, they obtain large drag reduction under high-speed flows on the open sea. This has significant implications for energy efficiency in oceanic shipping.

Topics & Concepts

DragTurbulenceReynolds numberMechanicsReduction (mathematics)Marine engineeringLift-induced dragSlip (aerodynamics)Drag coefficientEnvironmental scienceBubbleMeteorologyMaterials sciencePhysicsEngineeringGeometryThermodynamicsMathematicsSurface Modification and SuperhydrophobicityAerodynamics and Fluid Dynamics ResearchIcing and De-icing Technologies
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