Litcius/Paper detail

A novel physical mechanism of liquid flow slippage on a solid surface

Yuji Kurotani, Hajime Tanaka

2020Science Advances34 citationsDOIOpen Access PDF

Abstract

Viscous liquids often exhibit flow slippage on solid walls. The occurrence of flow slippage has a large impact on the liquid transport and the resulting energy dissipation, which are crucial for many applications. It is natural to expect that slippage takes place to reduce the dissipation. However, (i) how the density fluctuation is affected by the presence of the wall and (ii) how slippage takes place through forming a gas layer remained elusive. Here, we report possible answers to these fundamental questions: (i) Density fluctuation is intrinsically enhanced near the wall even in a quiescent state irrespective of the property of wall, and (ii) it is the density dependence of the viscosity that destabilizes the system toward gas-layer formation under shear flow. Our scenario of shear-induced gas-phase formation provides a natural physical explanation for wall slippage of liquid flow, covering the slip length ranging from a microscopic (nanometers) to macroscopic (micrometers) scale.

Topics & Concepts

SlippageFlow (mathematics)Solid surfaceMechanism (biology)Liquid flowMechanicsShear flowMaterials scienceChemistryChemical physicsPhysicsComposite materialQuantum mechanicsFluid Dynamics and Thin FilmsHeat Transfer and Boiling StudiesSurface Modification and Superhydrophobicity