Extended lubrication theory: improved estimates of flow in channels with variable geometry | Zendy

Behrouz Tavakol | Zendy; Guillaume Froehlicher | Zendy; Douglas P. Holmes | Zendy; Howard A. Stone | Zendy

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Extended lubrication theory: improved estimates of flow in channels with variable geometry

Author(s) -

Behrouz Tavakol,

Guillaume Froehlicher,

Douglas P. Holmes,

Howard A. Stone

Publication year - 2017

Publication title -

proceedings of the royal society a mathematical physical and engineering sciences

Language(s) - English

Resource type - Journals

eISSN - 1471-2946

pISSN - 1364-5021

DOI - 10.1098/rspa.2017.0234

Subject(s) - lubrication , lubrication theory , mechanics , geometry , flow (mathematics) , pressure drop , mathematics , channel (broadcasting) , fluid dynamics , classical mechanics , physics , thermodynamics , computer science , computer network

Lubrication theory is broadly applicable to the flow characterization of thin fluid films and the motion of particles near surfaces. We offer an extension to lubrication theory by starting with Stokes equations and considering higher-order terms in a systematic perturbation expansion to describe the fluid flow in a channel with features of a modest aspect ratio. Experimental results qualitatively confirm the higher-order analytical solutions, while numerical results are in very good agreement with the higher-order analytical results. We show that the extended lubrication theory is a robust tool for an accurate estimate of pressure drop in channels with shape changes on the order of the channel height, accounting for both smooth and sharp changes in geometry.

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