Title of article :
Travelling-Wave Similarity Solutions for an Unsteady Shear-Stress-Driven Dry Patch in a Flowing Film
Author/Authors :
YATIM, YAZARIAH M. Universiti Sains Malaysia - School of Mathematical Sciences, Malaysia , DUFFY, BRIAN R. University of Strathclyde - Department of Mathematics and Statistics, UK , WILSON, STEPHEN K. University of Strathclyde - Department of Mathematics and Statistics, UK
Abstract :
We investigate unsteady flow of a thin film of Newtonian fluid around a symmetric slender dry patch moving with constant velocity on an inclined planar substrate, the flow being driven by a prescribed constant shear stress at the free surface of the film (which would be of uniform thickness in the absence of the dry patch). We obtain a novel unsteady travelling-wave similarity solution which predicts that the dry patch has a parabolic shape and that the film thickness increases monotonically away from the dry patch.
Keywords :
Dry patch , similarity solution , thin , film flow , travelling , wave
