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Stokes flow around an asymmetric channel divider; a computational approach using MATLAB

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Abstract

While computational methods for solving Stokes-flow problems have existed for some time, these have depended on specialized codes developed specifically, for this type of problem. This work shows how to combine traditional applied mathematics and a modern over-the-counter software package Matlab to solve and study Stokes flow in a channel with a splitter plate. Specifically exact unidirectional flow solutions are used as a basis for choosing boundary conditions for Matlab to anticipate the boundary conditions of a Stokes flow. A method for selecting zeroth and first-order approximate boundary conditions is presented, along with a suggestion for finding a second-order approximation. It is also shown that small errors made in choosing the approximate boundary conditions do not grow as one moves away from the boundary into the interior of the flow. Finally several computational examples using this approach are presented.

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Authors and Affiliations

  1. Mathematical Sciences Department, Worcester Polytechnic Institute, USA and Material Sciences Department, T.U. Delft, Netherlands

    Joseph D. Fehribach & Anthony M.J. Davis

  2. Mathematics Department, University of Alabama, U.S.A.

    Joseph D. Fehribach & Anthony M.J. Davis

Authors
  1. Joseph D. Fehribach
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  2. Anthony M.J. Davis
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Fehribach, J.D., Davis, A.M. Stokes flow around an asymmetric channel divider; a computational approach using MATLAB. Journal of Engineering Mathematics 39, 207–220 (2001). https://doi.org/10.1023/A:1004842025471

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