Modelling of Hydrophobic Surfaces by the Stokes Problem with the Stick-Slip Boundary Conditions

journal article in Web of Science

English

Unlike the Navier boundary condition, the present paper deals with the case when the slip of a fluid along the wall may occur only when the shear stress attains certain bound which is given a-priori and does not depend on the solution itself. The mathematical model of the velocity-pressure formulation with this type of the threshold slip boundary condition is given by the so-called variational inequality of the second kind. For its discretization we use P1-bubble/P1 mixed finite elements. The resulting algebraic problem leads to the minimization of a non-differentiable energy function subject to linear equality constraints representing the discrete impermeability and incompressibility condition. To release the former one and to regularize the non-smooth term characterizing the stick-slip behavior of the algebraic formulation, two additional vectors of Lagrange multipliers are introduced. Further, the velocity vector is eliminated and the resulting minimization problem for a quadratic function depending on the dual variables (the discrete pressure, the normal and shear stress) is solved by the interior point type method which is briefly described. To justify the threshhold model and to illustrate the efficiency of the proposed approach, three physically realistic problems are solved and the results are compared with the ones solving the Stokes problem with the Navier boundary condition.

Stokes problem, Navier boundary condition, hydrophobia, fluid slip, algebraic formulation

KUČERA, R.; ŠÁTEK, V.; HASLINGER, J.; FIALOVÁ, S.; POCHYLÝ, F.

2. 1. 2017

The American Society of Mechanical Engineers

New York

0098-2202

JOURNAL OF FLUIDS ENGINEERING-TRANSACTIONS OF THE ASME

139

1

United States of America

0112021

0112029

9

http://fluidsengineering.asmedigitalcollection.asme.org/article.aspx?articleid=2536532