Publication detail

New boundary conditions for fluid interaction with hydrophobic surface

POCHYLÝ, F. FIALOVÁ, S. HAVLÁSEK, M.

Original Title

New boundary conditions for fluid interaction with hydrophobic surface

Type

conference paper

Language

English

Original Abstract

Solution of both laminar and turbulent flow with consideration of hydrophobic surface is based on the original Navier assumption that the shear stress on the hydrophobic surface is directly proportional to the slipping velocity. In the previous work a laminar flow analysis with different boundary conditions was performed. The shear stress value on the tube walls directly depends on the pressure gradient. In the solution of the turbulent flow by the k-ε model, the occurrence of the fluctuation components of velocity on the hydrophobic surface is considered. The fluctuation components of the velocity affect the size of the adhesive forces. We assume that the boundary condition for ε depending on the velocity gradients will not need to be changed. When the liquid slips over the surface, non-zero fluctuation velocity components occur in the turbulent flow. These determine the non-zero value of the turbulent kinetic energy K. In addition, the fluctuation velocity components also influence the value of the adhesive forces, so it is necessary to include these in the formulation of new boundary conditions for turbulent flow on the hydrophobic surface.

Keywords

Turbulent flow, boundary conditions, no-slip conditions

Authors

POCHYLÝ, F.; FIALOVÁ, S.; HAVLÁSEK, M.

Released

4. 6. 2018

Publisher

EDP Sciences

ISBN

2100-014X

Periodical

EPJ Web of Conferences

Year of study

180

State

French Republic

Pages from

519

Pages to

525

Pages count

7

URL

Full text in the Digital Library

BibTex

@inproceedings{BUT142525,
  author="František {Pochylý} and Simona {Fialová} and Michal {Havlásek}",
  title="New boundary conditions for fluid interaction with hydrophobic surface",
  booktitle="EPJ Web of Conferences",
  year="2018",
  journal="EPJ Web of Conferences",
  volume="180",
  pages="519--525",
  publisher="EDP Sciences",
  doi="10.1051/epjconf/201818002084",
  issn="2100-014X",
  url="https://www.epj-conferences.org/articles/epjconf/abs/2018/15/epjconf_efm2018_02084/epjconf_efm2018_02084.html"
}