Publication detail
Practical aspects of the wettability
FIALOVÁ, S. POCHYLÝ, F. VOLKOV, A.V. ŠOUKAL,J.
English title
Practical aspects of the wettability
Type
conference paper
Language
en
Original abstract
A new knowledge of fluid flow on hydrophobic surface will be presented. The boundary condition will be refined considering the effects of air adhering to the rough, hydrophilic surface. Possibilities of turbulent viscosity effects as a result of liquid slippage on the hydrophobic surface will also be considered. These effects will be demonstrated on the basis of performed experiments. The experimental study will be focused on the determination of the pressure difference in the tube, whose surface is provided with an ultrahydrophobic coating with a contact angle higher than 140 °. Results will be reported based on Reynolds number. In addition to the results of the experiment, the thesis will also include a theoretical study aimed at refining the boundary condition, expressing the interaction of the liquid with the hydrophobic surface. In conclusion, the dissipation function will be derived, expressing the effects of liquid slippage on the hydrophobic surface and compared with its value taking into account the hydrophilic properties of the surface.
English abstract
A new knowledge of fluid flow on hydrophobic surface will be presented. The boundary condition will be refined considering the effects of air adhering to the rough, hydrophilic surface. Possibilities of turbulent viscosity effects as a result of liquid slippage on the hydrophobic surface will also be considered. These effects will be demonstrated on the basis of performed experiments. The experimental study will be focused on the determination of the pressure difference in the tube, whose surface is provided with an ultrahydrophobic coating with a contact angle higher than 140 °. Results will be reported based on Reynolds number. In addition to the results of the experiment, the thesis will also include a theoretical study aimed at refining the boundary condition, expressing the interaction of the liquid with the hydrophobic surface. In conclusion, the dissipation function will be derived, expressing the effects of liquid slippage on the hydrophobic surface and compared with its value taking into account the hydrophilic properties of the surface.
Keywords in English
wettability, air layer, coarse surface, smooth surface, simulation, experiment
Released
25.10.2022
Publisher
EPJ Web Conf.
ISSN
2100-014X
Book
EFM19 – Experimental Fluid Mechanics 2019
Volume
269
Number
01014
Edition number
Volume 269 (2022)
Pages count
6
BIBTEX
@inproceedings{BUT179657,
author="Simona {Fialová} and František {Pochylý},
title="Practical aspects of the wettability",
booktitle="EFM19 – Experimental Fluid Mechanics 2019",
year="2022",
volume="269",
number="01014",
month="October",
publisher="EPJ Web Conf.",
issn="2100-014X"
}