Journal of Mechanical Engineering and Sciences, Volume (13), No (2), Year (2019-6) , Pages (5104-5125)

Title : ( Surface roughness effect on droplet impact characterization: Experimental and theoretical study )

Authors: Javid Zohrabi Chakaneh , S.M. Javid , Mohammad Passandideh-Fard ,

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Abstract

In this paper, the effect of surface roughness on the both normal and inclined droplet impact is investigated experimentally by image processing. The impingement of water droplets with 2.9mm diameter and 1m/s velocity impacting on three types of stainless-steel surfaces with respective arithmetic average surface roughness values of 2.24 (Smooth), 6.04 (Medium) and 30.2 μm (Rough) is examined using a high-speed camera. The dynamic behaviour of the impact including droplet deformation, the maximum spreading diameter and length, contact angle and the number of fingers is studied. Experimental results demonstrate that the maximum spreading diameter and length are lower in the surface with high roughness due to higher the kinetic energy dissipation. The results also demonstrate that surface roughness has no significant effect on contact angles. Increasing surfaces roughness not only prevent secondary droplet formation but also decrease the number of fingers formed around the droplet in the normal droplet impact. Considering the inclined droplet impact scenarios, the asymmetric spreading of droplet on inclined surfaces avoids the secondary droplet formation by decreasing the fluid kinetic energy. In the inclined impact, fingers are formed around the droplet perimeter like the normal impact. The experimental results are compared with those of the analytics available in the literature for the normal droplet impacts. Next, a simple analytical model for droplet impact on an inclined surface is developed; the predictions from this model were also compared to those of measurements. Calculated values from the analytical models agreed well with experimental data for both normal and inclined impact scenarios.

Keywords

Inclined droplet impact; roughness; maximum spreading diameter; contact angle; numbers of fingers
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@article{paperid:1075498,
author = {Zohrabi Chakaneh, Javid and S.M. Javid and Passandideh-Fard, Mohammad},
title = {Surface roughness effect on droplet impact characterization: Experimental and theoretical study},
journal = {Journal of Mechanical Engineering and Sciences},
year = {2019},
volume = {13},
number = {2},
month = {June},
issn = {2289-4659},
pages = {5104--5125},
numpages = {21},
keywords = {Inclined droplet impact; roughness; maximum spreading diameter; contact angle; numbers of fingers},
}

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%0 Journal Article
%T Surface roughness effect on droplet impact characterization: Experimental and theoretical study
%A Zohrabi Chakaneh, Javid
%A S.M. Javid
%A Passandideh-Fard, Mohammad
%J Journal of Mechanical Engineering and Sciences
%@ 2289-4659
%D 2019

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