2019
DOI: 10.1039/c8ra10092f
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Water droplet on inclined dusty hydrophobic surface: influence of droplet volume on environmental dust particles removal

Abstract: A water droplet's behavior on an inclined hydrophobic surface in the presence of environmental dust particles is considered and the droplet's dynamics are analyzed pertinent to self-cleaning applications.

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Cited by 29 publications
(18 citation statements)
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“…The rotational kinetic energy of the rolling droplet over inclined hydrophobic surfaces is influenced by the forces of pinning (under surface tension), air drag, and interfacial shear (created over the wetted surface) 34 . The pinning force is proportional to the droplet wetting diameter ( D w ), the solid fraction ( ϕ s ), droplet fluid surface tension ( γ ), and advancing ( θ A ) and receding ( θ R ) angles during rolling.…”
Section: Resultsmentioning
confidence: 99%
“…The rotational kinetic energy of the rolling droplet over inclined hydrophobic surfaces is influenced by the forces of pinning (under surface tension), air drag, and interfacial shear (created over the wetted surface) 34 . The pinning force is proportional to the droplet wetting diameter ( D w ), the solid fraction ( ϕ s ), droplet fluid surface tension ( γ ), and advancing ( θ A ) and receding ( θ R ) angles during rolling.…”
Section: Resultsmentioning
confidence: 99%
“…The rotational kinetic energy of the rolling droplet over inclined hydrophobic surfaces is influenced by the forces of pinning (under surface tension), air drag, and interfacial shear (created over the wetted surface). 32 The pinning force is proportional to the droplet wetting diameter (Dw), the solid fraction (s), droplet fluid surface tension (), and advancing (A) and receding (R) angles during rolling. It takes the form:…”
Section: Droplet Rolling Over Hydrophobic Micro-post Arraysmentioning
confidence: 99%
“…. 32 The air-drag force acting over rolling droplet can be formulated via ≅ 1/2 2 , here, Cd is drag coefficient and air velocity is Uf , which can be considered as rolling droplet translational velocity (Vd). 33 The interfacial shear force created over the wedded area can be simplified to take the form of: = ( ), here Aw is wetted area,  is fluid viscosity, y is distance normal to the wetted area.…”
Section: Droplet Rolling Over Hydrophobic Micro-post Arraysmentioning
confidence: 99%
“…Environmental dust settles on surfaces and alters surface optical characteristics while influencing performance of a renewable energy devices such as photovoltaics, which becomes significant over the time 1 . This is because of the composition of the environmental dust, which is consisted of various elements and oxides while lowering the UV visual transmittance of solar radiation 6 . Surface cleaning of such devices becomes essential for effective and sustainable operations.…”
Section: Introductionmentioning
confidence: 99%
“…However, the dust particles with sharp edges can anchor on the surface and they are difficult to pick up by the droplet. The low surface energy dust particles are unable to be cloaked by the droplet fluid and mostly they remain as residues on the surface while adversely affecting the cleaning performance 6 . In addition, the dust thickness influences the droplet fluid cloaking and the amount of dust picked up by the droplet may reduce with increasing dust thickness on the surface.…”
mentioning
confidence: 99%