Time dependent superhydrophobicity of drag reducing surfaces
Data(s) |
2011
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Resumo |
Air can be trapped on the crevices of specially textured hydrophobic surfaces immersed in water. This heterogenous state of wetting in which the water is in contact with both the solid surface and the entrapped air is not stable. Diffusion of air into the surrounding water leads to gradual reduction in the size and numbers of the air bubbles. The sustainability of the entrapped air on such surfaces is important for many underwater applications in which the surfaces have to remain submersed for longer time periods. In this paper we explore the suitability of different classes of surface textures towards the drag reduction application by evaluating the time required for the disappearance of the air bubbles under hydrostatic conditions. Different repetitive textures consisting of holes, pillars and ridges of different sizes have been generated in silicon, aluminium and brass by isotropic etching, wire EDM and chemical etching respectively. These surfaces were rendered hydrophobic with self-assembled layer of fluorooctyl trichlorosilane for silicon and aluminium surfaces and 1-dodecanethiol for brass surfaces. Using total internal reflection the air bubbles are visualized with the help of a microscope and time lapse photography. Irrespective of the texture, both the size and the number of air pockets were found to decrease with time gradually and eventually disappear. In an attempt to reverse the diffusion we explore the possibility of using electrolysis to generate gases at the textured surfaces. The gas bubbles are nucleated everywhere on the surface and as they grow they coalesce with each other and get pinned at the texture edges. |
Formato |
application/pdf |
Identificador |
http://eprints.iisc.ernet.in/46294/1/Micr_Nan_Flow_Con_1_2011.pdf Bobji, Musuvathi S and Balan, Ganesh and Govardhan, Raghuraman N (2011) Time dependent superhydrophobicity of drag reducing surfaces. In: 3rd Micro and Nano Flows Conference (MNF2011), 22-24 August 2011, Thessaloniki, Greece. |
Publicador |
Brunel University |
Relação |
http://bura.brunel.ac.uk/handle/2438/6804 http://eprints.iisc.ernet.in/46294/ |
Palavras-Chave | #Mechanical Engineering |
Tipo |
Conference Paper PeerReviewed |