Behavior of Sliding Angle as Function of Temperature Difference between Droplet and Superhydrophobic Coating for Aircraft Ice Protection Systems

Hasegawa, Mitsugu; Endo, Haruka; Morita, Katsuaki; Sakaue, Hirotaka

doi:10.3390/aerospace8080219

Cited by 7 publications

(5 citation statements)

References 37 publications

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“…This could be attributed to an increase in the adhesion force between the droplet and the substrate as its temperature increases. 62 The component of gravity parallel to the inclined surface propels the droplet, and thus, as gravity overcomes the adhesive force, it starts to migrate downward. Second, the critical angle increases as the ethanol concentration decreases because ethanol has a lower surface tension than water.…”

Section: ■ Results and Discussionmentioning

confidence: 99%

“…First, the critical angle of inclination is generally observed to increase with an increase in the substrate temperature. This could be attributed to an increase in the adhesion force between the droplet and the substrate as its temperature increases . The component of gravity parallel to the inclined surface propels the droplet, and thus, as gravity overcomes the adhesive force, it starts to migrate downward.…”

Section: Results and Discussionmentioning

confidence: 99%

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An Experimental Investigation of Evaporation of Ethanol–Water Droplets Laden with Alumina Nanoparticles on a Critically Inclined Heated Substrate

et al. 2022

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We experimentally investigate the evaporation of water−ethanol binary sessile droplets loaded with alumina nanoparticles on a critically inclined heated surface and compare it to the no-loading condition. In contrast to a droplet of pure fluids, several distinct and interesting phenomena observed in a binary-nanofluid droplet on a critically inclined substrate are reported for the first time. The critical angle at which a droplet begins to slide increases for ethanol-rich binary droplets up to 0.6 wt % nanoparticle loading. The critical angle for binary droplets also increases as the substrate temperature increases and as the ethanol concentration decreases for modest loading conditions. It is observed that the advancing side of a binary droplet is pinned in both the loading and no-loading scenarios, whereas the receding side is pinned in the loading case but shrinks continuously in the no-loading case. The pinning effect caused by nanoparticles results in a larger perimeter and surface area for the nanoparticle-laden droplets, enhancing the evaporation rates and significantly decreasing the lifetime of the nanoparticle-containing droplets compared to the no-loading case. Increasing the ethanol percentage in the binary droplet placed on an inclined substrate produces complex thermosolutal Marangoni convection, which becomes more affluent in the case of nanoparticles loading than the no-loading condition. The radial symmetry of the circular coffee ring structure observed on a horizontal surface is shattered in the inclined case because the droplet elongates and preferentially deposits toward the advancing side of the triple line due to the action of the body force. Despite its fundamental nature, the present study can contribute to understanding many practical applications.

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Section: ■ Results and Discussionmentioning

confidence: 99%

Section: Results and Discussionmentioning

confidence: 99%

An Experimental Investigation of Evaporation of Ethanol–Water Droplets Laden with Alumina Nanoparticles on a Critically Inclined Heated Substrate

et al. 2022

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“…STFs could promote the shedding of PCM-solid-layers from HX surfaces in LHTES and modify the phase change process during heat discharge, thereby enhancing heat delivery efficiency. Although they find extensive application in many fields (ie, drag reduction, 24 industrial boiling and condensation, 25 antifouling, 26,27 de-icing [28][29][30][31][32][33] and defrosting, [34][35][36] etc. ), their contextual application in LHTES systems for recovery, storage and transportation of low temperature process heat (up to $250 C) is novel.…”

Section: Requirement Of Stf Surfaces For Lhtes Applications and Key C...mentioning

confidence: 99%

Super‐liquid‐repellent thin film materials for low temperature latent heat thermal energy storage: A comprehensive review of materials for dip‐coating

Muhumuza,

Eames

2024

Energy Storage

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When discharging latent heat thermal energy storage (LHTES) systems, performance is influenced by the formation and adherence of a solid layer of phase change material (PCM) on heat eXchange (HX) surfaces. Super‐liquid‐repellent thin films (STFs) may be able to reduce solidifying PCM adhesion on HX surfaces during discharging, delay PCM solidification to lower temperatures, and by modifying nucleation sites potentially enable long‐term seasonal thermal storage. Techniques employed previously to fabricate sintered polymeric STF coatings include chemical vapour deposition, dip‐coating, spray‐coating, spin‐coating, layer‐by‐layer (LbL) assembly, sol‐gel, anodizing, electrodeposition, electrospinning, so on. Dip‐coating is considered attractive for fabricating thin films on simple and complex surface geometries due to process maturity, scalability, flexibility and cost‐effectiveness. To identify suitable materials for preparing STFs on metal HX surfaces using the dip‐coating process, more than 200 journal articles published in English during the period 2010 to 2022 were reviewed and the potential role of STFs in LHTES applications was assessed. The review identified key areas and applications stimulating STF material developments and formulations. The dip‐coating of potential STF materials was classified under three major themes driving current research and development (R&D) activities, that is, high performance thin films, eco‐friendly thin films and fundamental research formulations. This review provides a platform from which to develop coatings and HX systems to enable the cost‐effective implementation of STFs for improved heat transfer in future mobile/stationery LHTES systems.

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“…Another common quantification value of wetting is the sliding angle (s.a.) [24], which is the angle for a macroscopically plain surface to be tilted at to make the contacting liquid moving downwards by its own weight (Fig. 1 c)).…”

Section: General Quantification Of Wettabilitymentioning

confidence: 99%

Fundamentals and utilization of solid/ liquid phase boundary interactions on functional surfaces

Mérai

Deák

Dékány

et al. 2022

Advances in Colloid and Interface Science

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Behavior of Sliding Angle as Function of Temperature Difference between Droplet and Superhydrophobic Coating for Aircraft Ice Protection Systems

Cited by 7 publications

References 37 publications

An Experimental Investigation of Evaporation of Ethanol–Water Droplets Laden with Alumina Nanoparticles on a Critically Inclined Heated Substrate

An Experimental Investigation of Evaporation of Ethanol–Water Droplets Laden with Alumina Nanoparticles on a Critically Inclined Heated Substrate

Super‐liquid‐repellent thin film materials for low temperature latent heat thermal energy storage: A comprehensive review of materials for dip‐coating

Fundamentals and utilization of solid/ liquid phase boundary interactions on functional surfaces

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