Journal ArticleDOI
On the collision of a droplet with a solid surface
Sanjeev Chandra,C.T. Avedisian +1 more
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In this paper, the collision dynamics of a liquid droplet on a solid metallic surface were studied using a flash photographic method, which provided clear images of the droplet structure during the deformation process.Abstract:
The collision dynamics of a liquid droplet on a solid metallic surface were studied using a flash photographic method. The intent was to provide clear images of the droplet structure during the deformation process. The ambient pressure (0.101 MPa), surface material (polished stainless steel), initial droplet diameter (about 1.5 mm), liquid (n-heptane) and impact Weber number (43) were fixed. The primary parameter was the surface temperature, which ranged from 24 degrees C to above the Leidenfrost temperature of the liquid. Experiments were also performed on a droplet impacting a surface on which there existed a liquid film created by deposition of a prior droplet. The evolution of wetted area and spreading rate, both of a droplet on a stainless steel surface and of a droplet spreading over a thin liquid film, were found to be independent of surface temperature during the early period of impact. This result was attributed to negligible surface tension and viscous effects, and in consequence the measurements made during the early period of the impact process were in good agreement with previously published analyses which neglected these effects. A single bubble was observed to form within the droplet during impact at low temperatures. As surface temperature was increased the population of bubbles within the droplet also increased because of progressive activation of nucleation sites on the stainless steel surface. At surface temperatures near to the boiling point of heptane, a spoke-like cellular structure in the liquid was created during the spreading process by coalescence of a ring of bubbles that had formed within the droplet. At higher temperatures, but below the Leidenfrost point, numerous bubbles appeared within the droplet, yet the overall droplet shape, particularly in the early stages of impact (< 0.8 ms), was unaffected by the presence of these bubbles. The maximum value of the diameter of liquid which spreads on the surface is shown to agree with predictions from a simplified model.read more
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Journal ArticleDOI
Kinematic Viscosities of High-Temperature Materials Used in Plasma Spraying
André McDonald,Sanjeev Chandra +1 more
TL;DR: In this article, an analytical model based on the law of conservation of energy was developed to estimate the kinematic viscosity of high-temperature materials, and the predictions of the model agreed to within one order of magnitude of experimentally measured values.
Journal ArticleDOI
Air film evolution during droplet impact onto a solid surface
Abstract: Recent years see increasing studies of air entrapment during droplet impacting on a solid surface with many results. The dynamics of trapped air film during a droplet impact on a solid surface is investigated in this work by the phase field method in combination with a dynamic contact angle (DCA) model. The DCA model is established experimentally by capturing the droplet dynamics in analogy to the entrapped air evolution. By using the DCA model as the input, the simulation can accurately reproduce the experimental results. The effects of droplet viscosity and surface tension on the dynamics of the air film are then studied, and three possible regimes are identified, demarcated by an effective Ohnesorge number (Ohe). Regime 1 is the case where no daughter droplet is generated and the air bubble is always attached to the substrate, corresponding to the classical case at a high Ohe number (Ohe > 0.073). Regime 3 is a newly discovered regime in this work where a daughter droplet is generated and the air bubble is always detached from the substrate, corresponding to a low Ohe number (Ohe < 0.019) due to combined strong surface tension and vortex effects. Regime 2 is for moderate Ohe numbers where a daughter droplet is generated and the air bubble can either detach from or attach to the substrate. Different from conventional thought that the detachment in this regime is decided by a static contact angle, the DCA plays a leading role in determining the volume ratio of the daughter droplet to the gas bubble, and the combined effects determine the fate of the bubble. Such finding provides better insight on the entrapped air dynamics upon droplet impacting on a solid surface, an area of high engineering importance.
Dissertation
Normal impact of liquid droplets on smooth solid surfaces
TL;DR: In this article, a mise a l'echelle entre the diametre d'etalement maximal and the degree of contact between the gouttelette and the surface is proposed.
Journal ArticleDOI
Asymptotic theory for a Leidenfrost drop on a liquid pool
TL;DR: In this paper, it was shown that the morphology of the thin vapour layer between the drop and the pool is very different from that of classical Leidenfrost drops over a flat rigid substrate, and exhibits different scaling laws.
Journal ArticleDOI
Molecular dynamics study of nanoscale droplets impacting on textured substrates of variable wettability
TL;DR: In this article , the authors describe molecular dynamics simulations conducted to explore these nanoscale processes and demonstrate that the maximum spreading time can be described as a power law of the Weber number.
References
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Surface Tension as the Cause of Bénard Cells and Surface Deformation in a Liquid Film
TL;DR: Benard as mentioned in this paper observed a cellular deformation produced on the free surface of a liquid film the bottom surface of which (in contact with a floor) was uniformly heated and hotter than its top surface.
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The Homogeneous Nucleation Limits of Liquids
TL;DR: In this article, a critical compilation of the homogeneous nucleation limits of liquids is provided, where data for 90 pure substances and 28 mixtures have been compiled over a range of pressures, nucleation rates, and compositions.
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