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W2947951966 startingPage "11" @default.
W2947951966 abstract "Direct Numerical Simulations have been performed to study the droplet spreading behaviour on a spherical surface. A coupled immersed boundary and volume of fluid method is used to represent the gas-liquid-solid interactions. The contact area of the droplet on the surface is recorded in order to fit the initial spreading with a power-law representation, using the contact-angle and interface curvature as fitting parameters. Small viscous droplets are used to reduce interfacial oscillations as well as low drop velocities to reduce impact forces. A decrease of spreading area with increasing curvature is observed. Moreover, the model shows good agreement compared to equilibrium states. A strong contact-angle dependence is found for the pre-factor of the power law, which is expected, and a linear decrease was found in the exponent for increasing curvature of the surface." @default.
W2947951966 created "2019-06-07" @default.
W2947951966 creator A5006397267 @default.
W2947951966 creator A5027761053 @default.
W2947951966 creator A5071048612 @default.
W2947951966 date "2019-09-01" @default.
W2947951966 modified "2023-10-16" @default.
W2947951966 title "Direct numerical simulation study of droplet spreading on spherical particles" @default.
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W2947951966 doi "https://doi.org/10.1016/j.powtec.2019.05.064" @default.
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