Giorgio Amati scite author profile

We present a comprehensive study of water drops sliding down chemically heterogeneous surfaces formed by a periodic pattern of alternating hydrophobic and hydrophilic stripes. Drops are found to undergo a stick-slip motion whose average speed is an order of magnitude smaller than that measured on a homogeneous surface having the same static contact angle. This motion is the result of the periodic deformations of the drop interface when crossing the stripes. Numerical simulations confirm this view and are used to elucidate the principles underlying the experimental observations.

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Scaling laws and intermittency in homogeneous shear flow

Gualtieri

Casciola

Benzi

et al. 2002

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In this paper we discuss the dynamical features of intermittent fluctuations in homogeneous shear flow turbulence. In this flow the energy cascade is strongly modified by the production of turbulent kinetic energy related to the presence of vortical structures induced by the shear. By using direct numerical simulations, we show that the refined Kolmogorov similarity is broken and a new form of similarity is observed, in agreement to previous results obtained in turbulent boundary layers. As a consequence, the intermittency of velocity fluctuations increases with respect to homogeneous and isotropic turbulence. We find here that the statistical properties of the energy dissipation are practically unchanged with respect to homogeneous isotropic conditions, while the increased intermittency is entirely captured in terms of the new similarity law.

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Turbulent thermal convection at high Rayleigh numbers for a Boussinesq fluid of constant Prandtl number

Amati¹,

Koal²,

Massaioli³

et al. 2005

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The results from direct numerical simulations of turbulent Boussinesq convection are briefly presented. The flow is computed for a cylindrical cell of aspect ratio 1/2 in order to compare with the results from recent experiments. The results span eight decades of Ra from 2×10^6 to 2×10^14 and form the baseline data for a strictly Boussinesq fluid of constant Prandtl number (Pr = 0.7). A conclusion is that the Nusselt number varies nearly as the 1/3 power of Ra for about four decades towards the upper end of the Ra range covered

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Intermittency and Structure Functions in Channel Flow Turbulence

et al. 1999

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Sliding drops across alternating hydrophobic and hydrophilic stripes

Sbragaglia

Biferale²,

Amati³

et al. 2014

Phys. Rev. E

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We perform a joint numerical and experimental study to systematically characterize the motion of 30 μl drops of pure water and of ethanol in water solutions, sliding over a periodic array of alternating hydrophobic and hydrophilic stripes with a large wettability contrast and a typical width of hundreds of microns. The fraction of the hydrophobic areas has been varied from about 20% to 80%. The effects of the heterogeneous patterning can be described by a renormalized value of the critical Bond number, i.e., the critical dimensionless force needed to depin the drop before it starts to move. Close to the critical Bond number we observe a jerky motion characterized by an evident stick-slip dynamics. As a result, dissipation is strongly localized in time, and the mean velocity of the drops can easily decrease by an order of magnitude compared to the sliding on the homogeneous surface. Lattice Boltzmann numerical simulations are crucial for disclosing to what extent the sliding dynamics can be deduced from the computed balance of capillary, viscous, and body forces by varying the Bond number, the surface composition, and the liquid viscosity. Beyond the critical Bond number, we characterize both experimentally and numerically the dissipation inside the droplet by studying the relation between the average velocity and the applied volume forces.

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Giorgio Amati

Stick-Slip Sliding of Water Drops on Chemically Heterogeneous Surfaces

Scaling laws and intermittency in homogeneous shear flow

Turbulent thermal convection at high Rayleigh numbers for a Boussinesq fluid of constant Prandtl number

Intermittency and Structure Functions in Channel Flow Turbulence

Sliding drops across alternating hydrophobic and hydrophilic stripes

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