Massimo Miozzi
Sapienza University of Rome
32 Papers
97 Citations
Massimo Miozzi is an academic researcher from Sapienza University of Rome. The author has contributed to research in topics: Boundary layer & Turbulence. The author has an hindex of 12, co-authored 31 publications.
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Papers
Evolution of the air cavity during a depressurized wave impact. I. The kinematic flow field
TL;DR: In this paper, the role of the ambient pressure on wave impact events in depressurized environments was investigated. But the authors focused on the topological and kinematic aspects of the wave impact and its evolution toward collapse into a mixture of water and air bubbles.
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Drag reduction by microbubbles in a turbulent boundary layer
TL;DR: In this paper, an experimental characterization of the turbulent boundary layer over a flat plate in the presence of small amounts of microbubbles is performed, where the average diameter of the injected bubbles is comparable with the local Kolmogorov lengthscale, and the bulk void fraction C¯ is approximately 0.1%.
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Experimental investigation of the nearbed dynamics around a submarine pipeline laying on different types of seabed: The interaction between turbulent structures and particles
TL;DR: In this paper, the role of sediment particle dynamics on the overall mechanics of flow-sediment-pipeline interactions has been investigated on the basis of dedicated laboratory experiments, of which one sample case has been analyzed in detail to provide a significant insight in the fundamental dynamics.
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Skin friction and coherent structures within a laminar separation bubble
TL;DR: In this article, the Laminar Separation Bubble (LSB) was studied on the suction side of a NACA 0015 hydrofoil by means of a Temperature-Sensitive Paint (TSP) at a Reynolds number of 1.8 × 10.5.
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Global and local skin friction diagnostics from TSP surface patterns on an underwater cylinder in crossflow
TL;DR: In this paper, a systematical method is formulated for extracting skin-friction fields from TSP images in the sense of time-averaging and phaseaveraging, which is applied to an underwater cylinder in crossflow at two subcritical regimes (Re = 72,000 and 144,000).
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