M
Marco Marengo
Researcher at University of Brighton
Publications - 264
Citations - 7988
Marco Marengo is an academic researcher from University of Brighton. The author has contributed to research in topics: Heat pipe & Boiling. The author has an hindex of 40, co-authored 245 publications receiving 6307 citations. Previous affiliations of Marco Marengo include University of Mons & University of Bergamo.
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Lumped parameter model of sintered heat pipe: transient numerical analysis and validation
TL;DR: In this article, the authors describe a lumped parameter numerical model which is able to simulate the transient as well as the steady-state operation of a sintered heat pipe, focusing particularly on the effects of wick thickness, porosity, grain structure and void fraction level in the evaporator.
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A review of liquid droplet impacting onto solid spherical particles: A physical pathway to encapsulation mechanisms
TL;DR: In this article, a review of the literature on droplet impact on dry solid spherical surfaces is presented, with a focus on the latest scientific findings in droplet impingement onto curved surfaces.
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Fabricating superhydrophobic aluminum: an optimized one-step wet synthesis using fluoroalkyl silane
TL;DR: In this paper, a simple but effective procedure to impart superhydrophobicity to aluminum through a one-step wet chemistry synthesis is presented, thanks to simultaneous etching with NaOH and grafting with fluoroalkyl silane (FAS) molecules, which allow aluminum surface functionalization.
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Secondary atomization of water and isooctane drops impinging on tilted heated surfaces
TL;DR: In this paper, the effects of heat transfer on the secondary atomization during droplet impact on hot surfaces at conditions reproducing those occurring at fuel injection in internal combustion engines were investigated.
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A benchmark study for the crown-type splashing dynamics of one- and two-component droplet wall–film interactions
TL;DR: In this article, the impact dynamics of crown-type splashing for miscible two-and one-component droplet wall-film interactions over a range of Weber numbers and dimensionless film thicknesses were investigated.