Impact dynamics of droplets on circular bodies: Exploring the influence of wettability, viscosity, and body dimensions using the lattice Boltzmann method

Channouf, Salaheddine; Jami, Mohammed

doi:10.1063/5.0207538

Physics of Fluids

2024

DOI: 10.1063/5.0207538

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Impact dynamics of droplets on circular bodies: Exploring the influence of wettability, viscosity, and body dimensions using the lattice Boltzmann method

Salaheddine Channouf,

Mohammed Jami

Abstract: This study used the multi-relaxation time pseudopotential lattice Boltzmann method to examine the impact dynamics of droplets on circular bodies, focusing on the influence of the surface wettability, the viscosity of droplets by choosing three distinct Reynolds numbers (Re = 100, 300, and 500), and the body diameters. Initially, the study examined impact behavior under non-wetting and wetting conditions, revealing distinct behaviors characterized by dimensional stretch lengths in horizontal and vertical direct… Show more

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The Reynolds Number: A Journey from Its Origin to Modern Applications

Saldana,

Gallegos,

Gálvez

et al. 2024

Fluids

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The Reynolds number (Re), introduced in the late 19th century, has become a fundamental parameter in a lot of scientific fields—the main one being fluid mechanics—as it allows for the determination of flow characteristics by distinguishing between laminar and turbulent regimes, or some intermediate stage. Reynolds’ 1895 paper, which decomposed velocity into average and fluctuating components, laid the foundation for modern turbulence modeling. Since then, the concept has been applied to various fields, including external flows—the science that studies friction—as well as wear, lubrication, and heat transfer. Literature research in recent times has explored new interpretations of Re, and despite its apparent simplicity, the precise prediction of Reynolds numbers remains a computational challenge, especially under conditions such as the study of multiphase flows, non-Newtonian fluids, highly turbulent flow conditions, flows on very small scales or nanofluids, flows with complex geometries, transient or non-stationary flows, and flows of fluids with variable properties. Reynolds’ work, which encompasses both scientific and engineering contributions, continues to influence research and applications in fluid dynamics.

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The Reynolds Number: A Journey from Its Origin to Modern Applications

Saldana,

Gallegos,

Gálvez

et al. 2024

Fluids

View full text Add to dashboard Cite

show abstract

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Impact dynamics of droplets on circular bodies: Exploring the influence of wettability, viscosity, and body dimensions using the lattice Boltzmann method

Cited by 1 publication

References 45 publications

The Reynolds Number: A Journey from Its Origin to Modern Applications

The Reynolds Number: A Journey from Its Origin to Modern Applications

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