Abstract
We discuss two typical problems involved in particle resuspension phenomena. First, we analyze the onset of movement of a grain deposited on a surface prior to its possible resuspension. In this case, we look for the critical frequency and amplitude needed for starting the movement of the grain when the surface is perturbed by a sinusoidal vertical vibration. We compare results coming from our own experiments and DEM simulations. The agreement is good and allows evaluating the effect of the relative size of the grain on the initiation of movement. The second problem refers to the resuspension of grains, also deposited on a monolayer surface without interactions between them, due to the effect of aerodynamic forces. The detachment of grains as the wind intensity increases is studied through Monte Carlo simulations and the results are compared with experiments belonging to other authors. The role of the particle rolling mechanisms and the reduction factor due to roughness are discussed. Comparison of numerical and experimental data is promising.
Highlights
Industrial processes are full of examples where the manipulation of granular matter is implied
The detachment of grains as the wind intensity increases is studied through Monte Carlo simulations and the results are compared with experiments belonging to other authors
The study of the initiation of the movement of a particle when subjected to an external perturbation will depend on the scale of sizes involved in the problem
Summary
Industrial processes are full of examples where the manipulation of granular matter is implied. Surface cleaning, or the reentrainment of particles to the atmosphere are based on the existence of a first incipient movement of grains to achieve the detachment of particles and their subsequent dynamic evolution [1,2,3,4,5]. We ask ourselves if some of the main aspects that are always present in the interaction among particles and surfaces prevail independently of the scale of the problem. One of these parameters will prove to be the roughness
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