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Article Dans Une Revue Physical Review E Année : 2022

Permeability of polydisperse solid foams

Résumé

The effect of polydispersity on foam permeability is investigated by numerical simulations. Foam structures are first generated by Laguerre tessellations via the Neper software and relaxed to minimize the surface energy via the Surface Evolver software. The fluid flow and permeability are then calculated by means of pore-network simulations, by considering either fully open-cell foams or foams with randomly selected closed windows. Different configurations of window aperture are used, including identical window aperture size, identical window aperture ratio, or random window aperture ratio. The main results are obtained for the case of foams having identical and uniform window aperture ratios. For such foams and at constant mean pore size, foam permeability is found to strongly increase with the polydispersity degree. The numerical results are employed to discuss the validity of the mean pressure field assumption used to calculate the foam permeability, the effect of small pores, and the definition of an equivalent Kelvin foam size. We show that as long as the fluctuations of the window aperture ratio remain low, foam permeability can be estimated by using the mean pressure field hypothesis. The weak effect of small pores on permeability is related to their small contribution to the overall fluid volume fraction. Finally, various estimations of the equivalent Kelvin foam size based on pore-size distribution are proposed
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Dates et versions

hal-03511179 , version 1 (04-01-2022)

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Vincent Langlois, Cong Truc Nguyen, Fabrice Detrez, Johann Guilleminot, Camille Perrot. Permeability of polydisperse solid foams. Physical Review E , 2022, 105 (1), pp.015101. ⟨10.1103/PhysRevE.105.015101⟩. ⟨hal-03511179⟩
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