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Article Dans Une Revue Computers and Fluids Année : 2023

An efficient method for particle-resolved simulations of neutrally buoyant spheres

Résumé

We present a simple modification of the direct-forcing immersed boundary method (IBM) proposed by Uhlmann (2005) in order to enable it to be applied to particulate flows with solid-to-fluid density ratios around unity. The main difference with respect to the original formulation lies in the particle velocity update which is performed directly after the preliminary velocity field has been computed in the absence of any IBM volume forcing term. In addition, we apply the forcing term to the entire space occupied by the immersed solid object (instead of to the vicinity of its interface only). The present approach requires the evaluation of integrals of the velocity field over the volume occupied by the solid particle, which are evaluated efficiently as sums over the respective quantities available at particle-attached force points. The resulting method can be used seamlessly for density ratios down to ρ$_p$/ρ$_f$ > 0.5. The new formulation has been validated using three configurations: (i) lateral migration of a neutrally buoyant circular particle in two-dimensional Couette flow; (ii) the release from rest of a neutrally buoyant sphere in a free stream; (iii) the release of a particle in a free stream after an initial phase in which it is translationally fixed with an imposed angular velocity. In all three test cases the present IBM formulation yields a very good agreement with the available reference data. Thus, the proposed approach is a cost-efficient and accurate modification of the original method which allows for the simulation of fluid systems involving density-matched solid particles.
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hal-04098266 , version 1 (06-09-2024)

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Manuel García-Villalba, Blanca Fuentes, Jan Dušek, Manuel Moriche, Markus Uhlmann. An efficient method for particle-resolved simulations of neutrally buoyant spheres. Computers and Fluids, 2023, 263, pp.105936. ⟨10.1016/j.compfluid.2023.105936⟩. ⟨hal-04098266⟩
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