MAÎTREJEAN, Guillaume; AMMAR, Amine; CHINESTA, Francisco; GRMELA, Miroslav

doi:10.1007/s00397-011-0609-3

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MAÎTREJEAN, Guillaume
Laboratoire de rhéologie [LR]

AMMAR, Amine
Laboratoire Angevin de Mécanique, Procédés et InnovAtion [LAMPA]

CHINESTA, Francisco
École Centrale de Nantes [ECN]

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Rheologica Acta. 2012-06, vol. 51, n° 6, p. 527-543

Springer Verlag

Résumé en anglais

A direct modeling of colloidal suspensions consists of calculating trajectories of all suspended objects. Due to the large time computing and the large cost involved in such calculations, we consider in this paper another route. Colloidal suspensions are described on a mesoscopic level by a distribution function whose time evolution is governed by a Fokker-Plancklike equation. The difficulty encountered on this route is the high dimensionality of the space in which the distribution function is defined. A novel strategy is used to solve numerically the Fokker-Planck equation circumventing the curse of dimensionality issue. Rheological and morphological predictions of the model that includes both direct and hydrodynamic interactions are presented in different flows.< Réduire

Mots clés en italien

Colloidal suspensions

Smoluchowski equation

Proper generalized decomposition

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Deterministic solution of the kinetic theory model of colloidal suspensions of structureless particles

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