Smoluchowski kinetic equation governing the time evolution of the pair correlation function of rigid sphericalparticles suspended in a Newtonian fluid is extended to include particle migration. The extended kinetic equation takes into account three types of forces acting on the suspended particles: a direct force generated by an interparticle potential, hydrodynamic force mediated by the host fluid, and the Faxén-type forces bringing about the across-the-streamline particle migration. For suspensions subjected to externally imposed flows, the kinetic equation is solved numerically by the proper generalized decomposition method. The imposed flow investigated inthe numerical illustrations is the Poiseuille flow. Numerical solutions provide th...
In this work we investigate numerically the dynamics of sheared suspensions in the limit of vanishin...
In this communication, we present the preliminary results of a study of the migration motions of mac...
The goal of this dissertation is to understand, at the particle scale, the mechanisms at the origin ...
Smoluchowski kinetic equation governing the time evolution of the pair correlation function of rigid...
A direct modeling of colloidal suspensions consists of calculating trajectories of all suspended obj...
The general continuum theory has been developed for two-phase flows of fluid with deformable particl...
Simulations of rigid particles suspended in two-phase shear flow are presented, where one of the sus...
Cette thèse est consacrée à l'étude numérique des suspensions colloïdales diluées et concentrées, où...
Suspensions which are heterogeneous continuous media composed by a solid granular phaseand a liquid ...
In this work, we are interested in suspensions of non-colloidal spheres immersed in Newtonian liquid...
The mixture, or suspension balance, model is the most frequently used to describe shear-induced part...
We present a theoretical framework to investigate the microscopic structure of concentrated hard-sph...
We investigate the dependence of the shear viscosity of suspensions of spherical colloids as a funct...
When suspensions involving rigid rods become too concentrated, standard dilute theories fail to desc...
In this work we investigate numerically the dynamics of sheared suspensions in the limit of vanishin...
In this communication, we present the preliminary results of a study of the migration motions of mac...
The goal of this dissertation is to understand, at the particle scale, the mechanisms at the origin ...
Smoluchowski kinetic equation governing the time evolution of the pair correlation function of rigid...
A direct modeling of colloidal suspensions consists of calculating trajectories of all suspended obj...
The general continuum theory has been developed for two-phase flows of fluid with deformable particl...
Simulations of rigid particles suspended in two-phase shear flow are presented, where one of the sus...
Cette thèse est consacrée à l'étude numérique des suspensions colloïdales diluées et concentrées, où...
Suspensions which are heterogeneous continuous media composed by a solid granular phaseand a liquid ...
In this work, we are interested in suspensions of non-colloidal spheres immersed in Newtonian liquid...
The mixture, or suspension balance, model is the most frequently used to describe shear-induced part...
We present a theoretical framework to investigate the microscopic structure of concentrated hard-sph...
We investigate the dependence of the shear viscosity of suspensions of spherical colloids as a funct...
When suspensions involving rigid rods become too concentrated, standard dilute theories fail to desc...
In this work we investigate numerically the dynamics of sheared suspensions in the limit of vanishin...
In this communication, we present the preliminary results of a study of the migration motions of mac...
The goal of this dissertation is to understand, at the particle scale, the mechanisms at the origin ...