The hydrodynamic force on a body that undergoes translational acceleration in an unbounded fluid at low Reynolds number is considered. The results extend the prior analysis of Lovalenti and Brady [to appear in J. Fluid Mech. (1993)] for rigid particles to drops and bubbles. Similar behavior is shown in that, with the inclusion of convective inertia, the long-time temporal decay of the force (or the approach to steady state) at finite Reynolds number is faster than the t-1/2 predicted by the unsteady Stokes equations
In this paper we study finite particle Reynolds number effects up to Re p=50 on the dynamics of smal...
International audienceWe investigate experimentally the spontaneous motion of drops and bubbles conf...
The extensional viscosity of a dilute suspension of spherical particles (rigid spheres, viscous drop...
The hydrodynamic force on a body that undergoes translational acceleration in an unbounded fluid at ...
The hydrodynamic force acting on a rigid spherical particle translating with arbitrary time-dependen...
While the theory of suspension flows and particle dynamics is well understood under Stokes flow cond...
This paper reviews the present state-of-the-art concerning the hydrodynamic forces experienced by sp...
The unsteady force acting on a sphere that is held fixed in a steady uniform flow with small-amplitu...
The lift force on a deformable liquid sphere moving in steady, plane Poiseuille-Stokes flow and subj...
We investigate the influence of fluid inertia on the motion of a finite assemblage of solid spherica...
We compute the leading-order inertial corrections to the instantaneous force acting on a rigid body ...
Several forms of a theorem providing general expressions for the force and torque acting on a rigid...
In flows of very viscous fluids, it is often justifiable to neglect inertia and solve the resulting ...
Describing effects of small but finite inertia on suspended particles is a fundamental fluid dynamic...
An approach based on the generalized reciprocal theorem is presented to derive the well-known result...
In this paper we study finite particle Reynolds number effects up to Re p=50 on the dynamics of smal...
International audienceWe investigate experimentally the spontaneous motion of drops and bubbles conf...
The extensional viscosity of a dilute suspension of spherical particles (rigid spheres, viscous drop...
The hydrodynamic force on a body that undergoes translational acceleration in an unbounded fluid at ...
The hydrodynamic force acting on a rigid spherical particle translating with arbitrary time-dependen...
While the theory of suspension flows and particle dynamics is well understood under Stokes flow cond...
This paper reviews the present state-of-the-art concerning the hydrodynamic forces experienced by sp...
The unsteady force acting on a sphere that is held fixed in a steady uniform flow with small-amplitu...
The lift force on a deformable liquid sphere moving in steady, plane Poiseuille-Stokes flow and subj...
We investigate the influence of fluid inertia on the motion of a finite assemblage of solid spherica...
We compute the leading-order inertial corrections to the instantaneous force acting on a rigid body ...
Several forms of a theorem providing general expressions for the force and torque acting on a rigid...
In flows of very viscous fluids, it is often justifiable to neglect inertia and solve the resulting ...
Describing effects of small but finite inertia on suspended particles is a fundamental fluid dynamic...
An approach based on the generalized reciprocal theorem is presented to derive the well-known result...
In this paper we study finite particle Reynolds number effects up to Re p=50 on the dynamics of smal...
International audienceWe investigate experimentally the spontaneous motion of drops and bubbles conf...
The extensional viscosity of a dilute suspension of spherical particles (rigid spheres, viscous drop...
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