Add to ORKGIn this work we treat the hydrodynamic interactions between any number of spheres immersed in a viscous fluid that has internal structure. These effects are due to internal angular momentum of the fluid molecules. We generalize the scheme proposed by Mazur and van Saarloos, and obtain general expressions for the translational, rotational and cross mobilities for the case under treatment. The limit of a non-structured fluid agrees with earlier known results
Colloidal dispersions exhibit complex behavior concerning their stability and rheological properties...
International audienceThis paper is concerned with the derivation and analysis of hydrodynamic model...
In this letter, we consider a quasi–two-dimensional (Q2D) system of widely separated spheres suspend...
The hydrodynamic interactions between any number of spheres immersed in a viscous fluid that has an ...
A new approach to the theory of many-sphere hydrodynamic interactions in suspensions is developed st...
We present a method to determine the grand mobility matrix for a system of N spherical particles, in...
The equations of hydrodynamics including mass, linear momentum, angular momentum, and energy are der...
This thesis discusses certain aspects of the slow movement of small particles in a fluid. The moveme...
The hydrodynamic interaction between two bodies with rotational motion through an inviscid and incom...
The hydrodynamic interaction between two bodies with rotational motion through an inviscid and incom...
We present an outline of a method to determine the components of the grand mobility matrix of a syst...
We extend our previously developed scheme to evaluate the static mobility tensors of an arbitrary nu...
Proper treatment of hydrodynamic interactions is of importance in evaluation of rigid-body mobility ...
Abstract. This paper is concerned with the derivation and analysis of hydrodynamic models for system...
A previously developed scheme-to evaluate the (translational and rotational) mobility tensors for an...
Colloidal dispersions exhibit complex behavior concerning their stability and rheological properties...
International audienceThis paper is concerned with the derivation and analysis of hydrodynamic model...
In this letter, we consider a quasi–two-dimensional (Q2D) system of widely separated spheres suspend...
The hydrodynamic interactions between any number of spheres immersed in a viscous fluid that has an ...
A new approach to the theory of many-sphere hydrodynamic interactions in suspensions is developed st...
We present a method to determine the grand mobility matrix for a system of N spherical particles, in...
The equations of hydrodynamics including mass, linear momentum, angular momentum, and energy are der...
This thesis discusses certain aspects of the slow movement of small particles in a fluid. The moveme...
The hydrodynamic interaction between two bodies with rotational motion through an inviscid and incom...
The hydrodynamic interaction between two bodies with rotational motion through an inviscid and incom...
We present an outline of a method to determine the components of the grand mobility matrix of a syst...
We extend our previously developed scheme to evaluate the static mobility tensors of an arbitrary nu...
Proper treatment of hydrodynamic interactions is of importance in evaluation of rigid-body mobility ...
Abstract. This paper is concerned with the derivation and analysis of hydrodynamic models for system...
A previously developed scheme-to evaluate the (translational and rotational) mobility tensors for an...
Colloidal dispersions exhibit complex behavior concerning their stability and rheological properties...
International audienceThis paper is concerned with the derivation and analysis of hydrodynamic model...
In this letter, we consider a quasi–two-dimensional (Q2D) system of widely separated spheres suspend...