An analysis is carried out to study the flow characteristics of creeping motion of an inner non-Newtonian Reiner-Rivlin liquid spheroid r = 1+ ∑_{k=2}^∞α_kG_k(cos θ), here α_k is very small shape factor and G_k is Gegenbauer function of first kind of order k, at the instant it passes the centre of a rigid spherical container filled with a Newtonian fluid. The shape of the liquid spheroid is assumed to depart a bit at its surface from the shape a sphere. The analytical expression for stream function solution for the flow in spherical container is obtained by using Stokes equation. While for the flow inside the Reiner-Rivlin liquid spheroid, the expression for stream function is obtained by expressing it in a power series of S, characterizing...
Consideration is given to the problem of steady axisymmetric Stokes flow of a micropolar fluid past ...
The results of a comprehensive experimental study on the creeping sphere motion in Herschel-Bulkley ...
Consider a pair of confocal prolate spheroids S0 and S1 where S0 is within S1. Let the spheroid S0 b...
An analysis is carried out to study the flow characteristics of creeping motion of an inner non-Newt...
The investigation is carried out to study steady Stokes axisymmetrical Reiner-Rivlin streaming flow ...
Two dimensional steady Newtonian flow past oblate and prolate spheroid particles confined in cylindr...
The problem of slow streaming flow of a viscous incompressible fluid past a spheroid which departs b...
The drag force acting on a spheroid moving perpendicularly to its axis of rotation in water was stud...
The aim of this work is to study the wall effect on drag coefficient to reduce the net drag hydrodyn...
Experimental results are presented of wall effect for the slow motion of spheres in elastic, constan...
The objective of this work is to study the effect of confining walls on the free settling of spheric...
[[abstract]]The boundary effect on the drag acting on a rigid particle is investigated by considerin...
This paper presents an analytical study of an infinite expanse of uniform flow of steady axisymmetri...
The effect of finite boundaries on the drag experienced by a sphere exposed to the Poiseuille flow o...
The work reported in this thesis considers the steady flow of Newtonian and shear thinning fluids pa...
Consideration is given to the problem of steady axisymmetric Stokes flow of a micropolar fluid past ...
The results of a comprehensive experimental study on the creeping sphere motion in Herschel-Bulkley ...
Consider a pair of confocal prolate spheroids S0 and S1 where S0 is within S1. Let the spheroid S0 b...
An analysis is carried out to study the flow characteristics of creeping motion of an inner non-Newt...
The investigation is carried out to study steady Stokes axisymmetrical Reiner-Rivlin streaming flow ...
Two dimensional steady Newtonian flow past oblate and prolate spheroid particles confined in cylindr...
The problem of slow streaming flow of a viscous incompressible fluid past a spheroid which departs b...
The drag force acting on a spheroid moving perpendicularly to its axis of rotation in water was stud...
The aim of this work is to study the wall effect on drag coefficient to reduce the net drag hydrodyn...
Experimental results are presented of wall effect for the slow motion of spheres in elastic, constan...
The objective of this work is to study the effect of confining walls on the free settling of spheric...
[[abstract]]The boundary effect on the drag acting on a rigid particle is investigated by considerin...
This paper presents an analytical study of an infinite expanse of uniform flow of steady axisymmetri...
The effect of finite boundaries on the drag experienced by a sphere exposed to the Poiseuille flow o...
The work reported in this thesis considers the steady flow of Newtonian and shear thinning fluids pa...
Consideration is given to the problem of steady axisymmetric Stokes flow of a micropolar fluid past ...
The results of a comprehensive experimental study on the creeping sphere motion in Herschel-Bulkley ...
Consider a pair of confocal prolate spheroids S0 and S1 where S0 is within S1. Let the spheroid S0 b...