Add to ORKGThe present thesis is concerned with the flow of viscoelastic liquids in channels and around spheres contained in cylinders. Problems that have been tackled are the Poiseuille flow between parallel plates and in tubes, where all models give excellent results checked against analytical solutions for a range of elasticity levels determined by a dimensionless Weissenberg number (Ws). The drag coefficient on the sphere shows a monotonic decrease with increasing Ws, from 5.9522 for Ws = 0 to 5.4935 for Ws = 0.3. Non-zero second normal stress differences decrease the drag even further. The unbounded flow around spheres was simulated using a 50:1 diameter ratio. Findings suggest that slip on the sphere surface may be occurring at moderate to high ...
The effect of the viscoelastic nature of the suspending medium on the rotation of spherical particle...
This paper reports the results of direct numerical simulation of the motion of a two-dimensional cir...
This is essentially an engineering study undertaken with a view to providing drag coefficient correl...
We apply the finite element method to calculate the time-dependent velocity of a sphere falling alon...
In many large-scale industrial applications dealing with particle-laden viscoelastic fluids, the ens...
New extensive pressure drop-flow rate data are reported for the creeping flow of well characterised ...
This paper is concerned with the numerical prediction of viscoelastic flow past a cylinder in a cha...
This thesis reports on measurements of drag on an unbounded cylinder in a viscoelastic Stokes flow, ...
This paper focuses on the settling on one sphere near another or near a wall. We find maximum differ...
When particles are dispersed in viscoelastic rather than Newtonian media, the hydrodynamics will be ...
The effect of the viscoelastic nature of the suspending medium on the rotation of spherical particle...
This thesis is a study on creeping flow of an ideal viscoelastic fluid through square arrays of cyli...
The effect of the viscoelastic nature of the suspending medium on the rotation of spherical particle...
This paper reports the results of direct numerical simulation of the motion of a two-dimensional cir...
This is essentially an engineering study undertaken with a view to providing drag coefficient correl...
We apply the finite element method to calculate the time-dependent velocity of a sphere falling alon...
In many large-scale industrial applications dealing with particle-laden viscoelastic fluids, the ens...
New extensive pressure drop-flow rate data are reported for the creeping flow of well characterised ...
This paper is concerned with the numerical prediction of viscoelastic flow past a cylinder in a cha...
This thesis reports on measurements of drag on an unbounded cylinder in a viscoelastic Stokes flow, ...
This paper focuses on the settling on one sphere near another or near a wall. We find maximum differ...
When particles are dispersed in viscoelastic rather than Newtonian media, the hydrodynamics will be ...
The effect of the viscoelastic nature of the suspending medium on the rotation of spherical particle...
This thesis is a study on creeping flow of an ideal viscoelastic fluid through square arrays of cyli...
The effect of the viscoelastic nature of the suspending medium on the rotation of spherical particle...
This paper reports the results of direct numerical simulation of the motion of a two-dimensional cir...
This is essentially an engineering study undertaken with a view to providing drag coefficient correl...