607 research outputs found
Study of the collapse of granular columns using DEM numerical simulation
Numerical simulations of the collapse and spreading of granular columns onto
an horizontal plane using the Contact Dynamics method are presented. The final
shape of the deposit seems to depend only on the aspect ratio of the
columns; these results are in good agreement with previous experimental work.
In particular, the renormalised runout distance shows a power law dependence on
the aspect ratio , which is incompatible with a simple friction model. The
dynamics of the collapse is shown to be mostly controlled by the free fall of
the column. The energy dissipation at the base of the column can be described
simply by a coefficient of restitution. Hence the energy available for the
sideways flow is proportional to the initial potential energy . The
dissipation process within the flow is well approximated by basal friction,
contrary to the behaviour of the runout distance. The mass ejected sideways is
showned to play a determining role in the spreading process. As increases,
the same fraction of initial potential energy drives more mass against
friction. This additional dissipation give a possible explanation for power-law
dependence of the runout distance on . Beyond the frictional properties of
the material, we show that the flow characteristics strongly depend on the
early dynamics of the collapse. We propose a new scaling for the runout
distance that matches the data well, is compatible with a friction model, and
provide a qualitative explanation to the column collapse phenomenology.Comment: 15 pages, 22 Figure
Kelvin–Helmholtz instability in a Hele-Shaw cell
A linear stability analysis is presented for the Kelvin–Helmholtz instability in a Hele-Shaw cell, an analysis based on the Navier–Stokes equation to improve on the previous Euler–Darcy study that Gondret and Rabaud [Phys. Fluids 9, 3267 (1997)] made of their own experiments
Kelvin–Helmholtz instability in a Hele-Shaw cell: Large effect from the small region near the meniscus
In an attempt to improve the poor prediction of our previous theory, we examine corrections from the small region in a Hele-Shaw cell near the meniscus where the flow is three dimensional. At larger Reynolds numbers, we find an O(1) change to the effective boundary condition for mass conservation which is to be applied to the large scale flow outside the small region
The rheology of a suspension of nearly spherical particles subject to Brownian rotations
A set of constitutive equations, valid for arbitrary linear bulk flows, is derived for a dilute suspension of nearly spherical, rigid particles which are subject to rotary Brownian couples. These constitutive equations are subsequently applied to find the resulting stress patterns for a variety of time-dependent bulk flow fields. The rheological responses are found to exhibit many of the same qualitative features as have been observed in recent experimental investigations of polymeric solutions and other complex materials
Self-Diffusion of Drops in a Dilute Sheared Emulsion
Self-diffusion coefficients that describe cross-flow migration of non-Brownian drops in a dilute sheared emulsion were obtained by trajectory calculations. A boundary integral formulation was used to describe pairwise interactions between deformable drops; interactions between undeformed drops were described with mobility functions for spherical drops. The results indicate that drops have large anisotropic self-diffusivities which depend strongly on the drop viscosity and modestly on the shear-rate. Pairwise interactions between drops in shear-flow do not appreciably promote drop breakup
Wrinkling of microcapsules in shear flow
Elastic capsules can exhibit short wavelength wrinkling in external shear
flow. We analyse this instability of the capsule shape and use the length scale
separation between the capsule radius and the wrinkling wavelength to derive
analytical results both for the threshold value of the shear rate and for the
critical wave-length of the wrinkling. These results can be used to deduce
elastic parameters from experiments.Comment: 4 pages, 2 figures, submitted to PR
Modelling an isolated dust grain in a plasma using matched asymptotic expansions
The study of dusty plasmas is of significant practical use and scientific interest. A characteristic feature of dust grains in a plasma is that they are typically smaller than the electron Debye distance, a property which we exploit using the technique of matched asymptotic expansions. We first consider the case of a spherical dust particle in a stationary plasma, employing the Allen–Boyd–Reynolds theory, which assumes cold, collisionless ions. We derive analytical expressions for the electric potential, the ion number density and ion velocity. This requires only one computation that is not specific to a single set of dust–plasma parameters, and sheds new light on the shielding distance of a dust grain. The extension of this calculation to the case of uniform ion streaming past the dust grain, a scenario of interest in many dusty plasmas, is less straightforward. For streaming below a certain threshold we again establish asymptotic solutions but above the streaming threshold there appears to be a fundamental change in the behaviour of the system
Additive Equivalence in Turbulent Drag Reduction by Flexible and Rodlike Polymers
We address the "Additive Equivalence" discovered by Virk and coworkers: drag
reduction affected by flexible and rigid rodlike polymers added to turbulent
wall-bounded flows is limited from above by a very similar Maximum Drag
Reduction (MDR) asymptote. Considering the equations of motion of rodlike
polymers in wall-bounded turbulent ensembles, we show that although the
microscopic mechanism of attaining the MDR is very different, the macroscopic
theory is isomorphic, rationalizing the interesting experimental observations.Comment: 8 pages, PRE, submitte
Ink Drying in Inkjet Printers
The first problem put to the Study Group for Maths in Industry by Domino UK Ltd
concerns ink drying and blocking nozzles in a printer. The goals were as follows:
1. To propose mechanisms for the growth of a plug of dried ink in the open end of a Drop-on-Demand drop generator,
2. To suggest cures to this problem,
3. To consider why oscillating the meniscus appears to alleviate the problem
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