

Article
Finite wavelength selection for the linear
instability of a suspension of settling spheroids
Authors: 
Dahlkild, A. A. 
Document Type: 
Article 
Pubstate: 
Published 
Journal: 
Journal of Fluid Mechanics 
Volume: 
689
183202 
Year: 
2011 
AbstractThe instability of an initially homogeneous suspension of spheroids, settling due to gravity, is reconsidered. For nonspherical particles, previous studies in the literature report that normalmode density perturbations of maximum growth rate are those of arbitrarily large, horizontal wavelength. Using the ‘mixture theory’ for twophase flow we show that the maximum growth rate for horizontal density perturbations is obtained for a finite wavelength if the inertia of the bulk motion associated with the normalmode density perturbation is accounted for. We find that for long wavelengths the growth rate approaches zero with the wavelength at the power of 2/3. The maximum growth rate is obtained for wavelengths of the order d/(c½Re¼) , where d is the axis perpendicular to the axis of rotational symmetry of the spheroid, c is the undisturbed volume fraction of particles and Re, typically <<1 , is a Reynolds number of the bulk motion on a typical length scale d/c½ and a velocity scale on the order of the undisturbed settling speed. The theoretical results for the wavelength selection agree qualitatively well with previous experimental results in the literature of measured correlation lengths of vertical streamers in settling fibre suspensions.

