Axial segregation of granular mixtures as the rotational stabilization of the radial core

Creator

Junius André F. Balista, University of the Philippines Los Banos

Issue Date

4-2017

Abstract

We use the concept of rotational stability to explain the axial segregation of granular mixture inside a rotating horizontal container. We consider the core of radially segregated granular mixture as a dissipative rotating rigid body. The geometric constraints imposed by the container and the minimization of the rotational kinetic energy favor the deformation of the radial core from prolate to oblate configurations, which has larger moment of inertia. Axial segregation is the regime when the oblates pierce the sheath made of the larger grains. The thickness of the oblate is limited by the axial diffusion. This model naturally and parsimoniously accounts for several salient features of axial segregation, such as the location of first formation, scaling with container diameter, inversion, coarsening and transient oscillation of the axial bands.

Source or Periodical Title

Granular Matter

ISSN

1434-5021

Volume

19

Issue

2

Page

39.

Document Type

Article

Language

English

Subject

Axial segregation, Granular materials, Rotating cylinder, Stability

Recommended Citation

Balista, J.A.F. (2017). Axial segregation of granular mixtures as the rotational stabilization of the radial core. Granular Matter, 19 (39).

Identifier

https://doi.org/10.1007/s10035-017-0721-x

Digital Copy

yes

En – AGROVOC descriptors

Axial segregation; Granular materials; Rotating cylinder; Stability