Forced silo discharge: Simulation and theory
Soft Condensed Matter
2025-12-24 v2
Abstract
We study, through discrete element simulations, the discharge of granular materials through a circular orifice on the base of a cylindrical silo forced by a surcharge. At the beginning of the discharge, for a high granular column, the flow rate scales as in the Beverloo equation for free discharge. However, we find that the flow rate attained at the end of the forced discharge scales as , with the bulk density, the pressure applied by the overweight, the orifice diameter and the silo diameter. We use the workenergy theorem to formulate an equation for the flow rate that predicts the scalings only in part. We discuss the new challenges offered by the phenomenology of strongly forced granular flows.
Cite
@article{arxiv.2509.04368,
title = {Forced silo discharge: Simulation and theory},
author = {Luis. A. Pugnaloni and Marcos A. Madrid and J. R. Darias},
journal= {arXiv preprint arXiv:2509.04368},
year = {2025}
}
Comments
14 pages, 12 figures