English

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 QiniQ_{\rm ini} scales as in the Beverloo equation for free discharge. However, we find that the flow rate QendQ_{\rm end} attained at the end of the forced discharge scales as ρbPDo3/Ds\sqrt{\rho_b P}D_o^3/D_s, with ρb\rho_b the bulk density, PP the pressure applied by the overweight, DoD_o the orifice diameter and DsD_s the silo diameter. We use the work-energy theorem to formulate an equation for the flow rate QendQ_{\rm end} that predicts the scalings only in part. We discuss the new challenges offered by the phenomenology of strongly forced granular flows.

Keywords

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

R2 v1 2026-07-01T05:21:31.459Z