English

Clogging in bidirectional suspension flow

Soft Condensed Matter 2020-04-07 v2

Abstract

The sudden arrest of motion due to confinement is commonly observed via the clogging transition in the flow of particles through a constriction. We present results of a simple experiment to elucidate a similar transition in the bidirectional flow of two species in which two species of macroscopic particles with different densities are confined in a tube and suspended in a fluid of intermediate density. Counterflowing grains serve as mobile obstacles and clogging occurs without arch formation due to confinement. We measure the clogging or jamming probability JJ as a function of number of particles of each species NN in a fixed channel length for channel widths D=D = 3-7dd, where dd is the particle diameter. J(N)J(N) exhibits a sigmoidal dependence and collapses on a single curve J(N/D3)J(N/D^3) indicating the transition occurs at a critical density. Data is well-fit by a probabilistic model motivated by prior constriction flows which assumes grains enter the clogging region with a fixed probability to produce a clogging state. A quasi-two-dimensional experiment provides insight into the interface shape and and we identify a Rayleigh-Taylor instability at large channel widths.

Keywords

Cite

@article{arxiv.2003.06102,
  title  = {Clogging in bidirectional suspension flow},
  author = {Emily A. Hobbs and Alexander Christensen and Brian C. Utter},
  journal= {arXiv preprint arXiv:2003.06102},
  year   = {2020}
}
R2 v1 2026-06-23T14:13:33.204Z