Permeability of mixed soft and hard granular material: hydrogels as drainage modifiers

TL;DR

This study investigates how mixed soft hydrogel and hard glass grains affect water permeability, revealing an exponential decay in flow with increasing gel content, modeled by sphere overlap theory.

Contribution

It introduces a quantitative relationship between permeability and gel content in mixed granular materials, supported by experimental data and a theoretical model.

Findings

Permeability decreases exponentially with gel-to-glass ratio.

Flow depends primarily on gel volume fraction.

A sphere overlap model explains the permeability behavior.

Abstract

We measure the flow of water through mixed packings of glass spheres and soft swellable hydrogel grains, at constant sample volume. Permeability values are obtained at constant sample volume and at porosities smaller than random close packing, for different glass bead diameters $D$ and for variable gel grain diameter $d$, as controlled by the salinity of the water. The gel content is also varied. We find that the permeability decays exponentially in $n(D/d)^b$ where $n=N_{gel}/N_{glass}$ is the gel to glass bead number ratio and $b$ is approximately 3. Therefore, flow properties are determined by the volume fraction of gel beads. A simple model based on the porosity of overlapping spheres is used to account for these observations.