Litcius/Paper detail

Transitioning from the funicular to the pendular regime in granular soils

Chao Yuan, Bruno Chareyre

2021Géotechnique16 citationsDOI

Abstract

The simulation of granular soils partially saturated by two immiscible fluids – say, water and air – has long been restricted to the so-called ‘pendular regime’, in which the wetting phase (i.e. water in air/water systems) is discontinuous and its presence is restricted to bridges connecting grain pairs. In this work the pendular model is combined with the recently developed two-phase pore-scale finite volumes (2PFV) method for the first time in order to simulate complete drainage from a saturated state to a residual pendular state. The contribution of pendular bridges in terms of water retention and induced internal stress is examined. It is shown that although the presence of a bridge does not significantly affect the soil water retention curve, its induced stress indeed plays a major role in the capillary effects for low saturation (lower than 0·10).

Topics & Concepts

Soil waterSaturation (graph theory)Geotechnical engineeringCapillary actionWettingWater retentionGeologyWater retention curveEffective stressMaterials scienceSoil scienceMathematicsComposite materialCombinatoricsSoil and Unsaturated FlowGroundwater flow and contamination studiesGrouting, Rheology, and Soil Mechanics