Network modelling of fluid retention behaviour in unsaturated soils

Ignatios Athanasiadis, Simon J. Wheeler, Peter Grassl, P. Delage, Y.-J. Cui, S. Ghabezloo, J.-M. Pereira, A.-M. Tang
2016 E3S Web of Conferences  
The paper describes discrete modelling of the retention behaviour of unsaturated porous materials. A network approach is used within a statistical volume element (SVE), suitable for subsequent use in hydro-mechanical analysis and incorporation within multi-scale numerical modelling. The soil pore structure is modelled by a network of cylindrical pipes connecting spheres, with the spheres representing soil voids and the pipes representing interconnecting throats. The locations of pipes and
more » ... of pipes and spheres are determined by a Voronoi tessellation of the domain. Original aspects of the modelling include a form of periodic boundary condition implementation applied for the first time to this type of network, a new pore volume scaling technique to provide more realistic modelling and a new procedure for initiating drying or wetting paths in a network model employing periodic boundary conditions. Model simulations, employing two linear cumulative probability distributions to represent the distributions of sphere and pipe radii, are presented for the retention behaviour reported from a mercury porosimetry test on a sandstone.
doi:10.1051/e3sconf/20160911016 fatcat:kdk3quwh6fcddl56ge53cyccbe