Litcius/Paper detail

Computation of local permeability in gap-graded granular soils

V. S. Ramakrishna Annapareddy, Adnan Sufian, Thierry Boré, Mathieu Bajodek, Alexander Scheuermann

2022Géotechnique Letters11 citationsDOIOpen Access PDF

Abstract

This paper proposes semi-analytical methods to obtain the local permeability for granular soils based on indirect measurements of the local porosity profile in a large coaxial cell permeameter using spatial time-domain reflectometry. The porosity profile is used to obtain the local permeability using the modified Kozeny–Carman and Katz–Thompson equations, which incorporated an effective particle diameter that accounted for particle migration within the permeameter. The profiles of the local permeability obtained from the proposed methods are compared with experimentally obtained permeability distributions using pressure measurements and flow rate. The permeabilities obtained with the proposed methods are comparable with the experimentally obtained permeabilities and are within one order of magnitude deviation, which is an acceptable range for practical applications.

Topics & Concepts

PermeameterPermeability (electromagnetism)PorosityMaterials scienceSoil waterGeotechnical engineeringReflectometryPorous mediumMechanicsGeologySoil scienceTime domainHydraulic conductivityChemistryPhysicsComputer visionComputer scienceMembraneBiochemistryDam Engineering and SafetyGeotechnical Engineering and Underground StructuresGrouting, Rheology, and Soil Mechanics