Litcius/Paper detail

Effect of retardation and capillarity on organic contaminant diffusion through an unsaturated composite liner: An analytical approach

Jun Liu, Zhang‐Long Chen, Chuang Yu, Shun Wang, Wei Wu

2023International Journal for Numerical and Analytical Methods in Geomechanics10 citationsDOI

Abstract

Abstract In unsaturated composite liners, the heterogeneous distribution of water content and capillarity are common phenomena with remarkable influence on the transport parameters. This study presents an analytical solution to assess the effect of unsaturation‐dependent retardation and capillarity on the organic contaminant diffusion through an unsaturated composite liner. The solution is obtained by the generalized integral transform technique and is verified against other analytical and numerical solutions. Particular attention is paid to the potential errors in predicting organic contaminant transport caused by unsaturation‐independent retardation factor assumption. The results show that neglecting saturation‐dependent retardation may cause considerable errors. The considerations of capillary fringe and degradation also have significant effects on the errors. In addition, a simplified solution based on a new averaged retardation factor is proposed and its performance is evaluated.

Topics & Concepts

Degree of unsaturationComposite numberDiffusionSaturation (graph theory)Degradation (telecommunications)Water saturationCapillary actionRetardation factorMaterials scienceChemistryThermodynamicsMathematicsComposite materialChromatographyComputer sciencePhysicsCombinatoricsPorosityTelecommunicationsColumn chromatographyLandfill Environmental Impact StudiesElectrokinetic Soil Remediation TechniquesGroundwater flow and contamination studies
Effect of retardation and capillarity on organic contaminant diffusion through an unsaturated composite liner: An analytical approach | Litcius