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Response and prediction of unsaturated permeability of loess to microstructure

Haiman Wang, Wankui Ni

2023Geomechanics and Geophysics for Geo-Energy and Geo-Resources15 citationsDOIOpen Access PDF

Abstract

Abstract The study of water infiltration helps to investigate the pollutants' migration, grasp the mechanism of the water cycle, and correctly evaluate water resources. This paper reveals the mechanism of compacted loess's one-dimensional vertical water infiltration characteristics using a low-cost water infiltration device. In addition, it investigates particle arrangement and pore size distribution characteristics using nuclear magnetic resonance (NMR) and scanning electron microscopy (SEM). The test finding suggests that the loess's early-stage infiltration rate is significant, and the dry density is not related to the infiltration characteristics. With the advance of the wetting front, the infiltration rate decreases under air resistance. The unsaturated permeability decreases with dry density at lower matric suction while unaffected by the dry density at higher matric suction. Moreover, the volume and connectivity of pores mainly control the water infiltration characteristics. Finally, based on the test results, a method for rapidly predicting the unsaturated permeability of loess is proposed. The results of the study help predict contaminant transport and guide groundwater extraction and management.

Topics & Concepts

LoessInfiltration (HVAC)Vadose zoneWettingSoil sciencePermeability (electromagnetism)GroundwaterSoil waterWater contentMaterials scienceGeotechnical engineeringEnvironmental scienceGeologyChemistryComposite materialMembraneBiochemistryGeomorphologySoil and Unsaturated FlowLandslides and related hazardsGroundwater flow and contamination studies
Response and prediction of unsaturated permeability of loess to microstructure | Litcius