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How Heterogeneous Pore Scale Distributions of Wettability Affect Infiltration into Porous Media

Jonas Bentz, Ravi A. Patel, Pascal Benard, Alice Lieu, Adrian Haupenthal, Eva Kroener

2022Water16 citationsDOIOpen Access PDF

Abstract

Wettability is an important parameter that significantly determines hydrology in porous media, and it especially controls the flow of water across the rhizosphere—the soil-plant interface. However, the influence of spatially heterogeneous distributions on the soil particles surfaces is scarcely known. Therefore, this study investigates the influence of spatially heterogeneous wettability distributions on infiltration into porous media. For this purpose, we utilize a two-phase flow model based on Lattice-Boltzmann to numerically simulate the infiltration in porous media with a simplified geometry and for various selected heterogeneous wettability coatings. Additionally, we simulated the rewetting of the dry rhizosphere of a sandy soil where dry hydrophobic mucilage depositions on the particle surface are represented via a locally increased contact angle. In particular, we can show that hydraulic dynamics and water repellency are determined by the specific location of wettability patterns within the pore space. When present at certain locations, tiny hydrophobic depositions can cause water repellency in an otherwise well-wettable soil. In this case, averaged, effective contact angle parameterizations such as the Cassie equation are unsuitable. At critical conditions, when the rhizosphere limits root water uptake, consideration of the specific microscale locations of exudate depositions may improve models of root water uptake.

Topics & Concepts

WettingPorous mediumInfiltration (HVAC)Microscale chemistryContact angleRhizosphereLattice Boltzmann methodsMaterials scienceCharacterisation of pore space in soilSoil sciencePorosityWater flowGeotechnical engineeringEnvironmental scienceComposite materialMechanicsGeologyMathematicsPhysicsPaleontologyMathematics educationBacteriaLattice Boltzmann Simulation StudiesFluid Dynamics and Heat TransferHeat and Mass Transfer in Porous Media
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