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Elevated temperature effects (T > 100 °C) on the interfacial water and microstructure swelling of Na-montmorillonite

Weiqiang Chen, Majid Sedighi, Florent Curvalle, Andrey P. Jivkov

2024Chemical Engineering Journal20 citationsDOIOpen Access PDF

Abstract

Montmorillonite-based barriers are key elements of the engineered barrier systems (EBS) in geological disposal facilities (GDF). Their performance at temperatures above 100 °C is not sufficiently understood to assess the possibility of raising the temperature limits in GDF designs that could reduce construction costs and CO2 footprint. The present work provides new fundamental insights through molecular dynamics (MD) simulations of Na-montmorillonite's water-clay interactions and swelling pressure at temperatures 298–500 K and basal spacings of 1.5–3.5 nm. At temperatures above 100 °C, the swelling behaviour is governed by the attractive van der Waals force and the repulsive hydration force instead of the repulsive electrostatic (double layer) force. The swelling pressure reduction with increasing temperature is related to the weakened hydration repulsion and electric double layer repulsion, which result from the deterioration of the interlayer water layer structure and the shrinkage of the electric double layer. The applicability and breakdown of the classic Derjaguin-Landau-Verwey-Overbeek (DLVO) theory at elevated temperatures are examined. By excluding the osmotic contribution in the DLVO theory, the summation of the van der Waals interaction in DLVO and an additional non-DLVO hydration interaction can predict our MD system's swelling under high temperatures. The findings of this study provide a fundamental understanding of the swelling behaviour and the underlying molecular-level mechanisms of the clay microstructure under extreme conditions.

Topics & Concepts

DLVO theoryvan der Waals forceSwellingMontmorilloniteMicrostructureChemistryThermodynamicsChemical physicsWork (physics)Chemical engineeringMaterials scienceComposite materialCrystallographyPhysical chemistryMoleculeOrganic chemistryPhysicsEngineeringColloidSoil and Unsaturated FlowClay minerals and soil interactionsGroundwater flow and contamination studies
Elevated temperature effects (T > 100 °C) on the interfacial water and microstructure swelling of Na-montmorillonite | Litcius