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Geochemical interactions at the steel-bentonite interface caused by a hydrothermal gradient

Carlos Mota-Heredia, Jaime Cuevas, Ana Isabel Ruiz, Almudena Ortega, Elena Torres, María Jesús Turrero Jiménez, Raúl Fernández

2023Applied Clay Science13 citationsDOIOpen Access PDF

Abstract

Bentonites are used in deep geological disposal facilities as an engineered barrier to isolate high level radioactive waste, contained in metallic canisters. The present study, performed at laboratory scale, evaluated the behaviour of MX-80 (Na-bentonite) and FEBEX (Ca-Mg-Na-bentonite) in contact with carbon steel, subjected to a hydrothermal gradient. A dominant Na-Cl-SO4 saline solution was injected towards the compacted bentonite from the top, while a heater, located at the bottom in contact with the steel disc, maintained a constant temperature of 100 °C. The cells were studied after one and six months of interaction. Changes in the physical (water content and specific surface area) and chemical (cation exchange capacity and element distribution) properties of the bentonite were observed, as well as the formation of a corrosion layer on the steel, at the interface with bentonite, mainly composed of magnetite, maghemite and hematite. The bentonites were mainly altered at the mm scale, being enriched in iron content, and changing their ion distribution to Ca-dominant smectite (in MX-80 bentonite).

Topics & Concepts

BentoniteMaghemiteHydrothermal circulationHematiteMagnetiteClay mineralsIon exchangeRadioactive wasteMetalChemical engineeringMaterials scienceMineralogyGeologyMetallurgyChemistryIonNuclear chemistryGeotechnical engineeringEngineeringOrganic chemistryGraphite, nuclear technology, radiation studiesSoil and Unsaturated FlowConcrete and Cement Materials Research
Geochemical interactions at the steel-bentonite interface caused by a hydrothermal gradient | Litcius