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Redox Interaction between Selenite and Mackinawite in Cement Pore Water

Kaifeng Wang, Alejandro Fernández‐Martínez, Laura Simonelli, Benoı̂t Madé, Pierre Hénocq, Bin Ma, Laurent Charlet

2022Environmental Science & Technology14 citationsDOI

Abstract

In cement-rich radioactive waste repositories, mackinawite (FeS) forms at the steel corrosion interface within reinforced concrete and potentially retards the transport of redox-sensitive radionuclides (e.g., 79Se) in porous cement media. Redox interactions between selenite and mackinawite under hyperalkaline conditions remain unclear and require further investigations. Here, using comprehensive characterization on both aqueous and solid speciation, we successfully monitored the whole interaction process between selenite and mackinawite under hyperalkaline conditions. The results show similar chemical environments for SeO32– and S2–/Sn2– at the mackinawite–water interface, verifying an immediate reduction. After 192 h of reaction, SeO32– was reduced to solid Se0 and SeS2 species, accompanied by the oxidation of S2–/Sn2– to S2O32– and Fe(II) to Fe(III) in mackinawite. Aqueous speciation results showed that ∼99% of aqueous selenium was present as Se4S nanoparticles due to the dissolution of Se from the solid. In parallel, ∼62% of S2–/Sn2– was released into the solution, with mackinawite transforming into magnetite, Fe(OH)3 and FeS2O3+ complexed to Cl– or OH– species, and magnetite subsequently dispersed in the solution. This study provides valuable data about the retardation mechanisms of redox-sensitive radionuclides by soluble iron sulfides, which is critical to advance our understanding of reactive concrete barriers used in nuclear waste disposal systems.

Topics & Concepts

MackinawiteRedoxChemistryDissolutionAqueous solutionInorganic chemistryIron sulfideSeleniumMagnetitePermeable reactive barrierChemical engineeringCorrosionSulfurMaterials scienceMetallurgyOrganic chemistryEnvironmental remediationEngineeringBiologyEcologyContaminationRadioactive element chemistry and processingArsenic contamination and mitigationIron oxide chemistry and applications
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