Kinetics of selenite interactions with boom clay: Adsorption–reduction interplay

Alwina L. Hoving; Melanie A. Münch; Christophe Bruggeman; Dipanjan Banerjee; Thilo Behrends

doi:10.1144/SP482-2018-60

Kinetics of selenite interactions with boom clay: Adsorption–reduction interplay

Alwina L. Hoving^*, Melanie A. Münch, Christophe Bruggeman, Dipanjan Banerjee, Thilo Behrends

^*Corresponding author for this work

Research output: Chapter in Book/Report/Conference proceeding › Chapter › Academic › peer-review

Abstract

The speciation of selenium (Se) in clay-rich host rocks is important within the framework of geological disposal of radioactive waste since it affects its migration. Removal of selenite from formation water can be caused by reduction and adsorption. Reduction could potentially be inhibited or delayed by adsorption. Here, the interplay of adsorption and reduction of selenite was investigated in batch experiments with Boom Clay and its separated size fractions. In all experiments, dissolved Se concentrations (Se_aq) showed a fast initial decrease that was followed by a slower decline until removal was almost complete. X-ray absorption spectroscopy indicated that adsorption of selenite accounted for the fast removal of Se_aq followed by slower selenite reduction. Eventually, almost all solid-bound Se^IV became reduced to Se⁰ in all experiments. The progress of Se_aq removal and Se^IV reduction to Se⁰ could be described by a kinetic model involving reversible adsorption on clay minerals and reduction by pyrite. This implies that the reduction of selenite to Se⁰ is not significantly hindered or delayed by selenite adsorption on clay minerals. Pyrite is probably the most relevant reductant for selenite in Boom Clay, although reduction by Fe^II structurally bound in clay minerals might provide an additional pathway for selenite reduction in clay rocks.

Original language	English
Title of host publication	Multiple Roles of Clays in Radioactive Waste Confinement
Editors	S. Norris, E.A.C. Neeft, M. Van Geet
Publisher	Geological Society fo London
Pages	225-239
Number of pages	15
Volume	482
ISBN (Print)	9781786204042
DOIs	https://doi.org/10.1144/SP482-2018-60
Publication status	Published - 5 Aug 2019

Publication series

Name	Geological Society of London Special Publications
Publisher	Geological Society of London
ISSN (Print)	0305-8719

Funding

The research leading to these results has received funding from the Dutch research programme on geological disposal OPERA. OPERA is financed by the Dutch Ministry of Economic Affairs and the public limited liability company Elektriciteits-Produktiemaatschappij Zuid-Nederland and coordinated by the The Central Organization for Radioactive Waste. The XAS measurements were funded by the Netherlands Organization for Scientific Research (NWO).

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Hoving, A. L., Münch, M. A., Bruggeman, C., Banerjee, D., & Behrends, T. (2019). Kinetics of selenite interactions with boom clay: Adsorption–reduction interplay. In S. Norris, E. A. C. Neeft, & M. Van Geet (Eds.), Multiple Roles of Clays in Radioactive Waste Confinement (Vol. 482, pp. 225-239). (Geological Society of London Special Publications). Geological Society fo London. https://doi.org/10.1144/SP482-2018-60

Hoving, Alwina L. ; Münch, Melanie A. ; Bruggeman, Christophe et al. / Kinetics of selenite interactions with boom clay : Adsorption–reduction interplay. Multiple Roles of Clays in Radioactive Waste Confinement. editor / S. Norris ; E.A.C. Neeft ; M. Van Geet. Vol. 482 Geological Society fo London, 2019. pp. 225-239 (Geological Society of London Special Publications).

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abstract = "The speciation of selenium (Se) in clay-rich host rocks is important within the framework of geological disposal of radioactive waste since it affects its migration. Removal of selenite from formation water can be caused by reduction and adsorption. Reduction could potentially be inhibited or delayed by adsorption. Here, the interplay of adsorption and reduction of selenite was investigated in batch experiments with Boom Clay and its separated size fractions. In all experiments, dissolved Se concentrations (Seaq) showed a fast initial decrease that was followed by a slower decline until removal was almost complete. X-ray absorption spectroscopy indicated that adsorption of selenite accounted for the fast removal of Seaq followed by slower selenite reduction. Eventually, almost all solid-bound SeIV became reduced to Se0 in all experiments. The progress of Seaq removal and SeIV reduction to Se0 could be described by a kinetic model involving reversible adsorption on clay minerals and reduction by pyrite. This implies that the reduction of selenite to Se0 is not significantly hindered or delayed by selenite adsorption on clay minerals. Pyrite is probably the most relevant reductant for selenite in Boom Clay, although reduction by FeII structurally bound in clay minerals might provide an additional pathway for selenite reduction in clay rocks.",

author = "Hoving, \{Alwina L.\} and M{\"u}nch, \{Melanie A.\} and Christophe Bruggeman and Dipanjan Banerjee and Thilo Behrends",

year = "2019",

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doi = "10.1144/SP482-2018-60",

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Hoving, AL, Münch, MA, Bruggeman, C, Banerjee, D & Behrends, T 2019, Kinetics of selenite interactions with boom clay: Adsorption–reduction interplay. in S Norris, EAC Neeft & M Van Geet (eds), Multiple Roles of Clays in Radioactive Waste Confinement. vol. 482, Geological Society of London Special Publications, Geological Society fo London, pp. 225-239. https://doi.org/10.1144/SP482-2018-60

Kinetics of selenite interactions with boom clay: Adsorption–reduction interplay. / Hoving, Alwina L.; Münch, Melanie A.; Bruggeman, Christophe et al.
Multiple Roles of Clays in Radioactive Waste Confinement. ed. / S. Norris; E.A.C. Neeft; M. Van Geet. Vol. 482 Geological Society fo London, 2019. p. 225-239 (Geological Society of London Special Publications).

Research output: Chapter in Book/Report/Conference proceeding › Chapter › Academic › peer-review

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T1 - Kinetics of selenite interactions with boom clay

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AU - Hoving, Alwina L.

AU - Münch, Melanie A.

AU - Bruggeman, Christophe

AU - Banerjee, Dipanjan

AU - Behrends, Thilo

PY - 2019/8/5

Y1 - 2019/8/5

N2 - The speciation of selenium (Se) in clay-rich host rocks is important within the framework of geological disposal of radioactive waste since it affects its migration. Removal of selenite from formation water can be caused by reduction and adsorption. Reduction could potentially be inhibited or delayed by adsorption. Here, the interplay of adsorption and reduction of selenite was investigated in batch experiments with Boom Clay and its separated size fractions. In all experiments, dissolved Se concentrations (Seaq) showed a fast initial decrease that was followed by a slower decline until removal was almost complete. X-ray absorption spectroscopy indicated that adsorption of selenite accounted for the fast removal of Seaq followed by slower selenite reduction. Eventually, almost all solid-bound SeIV became reduced to Se0 in all experiments. The progress of Seaq removal and SeIV reduction to Se0 could be described by a kinetic model involving reversible adsorption on clay minerals and reduction by pyrite. This implies that the reduction of selenite to Se0 is not significantly hindered or delayed by selenite adsorption on clay minerals. Pyrite is probably the most relevant reductant for selenite in Boom Clay, although reduction by FeII structurally bound in clay minerals might provide an additional pathway for selenite reduction in clay rocks.

AB - The speciation of selenium (Se) in clay-rich host rocks is important within the framework of geological disposal of radioactive waste since it affects its migration. Removal of selenite from formation water can be caused by reduction and adsorption. Reduction could potentially be inhibited or delayed by adsorption. Here, the interplay of adsorption and reduction of selenite was investigated in batch experiments with Boom Clay and its separated size fractions. In all experiments, dissolved Se concentrations (Seaq) showed a fast initial decrease that was followed by a slower decline until removal was almost complete. X-ray absorption spectroscopy indicated that adsorption of selenite accounted for the fast removal of Seaq followed by slower selenite reduction. Eventually, almost all solid-bound SeIV became reduced to Se0 in all experiments. The progress of Seaq removal and SeIV reduction to Se0 could be described by a kinetic model involving reversible adsorption on clay minerals and reduction by pyrite. This implies that the reduction of selenite to Se0 is not significantly hindered or delayed by selenite adsorption on clay minerals. Pyrite is probably the most relevant reductant for selenite in Boom Clay, although reduction by FeII structurally bound in clay minerals might provide an additional pathway for selenite reduction in clay rocks.

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PB - Geological Society fo London

ER -

Hoving AL, Münch MA, Bruggeman C, Banerjee D, Behrends T. Kinetics of selenite interactions with boom clay: Adsorption–reduction interplay. In Norris S, Neeft EAC, Van Geet M, editors, Multiple Roles of Clays in Radioactive Waste Confinement. Vol. 482. Geological Society fo London. 2019. p. 225-239. (Geological Society of London Special Publications). doi: 10.1144/SP482-2018-60

Kinetics of selenite interactions with boom clay: Adsorption–reduction interplay

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