Enhancement of zirconolite dissolution due to water radiolysis

Magaly Tribet; Nelly Toulhoat; Nathalie Moncoffre; Pierre Toulhoat; Christophe Jegou; Catherine Corbel; Isabelle Bardez; Gilles Leturcq

Enhancement of zirconolite dissolution due to water radiolysis

Magaly Tribet
, Nelly Toulhoat
, Nathalie Moncoffre
, Pierre Toulhoat
, Christophe Jegou
, Catherine Corbel
, Isabelle Bardez
, Gilles Leturcq

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

Abstract

Zirconolite is a candidate host material for conditioning minor tri- and tetra-valent actinides arising from enhanced nuclear spent fuel reprocessing and partitioning, in the case of disposal of the nuclear waste. Its chemical durability has been studied here under charged particle-induced radiolysis (He²⁺ and proton external beams) to identify the possible effects of water radiolysis on the dissolution rates in pure water and to describe the alteration mechanisms. Two experimental geometries have been used in order to evaluate the influence of the following parameters: solid irradiation, water radiolysis. In the first geometry the beam gets through the sample before stopping at the surface/water interface. In the second one the beam stops before the surface/water interface. Results on the elemental releases due to the enhanced dissolution of the zirconolite surface during charged particle-induced irradiation of water are presented. Under radiolysis, an increase of one order of magnitude is observed in the Ti, Zr and Nd elemental releases. No difference in the total elemental releases can be noticed when the solid is also irradiated.

Original language	English
Title of host publication	Scientific Basis for Nuclear Waste Management XXX
Publisher	Materials Research Society
Pages	335-340
Number of pages	6
ISBN (Print)	9781558999428
Publication status	Published - 1 Jan 2007
Event	2006 MRS Fall Meeting - Boston, MA, United States Duration: 27 Nov 2006 → 1 Dec 2006

Publication series

Name	Materials Research Society Symposium Proceedings
Volume	985
ISSN (Print)	0272-9172

Conference

Conference	2006 MRS Fall Meeting
Country/Territory	United States
City	Boston, MA
Period	27/11/06 → 1/12/06

Cite this

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title = "Enhancement of zirconolite dissolution due to water radiolysis",

abstract = "Zirconolite is a candidate host material for conditioning minor tri- and tetra-valent actinides arising from enhanced nuclear spent fuel reprocessing and partitioning, in the case of disposal of the nuclear waste. Its chemical durability has been studied here under charged particle-induced radiolysis (He2+ and proton external beams) to identify the possible effects of water radiolysis on the dissolution rates in pure water and to describe the alteration mechanisms. Two experimental geometries have been used in order to evaluate the influence of the following parameters: solid irradiation, water radiolysis. In the first geometry the beam gets through the sample before stopping at the surface/water interface. In the second one the beam stops before the surface/water interface. Results on the elemental releases due to the enhanced dissolution of the zirconolite surface during charged particle-induced irradiation of water are presented. Under radiolysis, an increase of one order of magnitude is observed in the Ti, Zr and Nd elemental releases. No difference in the total elemental releases can be noticed when the solid is also irradiated.",

author = "Magaly Tribet and Nelly Toulhoat and Nathalie Moncoffre and Pierre Toulhoat and Christophe Jegou and Catherine Corbel and Isabelle Bardez and Gilles Leturcq",

year = "2007",

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day = "1",

language = "English",

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series = "Materials Research Society Symposium Proceedings",

publisher = "Materials Research Society",

pages = "335--340",

booktitle = "Scientific Basis for Nuclear Waste Management XXX",

note = "2006 MRS Fall Meeting ; Conference date: 27-11-2006 Through 01-12-2006",

}

Tribet, M, Toulhoat, N, Moncoffre, N, Toulhoat, P, Jegou, C, Corbel, C, Bardez, I & Leturcq, G 2007, Enhancement of zirconolite dissolution due to water radiolysis. in Scientific Basis for Nuclear Waste Management XXX. Materials Research Society Symposium Proceedings, vol. 985, Materials Research Society, pp. 335-340, 2006 MRS Fall Meeting, Boston, MA, United States, 27/11/06.

Enhancement of zirconolite dissolution due to water radiolysis. / Tribet, Magaly; Toulhoat, Nelly; Moncoffre, Nathalie et al.
Scientific Basis for Nuclear Waste Management XXX. Materials Research Society, 2007. p. 335-340 (Materials Research Society Symposium Proceedings; Vol. 985).

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

TY - GEN

T1 - Enhancement of zirconolite dissolution due to water radiolysis

AU - Tribet, Magaly

AU - Toulhoat, Nelly

AU - Moncoffre, Nathalie

AU - Toulhoat, Pierre

AU - Jegou, Christophe

AU - Corbel, Catherine

AU - Bardez, Isabelle

AU - Leturcq, Gilles

PY - 2007/1/1

Y1 - 2007/1/1

N2 - Zirconolite is a candidate host material for conditioning minor tri- and tetra-valent actinides arising from enhanced nuclear spent fuel reprocessing and partitioning, in the case of disposal of the nuclear waste. Its chemical durability has been studied here under charged particle-induced radiolysis (He2+ and proton external beams) to identify the possible effects of water radiolysis on the dissolution rates in pure water and to describe the alteration mechanisms. Two experimental geometries have been used in order to evaluate the influence of the following parameters: solid irradiation, water radiolysis. In the first geometry the beam gets through the sample before stopping at the surface/water interface. In the second one the beam stops before the surface/water interface. Results on the elemental releases due to the enhanced dissolution of the zirconolite surface during charged particle-induced irradiation of water are presented. Under radiolysis, an increase of one order of magnitude is observed in the Ti, Zr and Nd elemental releases. No difference in the total elemental releases can be noticed when the solid is also irradiated.

AB - Zirconolite is a candidate host material for conditioning minor tri- and tetra-valent actinides arising from enhanced nuclear spent fuel reprocessing and partitioning, in the case of disposal of the nuclear waste. Its chemical durability has been studied here under charged particle-induced radiolysis (He2+ and proton external beams) to identify the possible effects of water radiolysis on the dissolution rates in pure water and to describe the alteration mechanisms. Two experimental geometries have been used in order to evaluate the influence of the following parameters: solid irradiation, water radiolysis. In the first geometry the beam gets through the sample before stopping at the surface/water interface. In the second one the beam stops before the surface/water interface. Results on the elemental releases due to the enhanced dissolution of the zirconolite surface during charged particle-induced irradiation of water are presented. Under radiolysis, an increase of one order of magnitude is observed in the Ti, Zr and Nd elemental releases. No difference in the total elemental releases can be noticed when the solid is also irradiated.

UR - https://www.scopus.com/pages/publications/41549152640

M3 - Conference contribution

AN - SCOPUS:41549152640

SN - 9781558999428

T3 - Materials Research Society Symposium Proceedings

SP - 335

EP - 340

BT - Scientific Basis for Nuclear Waste Management XXX

PB - Materials Research Society

T2 - 2006 MRS Fall Meeting

Y2 - 27 November 2006 through 1 December 2006

ER -

Enhancement of zirconolite dissolution due to water radiolysis

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