Dissolution behaviour of radiocaesium-bearing microparticles released from the Fukushima nuclear plant

Dissolution behaviour of radiocaesium-bearing microparticles released from the Fukushima nuclear plant

Radiocaesium-bearing microparticles (CsMPs) composed of silicate glass were released by the Fukushima Daiichi Nuclear Power Plant accident in March 2011. Since CsMPs contain a high concentration of radiocaesium, their dynamics and fate in the environment are urgent issues to be investigated. Here, w...

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Bibliographic Details
Published in:Scientific reports Vol. 9; no. 1; p. 3520
Main Authors: Okumura, Taiga, Yamaguchi, Noriko, Dohi, Terumi, Iijima, Kazuki, Kogure, Toshihiro
Format: Journal Article
Language:English
Published: London Nature Publishing Group UK 05-03-2019
Nature Publishing Group
Subjects:
639/638/169
639/638/903
704/172
Artificial seawater
Carbon dioxide
Cesium radioisotopes
Dissolution
Humanities and Social Sciences
Iron oxides
Microparticles
Minerals
multidisciplinary
Nuclear accidents & safety
Nuclear power plants
Radioactivity
Science
Science (multidisciplinary)
Seawater
Tin oxide
Weathering
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Summary:Radiocaesium-bearing microparticles (CsMPs) composed of silicate glass were released by the Fukushima Daiichi Nuclear Power Plant accident in March 2011. Since CsMPs contain a high concentration of radiocaesium, their dynamics and fate in the environment are urgent issues to be investigated. Here, we show that CsMPs are dissolved by weathering in the environment and that their radioactivity is more rapidly decreased by dissolution than the physical decay of radiocaesium. We conducted dissolution experiments with CsMPs in pure water that absorbed CO 2 from the atmosphere and in artificial seawater at several temperatures. The dissolution progress was monitored by the decrease in the 137 Cs radioactivity in CsMPs, and the dissolution rate was estimated. The activation energy for the dissolution of CsMPs was estimated to be 65 and 88 kJ/mol and the dissolution rate at 13 °C (approximate annual mean temperature in Fukushima City) was 0.014 and 0.140 μm/y for pure water and seawater, respectively, assuming that radiocaesium is uniformly distributed in spherical CsMPs. The shapes of the CsMPs dissolved in pure water were considerably altered, suggesting that the dissolution proceeded without maintaining the geometry. Tin oxide and iron oxide nanoparticulates formed on the surfaces. Such features were similar to those observed in CsMPs recently collected in Fukushima Prefecture, indicating that weathering dissolution of CsMPs is also occurring in the environment. For the CsMPs dissolved in seawater, a crust of secondary Mg- and Fe-rich minerals was formed, and the glass matrix inside the crust decreased, creating space between the crust and the glass matrix.
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ISSN:2045-2322
2045-2322
DOI:10.1038/s41598-019-40423-x