Anna-Elina Pasi scite author profile

Anna-Elina Pasi

4Publications

33Citation Statements Received

87Citation Statements Given

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119

Affiliations

Chalmers University of Technology, Leibniz University Hannover, University of Helsinki

Publications

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Radionuclides in surface waters around the damaged Fukushima Daiichi NPP one month after the accident: Evidence of significant tritium release into the environment

Querfeld

Pasi

Shozugawa

et al. 2019

Science of The Total Environment

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Following the Fukushima nuclear accident (2011), radionuclides mostly of volatile elements (e.g., 131 I, 134,137 Cs, 132 Te) have been investigated frequently for their presence in the atmosphere, pedosphere, biosphere, and the Pacific Ocean. Smaller releases of radionuclides with intermediate volatility, (e.g., 90 Sr), have been reported for soil. However, few reports have been published which targeted the contamination of surface (fresh) waters in Japan soon after the accident. In the present study, 10 surface water samples (collected on April 10, 2011) have been screened for their radionuclide content ( 3 H, 90 Sr, 129 I, 134 Cs, and 137 Cs), revealing partly unusually high contamination levels. Especially high tritium levels (184 ± 2 Bq•L -1 ; the highest levels ever reported in scientific literature after Fukushima) were found in a puddle water sample from close to the Fukushima Daiichi nuclear power plant. The ratios between paddy/puddle water from one location only a few meters apart vary around 1% for 134 Cs, 12% for 129 I ( 131 I), and around 40% for both 3 H and 90 Sr. This illustrates the adsorption of radiocesium on natural minerals and radioiodine on organic substances (in the rice paddy), whereas the concentration differences of 3 H and 90 Sr between the two waters are mainly dilution driven.

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Tellurium Behavior in the Containment Sump: Dissolution, Redox, and Radiolysis Effects

et al. 2020

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In the event of a severe nuclear accident, one major concern is the release of radioactive material into the environment causing potential exposure of the general public to radiation. Among the volatile radionuclides are a range of tellurium isotopes. Due to the radioactivity and the volatility of tellurium, it has to be taken into account when assessing the overall effects of an accident. The interest in tellurium is not limited only to its release but also to the fact that some tellurium isotopes decay to iodine, and thus affect the iodine release behavior. The release and transport behavior of tellurium has been investigated over the past decades, however, the aqueous chemistry of tellurium in the complex containment sump system is still unclear. This study presents the behavior of tellurium dioxide in simplified containment sump conditions in relation to dissolution, redox reactions, and interactions with water radiolysis products. The results indicate that radiolysis products have a significant effect on tellurium chemistry in both a reducing and oxidizing manner depending on the solution composition. The redox reactions also affect the solubility of tellurium. The results show that the current information used to assess tellurium source term needs to be reevaluated for both severe accident management and for code validation purposes.

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Organic Telluride Formation from Paint Solvents Under Gamma Irradiation

2022

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Tellurium retention by containment spray system

Kärkelä

Pasi

Espegren

et al. 2021

Annals of Nuclear Energy

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Anna-Elina Pasi

Radionuclides in surface waters around the damaged Fukushima Daiichi NPP one month after the accident: Evidence of significant tritium release into the environment

Tellurium Behavior in the Containment Sump: Dissolution, Redox, and Radiolysis Effects

Organic Telluride Formation from Paint Solvents Under Gamma Irradiation

Tellurium retention by containment spray system

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