Gas ebullition associated with biological processes in radioactively contaminated reservoirs could lead to airborne radioactive contamination

Storage reservoirs of radioactive waste could be the source of atmospheric pollution due to the efflux of aqueous aerosol from their water areas. The main mechanism of formation of aqueous aerosols is the collapse of gas bubbles at the water surface. In this paper, we discuss the potential influence...

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Bibliographic Details
Published in:Nuclear engineering and technology 2023, 55(11), , pp.4204-4212
Main Authors: Pryakhin, E.A., Mokrov, Yu.G., Trapeznikov, A.V., Atamanyuk, N.I., Andreyev, S.S., Peretykin, A.A., Mokrov, K. Yu, Semenov, M.A., Akleyev, A.V.
Format: Article
Language:English
Subjects:
Aerosol
Atmosphere
Ebullition
Methane
Phytoplankton
Radioactively contaminated reservoirs
원자력공학
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Summary:Storage reservoirs of radioactive waste could be the source of atmospheric pollution due to the efflux of aqueous aerosol from their water areas. The main mechanism of formation of aqueous aerosols is the collapse of gas bubbles at the water surface. In this paper, we discuss the potential influence of biological factors on gas ebullition in the water areas of the radioactively contaminated industrial reservoirs R-9 (Lake Karachay) and R-4 (Metlinsky pond) of the Mayak PA. The emission of the released non-dissolved gases captured with gas traps in reservoir R-9 was (88–290) ml/m2 per day (2015) and in reservoir R-4 (270–460) ml/m2 per day (2016). The analysis of gas composition in reservoir R-4 (60% methane, 35% nitrogen, 2.4% oxygen, 1.5% carbon dioxide) confirms their biological origin. It is associated with the processes of organic matter destruction in bottom sediments. The major source of organic matter in bottom sediments is the dying phytoplankton developing in these reservoirs. The obtained results form the basis to set a task to quantify the relationship between the phytoplankton development, gases ebullition and radioactive atmosphere contamination.
ISSN:1738-5733
2234-358X
DOI:10.1016/j.net.2023.07.042