Association of radionuclides with the colloidal matter of underground waters taken from observation wells in the zone of impact of Lake Karachai

Association of radionuclides with the colloidal matter of underground waters taken from observation wells in the zone of impact of Lake Karachai

Associations of radionuclides with colloidal particles of various sizes, isolated from underground waters of the Lake Karachai contamination area, were studied. Analysis by photon correlation spectroscopy showed that the total content of colloidal matter in deeper horizons is higher by an order of m...

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Bibliographic Details
Published in:Radiochemistry (New York, N.Y.) Vol. 51; no. 6; pp. 644 - 648
Main Authors: Novikov, A. P., Kalmykov, S. N., Goryachenkova, T. A., Kazinskaya, I. E., Barsukova, K. V., Lavrinovich, E. A., Kuzovkina, E. V., Myasoedov, B. F.
Format: Journal Article
Language:English
Published: Dordrecht SP MAIK Nauka/Interperiodica 01-12-2009
Subjects:
Chemistry
Chemistry and Materials Science
Chemistry/Food Science
Nuclear Chemistry
radionuclides
colloids
Lake Karachai
migration in environment
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Summary:Associations of radionuclides with colloidal particles of various sizes, isolated from underground waters of the Lake Karachai contamination area, were studied. Analysis by photon correlation spectroscopy showed that the total content of colloidal matter in deeper horizons is higher by an order of magnitude than in near-surface horizons. The mean particle radius also increases with the depth. The major fraction of Pu, Am, and Cm is associated with colloids (40–90%). U and Np are associated with colloidal particles to a lesser extent (2–20%), which determines their higher migration mobility in underground waters. The amount of actinides associated with coarse colloidal particles of size from 450 to 200 nm is insignificant. A considerable fraction of actinides is in the deep-lying water (depth ≥40 m) is associated with colloidal particles of size from 200 to 50 nm. No more than 30% of Pu and Am in water of these horizons is associated with finer colloids (from 10 kDa to 50 nm). With approaching the surface, the amount of actinides in the fraction of nanometer-sized particles (50 nm-10 kDa) increases (to 50%).
ISSN:1066-3622
1608-3288
DOI:10.1134/S1066362209060150