V. E. Popov scite author profile

Field and laboratory experiments have been used to study the behaviour of long-lived radionuclides in the zone affected by the Chernobyl accident. Speciation of 90Sr and 137Cs in soils and bottom sediments was determined. The principal distinction of the Chernobyl fallout was that it contained a relatively small proportion of exchangeable forms because a considerable fraction of the radionuclides was incorporated as part of the insoluble fuel particles. Disintegration of fuel particles in soils and bottom sediments results in transition of non-exchangeable forms into exchangeable forms. Radionuclide species have different pathways and rates of migration in soils and bottom sediments. Migration of each chemical form was described by a convective-dispersive equation taking into account transformation processes of radionuclide species in soils or bottom sediments. Adsorption of 90Sr and 137Cs in the environment is controlled by the cation-exchange capacity and the selectivity of the solid phase (i.e., soil, bottom sediments and suspended matter) and the cationic composition of the liquid phase (i.e., soil solution, surface run-off and river or lake water). The corresponding parameters for the processes were obtained.

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Influence of agricultural countermeasures on the ratio of different chemical forms of radionuclides in soil and soil solution

Konoplev

Viktorova

Virchenko

et al. 1993

Science of The Total Environment

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Sonochemical treatment of benzene/toluene contaminated wastewater

1998

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Long-Term Investigation of 137Cs Fixation by Soils

Konoplev¹,

Bulgakov²,

Popov³

et al. 1996

Radiation Protection Dosimetry

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V. E. Popov

Contaminant fluxes from sediment due to tubificid oligochaete bioturbation

Behaviour of long-lived Chernobyl radionuclides in a soil–water system

Influence of agricultural countermeasures on the ratio of different chemical forms of radionuclides in soil and soil solution

Sonochemical treatment of benzene/toluene contaminated wastewater

Long-Term Investigation of 137Cs Fixation by Soils

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