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Á¦¸ñ Decontamination of neutron-activated radioactive concrete waste by separating Eu, Co, Fe, and Mn-containing sand particles using dense medium separation (2023)

Decontamination of neutron-activated radioactive concrete waste by separating Eu, Co, Fe, and Mn-containing sand particles using dense medium separation (2023)

 

Seokju Hong, Wooyong Um

 

Journal of Hazardous Materials volume 443, Part A, 5 February 2023

 

DOI : https://doi.org/10.1016/j.jhazmat.2022.130183

 

 

ABSTRACT

 

Neutron-activated concrete waste is one of the most challenging radioactive wastes to decontaminate because the radionuclides exist in a chemically stable binding state, and it is very difficult to break those bindings with the conventional acid decontamination method. Here, we suggest a new dense medium separation (DMS) of felsic and mafic minerals from simulated neutron-activated concrete waste using sodium-polytungstate (SPT) solution because most elements (Eu, Co, Fe, and Mn) that can be activated by neutrons are concentrated in mafic minerals. We also determined the optimal density of the SPT solution as ~ 2.70 g/cm3, and a high degree of decontamination was achieved for sand particles ranging from 75 to 500 ¥ìm in size. Under these optimized conditions, DMS (80.02%) exhibits much higher radionuclide removal efficiency (RRE) than 5 M acid decontaminations (23.2731.29%) for Eu. Furthermore, DMS (59.3863.36%) shows similar RRE to 5 M acid decontaminations (41.6773.94%) for Fe, Mn, and Co. We believe this DMS process could be useful and applicable to the decontamination of neutron-activated concrete wastes because it is possible to perform a large-scale process compared to conventional acid decontamination methods, which is also advantageous in reducing secondary waste generation and facile radionuclide recovery.


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