Assessment of natural radionuclides mobility in a phosphogypsum disposal area

The phosphogypsum (PG) stacks located at Huelva (SW Spain) store about 100 Mt of PG, and covers a surface of 1000 ha. It has been very well established in many studies that this waste contains significant U-series radionuclides concentrations, with average activity concentrations rounding the 650, 6...

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Bibliographic Details
Published in:Chemosphere (Oxford) 2018-11, Vol.211, p.775-783
Main Authors: Pérez-Moreno, S.M., Gázquez, M.J., Pérez-López, R., Vioque, I., Bolívar, J.P.
Format: Article
Language:English
Subjects:
BCR sequential extraction
Calcium Sulfate - chemistry
Mobility
Natural radionuclides
Phosphogypsum
Phosphorus - chemistry
Radioisotopes - analysis
Radioisotopes - chemistry
Soil Pollutants, Radioactive - chemistry
Stacks
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Summary:The phosphogypsum (PG) stacks located at Huelva (SW Spain) store about 100 Mt of PG, and covers a surface of 1000 ha. It has been very well established in many studies that this waste contains significant U-series radionuclides concentrations, with average activity concentrations rounding the 650, 600, 400 and 100 Bq kg−1 for 226Ra, 210Po, 230Th and 238U, respectively. However, the radionuclide transfer from this repository into the environment by the aquatic pathway will depend on the mobility of each radionuclide. The mobility of the natural radionuclides (U-isotopes, Th-isotopes, 226Ra, and 210Po) contained in the PG piles were evaluated by using the optimized BCR sequential extraction procedure (BCR “Community Bureau of Reference”). The radionuclides were measured in the liquid fractions by alpha-particle spectrometry with semiconductor PIPS detectors. In addition, to validate the obtained results, waters from different locations of the PG piles (pore-water, perimeter channel and edge outflow leachates) were taken and the alpha emitter radionuclides determined. Uranium presents the highest mobility, being its total mobile fraction in the PG around 70%, while 210Po and 226Ra present an intermediate mobility of (around 50% and 30%, respectively). And finally, the Th-isotopes have very low mobility (mobile fraction 
ISSN:0045-6535
1879-1298
DOI:10.1016/j.chemosphere.2018.07.193