Thorium and Uranium distribution in a passive system for mine water treatment

The abandoned Jales mining area is a sulphide-rich deposit (Northeast of Portugal). Acid mine drainage resulted from oxidation of sulphides is treated in a passive system with wetlands. The present work studies the thorium and uranium behaviour in the water and in the fine fractions of wetland soils...

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Bibliographic Details
Main Authors: Prudêncio, Maria Isabel, Valente, Teresa, Marques, Rosa, Sequeira Braga, Maria Amália, Pamplona, Jorge
Format: Conference Proceeding
Language:English
Subjects:
Abandoned mines
Acid mine drainage
Actinides
Downstream effects
Drainage systems
Effluent treatment
Heavy metals
Manganese
Metal concentrations
Mine waters
Oxidation
Pore water
Soil dynamics
Soil water
Soils
Sulfides
Summer
Thorium
Uranium
Wastewater discharges
Wastewater treatment
Water treatment
Wetlands
Winter
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Summary:The abandoned Jales mining area is a sulphide-rich deposit (Northeast of Portugal). Acid mine drainage resulted from oxidation of sulphides is treated in a passive system with wetlands. The present work studies the thorium and uranium behaviour in the water and in the fine fractions of wetland soils throughout the passive treatment system. The evaluation of the efficiency of the all system was done determining metals concentration variation in the creek water upstream and downstream of the treated effluent discharge. The results point to higher efficiency to retain Th after summer than after winter. The opposite was found for uranium, which increases significantly in the creek water after summer and, in a lower extent, after winter. Also, Th and U have a tendency to increase in the fine fractions of the wetlands soils after summer, which can be explained by the longer water-soil contact/lower water dynamics. Nevertheless uranium has a much higher tendency to be in solution as revealed by a high concentration in the porewater of wetland soils. A relation of these actinides behaviour with the Fe and Mn distribution is not clear.
ISSN:2267-1242
2555-0403
2267-1242
DOI:10.1051/e3sconf/20199809023