Characterization of Excavated Radionuclide Retention Ponds in a Uranium Mine in the Process of Decommissioning Using Geophysical Methods

The challenges inherent in mining environmental liabilities, especially in radioactive mineral contexts, highlight the crucial importance of rehabilitating and properly managing degraded areas and tailings. In radioactive minerals mining, the challenges are accentuated due to the complexity of the m...

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Bibliographic Details
Published in:Pure and applied geophysics 2024-11, Vol.181 (11), p.3313-3330
Main Authors: Netto, Leonides Guireli, Moreira, César Augusto, Bianchi, Henrique Marquiori, Gandolfo, Otávio Coaracy Brasil, Ilha, Lenon Melo
Format: Article
Language:English
Subjects:
Anomalies
Contamination
Decommissioning
Environmental degradation
Environmental impact
Environmental liability
Environmental management
Environmental monitoring
Environmental risk
Fractures
Fracturing
Geological surveys
Geophysical exploration
Geophysical methods
Geophysics
Instrumentation
Management methods
Mine tailings
Minerals
Mining
Nuclear facilities
Ponds
Radioactive contamination
Radioactivity
Radioisotopes
Refraction
Retention
Retention basins
Risk reduction
Rocks
Seismic exploration
Seismic tomography
Storage facilities
Structural surveys
Subsoils
Sustainability management
Tailings
Tomography
Underground structures
Uranium
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Summary:The challenges inherent in mining environmental liabilities, especially in radioactive mineral contexts, highlight the crucial importance of rehabilitating and properly managing degraded areas and tailings. In radioactive minerals mining, the challenges are accentuated due to the complexity of the materials and the environmental risks associated with persistent radioactivity. This scenario underlines the critical need for precise environmental management strategies, highlighting the importance of geophysical techniques for monitoring and mitigating environmental risks in radionuclide retention ponds. Geophysical techniques, such as electrical tomography and seismic tomography refraction, are interesting tools for identifying anomalies in the subsoil, such as leaks, fractures and contamination zones, which are not visible on the surface. These methods provide a non-invasive means of continuously monitoring the integrity of tailings storage facilities, allowing for early detection of potential failures or contamination pathways. By offering a more spatial understanding of subsurface conditions compared to traditional geotechnical instrumentation, geophysics plays an important role in mitigating environmental impacts, reducing risks to nearby ecosystems and informing rehabilitation efforts in radioactive mineral mining areas. This study applied electrical and seismic methods to assess two retention ponds at a uranium mine, demonstrating how these techniques can help in the safe decommissioning of mining facilities and the sustainable management of environmental liabilities. With a focus on two retention ponds of a uranium mine in South America in the process of decommissioning, the results revealed conductive electrical anomalies and variations in the geological layers identified by electrical tomography and refraction seismic, respectively, indicating potentially contaminated areas and alterations in the degree of fracturing of the foundation rock of the ponds. Comparing these results with a structural survey of fracture orientations in the study area demonstrates the preferential path of underground flow, conditioned by the fracturing pattern of the weathered rocks. These findings emphasize the importance of geophysics in the decommissioning phase of nuclear facilities, not only to monitor stored environmental liabilities, but also to assist in the recovery of degraded environments in the proximity of the mines.
ISSN:0033-4553
1420-9136
DOI:10.1007/s00024-024-03602-0