Ana L. Duarte, Kátia DaBoit, Marcos L. S. Oliveira, Elba C. Teixeira, Ismael L. Schneider, Luis F. O. Silva. Hazardous elements and amorphous nanoparticles in historical estuary coal mining area[J]. Geoscience Frontiers, 2019, 10(3): 927-939. DOI: 10.1016/j.gsf.2018.05.005
Citation: Ana L. Duarte, Kátia DaBoit, Marcos L. S. Oliveira, Elba C. Teixeira, Ismael L. Schneider, Luis F. O. Silva. Hazardous elements and amorphous nanoparticles in historical estuary coal mining area[J]. Geoscience Frontiers, 2019, 10(3): 927-939. DOI: 10.1016/j.gsf.2018.05.005

Hazardous elements and amorphous nanoparticles in historical estuary coal mining area

  • In Brazil, intense coal exploitation activities have led to environmental deterioration, including soil mortification, water contamination, loss of ecosystem, and atmospheric contamination. In addition, considerable quantities of sulfur-rich residues are left behind in the mining area; these residues pose grave environmental issues as they undergo sulfide oxidation reactions. When sulfur oxides come in contact with water, extreme acid leachate is produced with great proportions of sulfate, and hazardous elements (HEs), which are identified as coal drainage (CMD). CMD is an environmental pollution challenge, particularly in countries with historic or active coal mines. To prevent CMD formation or its migration, the source must be controlled; however, this may not be feasible at many locations. In such scenarios, the mine water should be collected, treated, and discharged. In this study, data from 2005 to 2010 was gathered on the geochemistry of 11 CMD discharges from ten different mines. There are several concerns and questions on the formation of nanominerals in mine acid drainage and on their reactions and interfaces. The detailed mineralogical and geochemical data presented in this paper were derived from previous studies on the coal mine areas in Brazil. Oxyhydroxides, sulfates, and nanoparticles in these areas possibly go through structural transformations depending on their size and formation conditions. The geochemistry of Fe-precipitates (such as jarosite, goethite, and hematite) existent in the CMD-generating coal areas and those that could be considered as a potential source of hazardous elements (HEs) (e.g., Cr) were also studied because these precipitates are relatively stable in extremely low pH conditions. To simplify and improve poorly ordered iron, strontium, and aluminum phase characterization, field emission scanning electron microscopy (FE-SEM), high-resolution transmission electron microscopy (HR-TEM), micro-Raman spectroscopy, and X-ray diffraction (XRD) and sequential extraction (SE) studies were executed on a set CMD samples from the Brazilian mines. This study aimed to investigate the role of both nanomineral and amorphous phase distribution throughout the reactive coal cleaning rejects profile and HEs removal from the water mine to provide holistic insights on the ecological risks posed by HEs, nanominerals, amorphous phases, and to assess sediments in complex environments such as estuaries.
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