Régions: North Slave Region
étiquettes: contaminants, water quality, arsenic, groundwater, carbon dioxide, Giant Mine, tailings disposal
chercheur principal: | Blowes, David W. (24) |
Nᵒ de permis: | 16934 |
Organisation: | University of Waterloo |
Année(s) de permis: |
2024
2023
2022
2021
2020
2019
2018
2017
|
Délivré: | janv. 12, 2022 |
Équipe de projet: | David Hilger, Jeff Bain, David Blowes, Carol Ptacek, David Wilson, Sara Fellin |
Objectif(s): To determine the magnitude and rate of release of arsenic and other toxic elements from the Giant Mine tailings to groundwater; to evaluate remediation alternatives for tailings management, including the effects of proposed engineered covers; and, to apply novel characterization techniques to understand the mechanisms controlling arsenic release.
Description du projet: This licence has been issued for the scientific research application No.5124. The objectives of this project are to: 1) determine the magnitude and rate of release of arsenic and other toxic elements from the Giant Mine tailings to groundwater; 2) evaluate remediation alternatives for tailings management, including the effects of proposed engineered covers; and, 3) apply novel characterization techniques to understand the mechanisms controlling arsenic release. The research team will install a network of piezometers within tailings impoundments at Giant Mine for the collection of groundwater samples. Key geochemical parameters, such as acidity and concentrations of dissolved chemical species, including arsenic and sulfate, will be measured. Groundwater physical parameters, including water level measurements and hydraulic conductivity will be used to calculate groundwater fluxes within and from the tailings impoundment. Pore-gas concentrations of oxygen and carbon dioxide will be measured with depth within the tailings impoundment as indicators of sulfide mineral oxidation and carbon mineral dissolution. Tailings mineralogy and microbial-community composition will be characterized in the laboratory at the University of Waterloo and other collaborating institutions. Large-scale column experiments will be conducted in the laboratory to estimate long-term rates of acid generation, acid neutralization, and the release and attenuation of trace elements in uncovered and covered tailings. Geochemical and reactive transport modelling will be integrated with field measurements to provide quantitative estimates of the longterm release of contaminants from the wastes under current conditions and following implementation of the alternative remediation strategies. The research team will provide Indigenous and Northern Affairs Canada with annual progress reports, which will include detailed research progress updates and data summaries. In addition, the results of this research will be described in academic theses, conference presentations, conference proceedings papers, and refereed journal articles. The research team will interact directly with personnel involved in site remediation at Giant Mine. Research results will be disseminated to the public via community-engagement activities; graduate students and other research personnel are willing to provide presentations to local school groups and to other members of the community through knowledge-mobilization workshops. The fieldwork for this study will be conducted from January 12, 2022 to December 31, 2022.