Efficient carbon uptake results from the large reactive surface areas on rock grains generated by comminution, thus carbon fixation is directly attributable to mine operations. Carbon is fixed as new mineral precipitate growths, thus sequestering it from the atmosphere. These reactions happen spontaneously but are affected by the characteristics of the ore, the local climate, and the way that tailings are processed, transported, deposited, and stored. To achieve meaningful offsets of mine emissions, carbon fixation reactions must be accelerated. This project will build on more than a decade of research at MDRU to explore new methods for integrating carbon mineralization into mine operations, define protocols for verifying carbon fixation and assessing stability, and establish pilot field tests of proposed carbon mineralization processes.
Many mines produce waste capable of storing CO2 for geologic timescales, but the diversity of ore types, climatic conditions, and mine infrastructure means that any single approach to accelerating mineralization may be of limited geographic application. We have identified several key areas across this spectrum where new research could accelerate direct capture of CO2 from the atmosphere, and accelerate mineralization from CO2-rich (10-100%) gas streams at rates commensurate with mine greenhouse gas emissions. Incorporation of carbon sequestration activities into mine operations from planning to comminution to tailings storage, will generate economic, corporate, and societal advantages to mines and affiliated industries, including co-benefits such as tailings stabilization, dust mitigation, and toxic metal immobilization.
This project has received $2 million in funding from the Government of Canada as a part of the Clean Growth Program. This project is also supported by Geoscience BC, the British Columbia Geological Survey (BCGS), the Geological Survey of Canada (GSC), De Beers Canada FPX Nickle Corp., and Giga Metals Corp. and is a collaboration between the University of Alberta, Trent University and Institut national de la recherche scientifique (INRS).
This project was previously operated under MDRU.
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