Canada Nickel and the University of Texas Successfully Complete Carbon Sequestration Pilot at the Crawford Nickel Project

Core Insights - Canada Nickel Company has successfully completed an in-situ carbon sequestration pilot study at its Crawford Nickel Project, demonstrating a new pathway for permanent CO2 storage [1] - The pilot project sequestered approximately 12 tonnes of CO2, indicating the potential for large-scale decarbonization in mining operations [1] Group 1: Project Details - The carbon sequestration pilot was conducted in collaboration with the U.S. Department of Energy's Advanced Research Projects Agency – Energy, led by the University of Texas at Austin [1] - The pilot involved short-duration injection trials and continuous CO2-saturated water injection into a well drilled to a depth of 396 meters, confirming that the injected CO2 remained dissolved without surface leakage [1] - Monitoring of seismicity and water chemistry will continue in the coming months to ensure the effectiveness of the carbon sequestration process [1] Group 2: Economic and Environmental Impact - The direct injection approach has the potential to lower future mining costs by pre-conditioning and fracturing the rock mass, making it less energy-intensive for subsequent mining processes [1] - The initiative is part of Canada Nickel's vision for a Zero-Carbon Industrial Cluster in the Timmins region, expanding the company's carbon capture and storage capabilities [1] - The results from this study will inform future post-mining carbon sequestration strategies, enhancing the environmental and economic value of mining operations [1]