Type:
Research Report
Link:
Authors:
Dr. Stephen Grasby – Research Scientist, Geological Survey of Canada
Dr. Jacek Majorowicz – Research Scientist, University of Alberta
Citation:
Majorowicz, J. and Grasby, S.E. 2010. Journal of Geophysics and Engineering. https://doi.org/10.1088/1742-2132/7/3/002
Acknowledgments:
The authors thank Maria Richards, Miriel Ko, Dr Alan Jessop and Dr J-C Mareshal for help with acquiring heat flow data. Dr Michal Moore is thanked for introducing us to the EGS theme. We would like to thank Dale Issler of GSC Calgary and the anonymous reviewers for their helpful comments. The work has been supported by Geological Survey of Canada Contribution no 20090389.
Abstract:
In order to help assessment of enhanced geothermal energy potential in Canada, we constructed a new series of heatflow and depth–temperature distribution maps (down to 10 km). We focus on high-temperature resources (>150 °C) capable of electrical production. Maps presented show large temperature variability, related mainly to heat flow patterns. The highest temperatures occur in western and northern Canada. Here temperatures greater than 150 °C, required for enhanced geothermal systems (EGS), can be reached at reasonable drilling depths of <5 km. Heat flow, by itself however, is not a sufficient tool to predict areas of high energy content. A combination of thick low thermal conductivity sedimentary blankets and moderate to high heat flow areas can generate targets that are as favorable as regions with high conductivity and high heat flow. Some moderate heat flow areas in the deeper parts of the Western Canada Sedimentary Basin have heat content comparable to high heat flow zones of the the Canadian Cordillera. The magnitude of in-place thermal energy available for future heat ‘mining/farming’ was esitmated throughout Canada by calculating heat released through cooling a defined rock volume through a fixed temperature change. These estimates show the first-order appoximation of available geothermal heat content. The fraction of true heat energy available will be as low as 0.02 of these values. However, even this more limited energy production could be large enough to be a considerable future renewable energy resource for Canada.
Keywords:
heat flow, geothermics, geothermal energy, Canadian heat content