Man-made versus natural CO2 leakage: a 400 k.y. history of an analogue for engineered geological storage of CO2

Burnside, N. M. , Shipton, Z., Dockrill, B. and Ellam, R.M. (2013) Man-made versus natural CO2 leakage: a 400 k.y. history of an analogue for engineered geological storage of CO2. Geology, 41(4), pp. 471-474. (doi: 10.1130/G33738.1)

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To evaluate sites for long-term geological storage of CO2 and optimize techniques for monitoring the fate of injected CO2, it is crucial to investigate potential CO2 migration pathways out of a reservoir and surface leakage magnitudes. For the first time, we calculate CO2 leakage rates and volumes from ancient fault-related travertines and from an abandoned borehole. U-Th–dated travertine along two faults near Green River, Utah (western United States), shows that leakage has occurred in this area for over 400 k.y. and has switched location repeatedly over kilometer-scale distances. One individual travertine was active for at least 11 k.y. Modern leakage is predominantly through the active Crystal Geyser, which erupts from an abandoned exploration well. Using age data and travertine volume, we calculate magnitudes and rates of CO2 emission. Fault-focused leakage volume is twice as great than diffuse leakage through unconfined aquifers. The leakage rate from a poorly completed borehole is 13 times greater than the long-term time averaged fault-focused leakage. Although magnitudes and rates of any leakage from future storage sites will be highly dependent on local geology and pressure regime, our results highlight that leakage from abandoned wells is likely to be more significant than through faults.

Item Type:Articles
Glasgow Author(s) Enlighten ID:Ellam, Professor Rob and Burnside, Dr Neil and Shipton, Dr Zoe
Authors: Burnside, N. M., Shipton, Z., Dockrill, B., and Ellam, R.M.
College/School:College of Science and Engineering > School of Geographical and Earth Sciences > Earth Sciences
College of Science and Engineering > Scottish Universities Environmental Research Centre
Journal Name:Geology
ISSN (Online):1943-2682

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