Evaluating Methane Emissions From Decommissioned Unconventional Petroleum Wells in British Columbia, Canada
Aaron G. Cahill, Mohammad Joukar, Morteza Haghighat Sefat, C. van Geloven
Abstract
Abstract Hundreds of thousands of unconventional natural gas wells recently constructed across North America have transformed the global energy landscape and generated widespread concern relating to fugitive methane leakage. To date, no studies have evaluated the integrity of unconventional wells post‐abandonment. Here, we evaluated emissions at nine decommissioned unconventional wells within the Montney region of British Columbia, Canada and found two exhibited co‐emission of CH 4 and CO 2 from surrounding soils indicating integrity failure, releasing up to ∼2,000 kg of CO 2 ‐eq/yr into the atmosphere. A further three wells exhibited statistically significant anomalous CO 2 fluxes of ∼500 kg/year from surficial soils around the well, likely associated with minor integrity failure and derived from near total soil‐based aerobic oxidation of fugitive CH 4 . These findings suggest that more than half of decommissioned unconventional wells may generate emissions, however only relatively small contributions to GHG emissions result that are significantly mitigated through natural soils‐based CH 4 oxidation.