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INVESTIGATING CROSS FORMATIONAL FLOW OF FLUIDS THROUGH OIL AND GAS WELLS IN ALBERTA AND SASKATCHEWAN, CANADA

dc.contributor.advisorFerguson, Grant
dc.contributor.advisorMcIntosh, Jennifer
dc.contributor.committeeMemberHawkes, Chris
dc.contributor.committeeMemberLindsay, Matt
dc.creatorPerra, Chris Arthur
dc.creator.orcid0000-0002-5757-0835
dc.date.accessioned2021-04-29T14:46:21Z
dc.date.available2022-04-29T06:05:08Z
dc.date.created2021-05
dc.date.issued2021-04-29
dc.date.submittedMay 2021
dc.date.updated2021-04-29T14:46:21Z
dc.description.abstractDeep fluids that are buoyant or have been pressurized due to hydraulic fracturing (HF) or injection related to enhanced oil recovery (EOR) and salt water disposal (SWD) can migrate upwards into other aquifer units, including potable aquifers, through a number of pathways. However, operational considerations typically limit the likelihood of cross formational flow occurring through natural geologic pathways such as faults, leaving anthropogenic pathways, namely wellbores, as the most likely pathway for cross formational flow in most settings. This thesis first evaluates the potential for inter-borehole flow to occur through old abandoned wells in the deep subsurface associated with nearby HF and EOR or SWD operations at three study sites in Alberta and Saskatchewan. It then predicts the occurrence of surface casing vent flow and gas migration (the surface expression of well leakage) in active or suspended wells across Alberta using iterations of the machine learning algorithm, random forest. These two studies share commonality in that the formations located below potable groundwater but above typically targeted oil and gas formations, otherwise known as the intermediate zone, are identified as being critical to understanding both deep well leakage and the surface expression of well leakage. Results indicate that old abandoned wells at the study sites surveyed typically leave several intermediate zone aquifers commingled between abandonment plugs, increasing their susceptibility to the effects of nearby HF and EOR or SWD operations. For the surface expression of wellbore leakage the intermediate zone has generally been identified by previous studies as the origin for the majority of stray gas samples analyzed. While a modest predictive accuracy of 73% to 77% was achieved using random forest algorithms on a test dataset of wells across all of Alberta, predictive performance could likely be improved by including more predictors previously identified as being strongly correlated with well leakage that are related to the intermediate zone (e.g. well cement tops). In both studies the results can help shape future government regulations and policy but future field work on the intermediate zone is needed to improve our understanding of the integrity of oil and gas wells, the extent to which intermediate zone aquifers may be commingled by old abandoned wells, and by verifying the veracity of the existing database on the occurrence of SCVF/GM.
dc.format.mimetypeapplication/pdf
dc.identifier.urihttps://hdl.handle.net/10388/13363
dc.subjectHydrogeology
dc.subjectLeaky Wells
dc.subjectWell Construction
dc.subjectGroundwater
dc.titleINVESTIGATING CROSS FORMATIONAL FLOW OF FLUIDS THROUGH OIL AND GAS WELLS IN ALBERTA AND SASKATCHEWAN, CANADA
dc.typeThesis
dc.type.materialtext
local.embargo.terms2022-04-29
thesis.degree.departmentCivil and Geological Engineering
thesis.degree.disciplineCivil Engineering
thesis.degree.grantorUniversity of Saskatchewan
thesis.degree.levelMasters
thesis.degree.nameMaster of Science (M.Sc.)

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