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Mechanisms leading to potential impacts of shale gas development on groundwater quality.

Lefebvre, René (2016). Mechanisms leading to potential impacts of shale gas development on groundwater quality. Wiley Interdisciplinary Reviews: Water , vol. 4 , nº 1. e1188. DOI: 10.1002/wat2.1188.

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Résumé

The development of shale gas resources was made possible by the combination of horizontal drilling and high-volume hydraulic fracturing (fracking). Environmental concerns have been raised relative to shale gas production, especially potential impacts on groundwater. Fluids related to unconventional oil and gas (O&G) operations contain chemical compounds that can impact groundwater quality. Such impacts can occur due to (1) the infiltration of surface contaminant releases, (2) failures of the integrity of O&G wells, and (3) upward fluid migration from a shale/tight reservoir along preferential paths that can be natural (faults or fracture zone) or man-made (O&G wells). Surface releases represent the most probable mechanism leading to groundwater contamination. Improvements in O&G drilling operations under stringent regulations can minimize this risk. Experts identify O&G well integrity as the most challenging issue that may lead to groundwater contamination. Failure of casing and cement can lead to upward fluid flow within or outside O&G wells, especially of methane. Integrity failures leading to fluid migration to shallow fresh water aquifers or to the surface are well understood and can be detected and repaired, but this can be complex and costly. A few regulators now impose groundwater monitoring to detect impacts from integrity failures. Occurrences of communication with existing O&G wells from fracking operations have also led some regulators to impose rules aiming to avoid such potential fluid migration paths. There is an ongoing scientific debate regarding the potential for fluids to migrate upward from exploited shale gas units to aquifers through natural preferential paths.

Type de document: Article
Mots-clés libres: hydraulically fractured shale; contaminant pathways; numerical-simulation; geological system; reservoirs risks; methane; aquifers; wells; migration; Canada
Centre: Centre Eau Terre Environnement
Date de dépôt: 28 nov. 2019 17:00
Dernière modification: 28 nov. 2019 17:00
URI: https://espace.inrs.ca/id/eprint/6439

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