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Light hydrocarbon andnoble gas migrationas an analogue forpotential CO2leakage: numericalsimulations and fielddata from threehydrocarbon… Jacob S. AndersonKatherine RomanakMasoud Alfi2019 год

Light hydrocarbon and noble gas migration as an analogue for potential CO2 leakage: numerical simulations and field data from three hydrocarbon systems
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Аннотация: Abstract Sites where anthropogenic CO 2 captured from industrial sources is stored in deep geological formations for climate change mitigation are required to show secure retention of the injected CO 2 . Monitoring, reporting, and verification (MRV) plans are needed to indicate that no CO 2 release has occurred. We explored the degree to which direct comparison between a surface anomaly and reservoir geochemistry using various geochemical parameters can be used for attribution. We used data collected on light hydrocarbons and noble gases throughout the sedimentary column at three CO 2 enhanced oil recovery (EOR) sites to understand the processes that may cause fluid evolution. Light hydrocarbon and noble gases were sampled from reservoirs, gas‐bearing intervals above reservoirs, and groundwater. Vertical profiles indicated that lighter components are relatively enriched during migration (i.e. chromatographic separation). Static and numerical models were designed to simulate episodic gas migration and geochemical alteration of these geochemical parameters from solubility and sorption. The effects of hydrocarbon solubility were minimal (Bernard ratio changes within 5.2%) although field data were within the range of expected alterations from sorption. Forward models of CO 2 migration and noble gas interactions showed that CO 2 stripping causes an enrichment of crustal noble gases. In areas where natural fluxes of CO 2 from depth are non‐existent, the occurrence of crustal noble gas signature may distinguish fugitive CO 2 from the reservoir from natural near‐surface sources, and could be considered to explain apparent fluid anomalies. © 2019 Society of Chemical Industry and John Wiley & Sons, Ltd.
Год издания: 2019
Авторы: Jacob S. Anderson, Katherine Romanak, Masoud Alfi, Susan Hovorka
Издательство: Wiley
Источник: Greenhouse Gases Science and Technology
Ключевые слова: Hydrocarbon exploration and reservoir analysis, CO2 Sequestration and Geologic Interactions, Atmospheric and Environmental Gas Dynamics
Другие ссылки: Greenhouse Gases Science and Technology (HTML)
OSTI OAI (U.S. Department of Energy Office of Scientific and Technical Information) (HTML)