The Aquifer-CO(2)Leak project: Numerical modeling for the design of a CO2 injection experiment in the saturated zone of the Saint-Emilion (France) site

The objective of the Aquifer-CO2 Leak project is to get insights into carbon dioxide CO2 migration in aquifers within the context of Carbon Capture and Storage (CCS) and to test the different equipment necessary for CO2 monitoring. The underlying idea is to develop an experiment in the saturated zon...

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Veröffentlicht in:	International journal of greenhouse gas control 2021-01, Vol.104, Article 103196
Hauptverfasser:	Gassara, O., Estublier, A., Garcia, B., Noirez, S., Cerepi, A., Loisy, C., Le Roux, O., Petit, A., Rossi, L., Kennedy, S., Brichart, T., Chiquet, P., Van Lang, L. Luu, Duboin, F. Andre, Gance, J., Texier, B., Lavielle, B., Thomas, B.
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Schlagworte:	Energy & Fuels Engineering Engineering, Chemical Engineering, Environmental Green & Sustainable Science & Technology Science & Technology Science & Technology - Other Topics Technology
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container_title	International journal of greenhouse gas control
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creator	Gassara, O. Estublier, A. Garcia, B. Noirez, S. Cerepi, A. Loisy, C. Le Roux, O. Petit, A. Rossi, L. Kennedy, S. Brichart, T. Chiquet, P. Van Lang, L. Luu Duboin, F. Andre Gance, J. Texier, B. Lavielle, B. Thomas, B.
description	The objective of the Aquifer-CO2 Leak project is to get insights into carbon dioxide CO2 migration in aquifers within the context of Carbon Capture and Storage (CCS) and to test the different equipment necessary for CO2 monitoring. The underlying idea is to develop an experiment in the saturated zone (phreatic) of the underground limestone quarry located at Gironde department (France). It consists in injecting water, carrying dissolved gases (CO2 and krypton) and a fluorescent molecule, under controlled conditions. In this paper, we present the dimensioning study of the experiment by numerical simulations carried out using the simulator CooresFlow (IFPEN's in-house simulator for reactive transport in porous media). The important experiment parameters (injection flow rate, injected volume, the time to return in system equilibrium and wells location) were successfully estimated. In particular, the variation of species concentration in time and space was simulated and analyzed to define an experimental measurement schedule for the planned survey. Finally, a sensitivity analysis of the uncertain model parameters is presented. We found that the water table level and the dispersivity of the porous medium appear to be the most "sensitive" parameters.
doi_str_mv	10.1016/j.ijggc.2020.103196
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subjects	Energy & Fuels Engineering Engineering, Chemical Engineering, Environmental Green & Sustainable Science & Technology Science & Technology Science & Technology - Other Topics Technology
title	The Aquifer-CO(2)Leak project: Numerical modeling for the design of a CO2 injection experiment in the saturated zone of the Saint-Emilion (France) site
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