Pascal Houel scite author profile

Résumé -Propriétés pétrophysiques du Dogger carbonaté dans le Secteur PICOREF (Sud Oil & Gas Science and Technology -Rev. IFP, Vol. 65 (2010), No. 3, pp. 405-434 Copyright © 2010, Institut français du pétrole DOI: 10.2516/ogst/2010002 (1) PIégeage du CO 2 dans des REservoirs géologiques en France. CO 2 Storage in the Struggle against Climate ChangeLe stockage du CO 2 au service de la lutte contre le changement climatique

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Selection and Characterization of Geological Sites able to Host a Pilot-Scale CO₂Storage in the Paris Basin (GéoCarbone-PICOREF)

Brosse

Badinier

Blanchard

et al. 2010

Oil Gas Sci. Technol. – Rev. IFP

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Résumé -Choix et caractérisation de sites géologiques propices à l'installation d'un pilote pour le stockage de CO 2 dans le bassin de Paris (GéoCarbone-PICOREF) -Le projet GéoCarbone-PICOREF avait pour objectif de caractériser des sites propices à la réalisation d'un pilote national de stockage du CO 2 en réservoir géologique perméable. Deux types de réservoir ont été examinés : des aquifères profonds, et des gisements d'hydrocarbures en voie d'épuisement. Les sites devaient être choisis de manière que le pilote puisse tester des problématiques qui concernent les futurs stockages de grande taille. GéoCarbone-PICOREF D o s s i e rOil & Gas Science and Technology -Rev. IFP, Vol. 65 (2010), No. 3 376 Après avoir retraité 750 km de lignes sismiques, et avoir assemblé celles-ci selon six coupes calées sur des données de puits, on a précisé sur la Zone régionale :-les grandes caractéristiques des aquifères concernés ; -la localisation des failles ; -la continuité des couches très peu perméables situées au-dessus des réservoirs. Ces études ont permis de choisir un "Secteur", d'environ 70 × 70 km, au sein duquel on a ensuite affiné l'investigation géologique : 450 km supplémentaires de lignes sismiques, collecte exhaustive des données de puits, caractérisation fine des propriétés réservoir. Des observations de terrain ont été faites sur des roches équivalentes portées à l'affleurement. Un modèle géologique et informatique complet du Secteur a été construit à partir de ces données. Il permet de générer des maillages pour la simulation de divers comportements attendus suite à l'injection de CO 2 (déplacement et dissipation du gaz dans les couches réservoir, modification des pressions et des contraintes, déformation mécanique des terrains, interaction entre l'eau acidifiée et les minéraux, etc.

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Diagenetic effects of compaction on reservoir properties: The case of early callovian “Dalle Nacrée” formation (Paris basin, France)

Nader

Champenois

Barbier

et al. 2016

Journal of Geodynamics

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Coupling Basin and Reservoir Simulators for an Improved CO2 Injection Flow Model

et al. 2014

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The goal of this work is to model the present basin-scale groundwater flow of the Paris basin with a basin modelling approach and to use it to initialise a reservoir model for CO 2 injection. It is part of the ULTimateCO2 FP7 European funded project which aims to significantly enhance our knowledge of specific processes that may affect the long-term fate of geologically stored CO 2 .Basin models simulate the history of sedimentary basins through time by coupling geological events such as deposition, erosion, compaction, structural deformation and subsurface flow simulation. In order to construct the basin model of the Paris Basin in IFPEN basin software TemisFlow®, several types of data were gathered. The current surface topography and 11 horizons representing the top of selected main geological layers (from basement to surface) were constructed from outcrop boundaries, wells and isobath maps. Seven erosion maps for the main unconformities recorded in the Paris Basin were also constructed to complete the burial history of the sedimentary basin. TemisFlow® computes pressure, temperature and salinity fields over the basin history up to the present-day. The final state of the basin simulation is then used as initial state of the reservoir numerical model (Coores TM ). The latter is used to simulate the injection of CO 2 and its effects on the pressure field for instance.

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Pascal Houel

Geodynamic control on carbonate diagenesis: Petrographic and isotopic investigation of the Upper Jurassic formations of the Paris Basin (France)

Petrophysical Properties of the Middle Jurassic Carbonates in the PICOREF Sector (South Champagne, Paris Basin, France)

Selection and Characterization of Geological Sites able to Host a Pilot-Scale CO₂Storage in the Paris Basin (GéoCarbone-PICOREF)

Diagenetic effects of compaction on reservoir properties: The case of early callovian “Dalle Nacrée” formation (Paris basin, France)

Coupling Basin and Reservoir Simulators for an Improved CO2 Injection Flow Model

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Pascal Houel

Geodynamic control on carbonate diagenesis: Petrographic and isotopic investigation of the Upper Jurassic formations of the Paris Basin (France)

Petrophysical Properties of the Middle Jurassic Carbonates in the PICOREF Sector (South Champagne, Paris Basin, France)

Selection and Characterization of Geological Sites able to Host a Pilot-Scale CO2Storage in the Paris Basin (GéoCarbone-PICOREF)

Diagenetic effects of compaction on reservoir properties: The case of early callovian “Dalle Nacrée” formation (Paris basin, France)

Coupling Basin and Reservoir Simulators for an Improved CO2 Injection Flow Model

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Selection and Characterization of Geological Sites able to Host a Pilot-Scale CO₂Storage in the Paris Basin (GéoCarbone-PICOREF)