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Geomechanics in reservoir simulation / Institut Français du Pétrole (France)

Public ISBD Titre : Geomechanics in reservoir simulation Titre original : Géomécanique en simulation de réservoirs Type de document : texte imprimé Auteurs : Institut Français du Pétrole (France), Auteur ; Pascal Longuemare, Editeur scientifique Editeur : Paris : Technip Année de publication : 2002 Importance : 191 p. Présentation : ill. Format : 27 cm ISBN/ISSN/EAN : 978-2-7108-0833-6 Note générale : Numéro spécial de : "Oil & gas science and technology = Revue de l'Institut français du pétrole", ISSN 1294-4475, vol. 57, n° 5. Notes bibliogr. Langues : Anglais (eng) Mots-clés : Soil  mechanics Fluides,  Dynamique  des  --  Modèles  mathématiques  --  Actes  de  congrès Sols,  Mécanique  des  --  Modèles  mathématiques  --  Actes  de  congrès Gisements  pétrolifères,  Étude  des  --  Modèles  mathématiques  --  Actes  de  congrès Réservoirs  (lacs) Index. décimale : 624.13 Géotechnique. Mécanique des sols. Ouvrages en terres Résumé : It is well established that geomechanics plays a significant role in problems such as wellbore stability, hydraulic fracturing and subsidence. In recent years, there has been growing awareness of the importance of the link between fluid flow and geomechanics in the management of stress-sensitive reservoirs. Geomechanical processes in and around a reservoir caused by depletion, cold-water injection or steam injection can have a significant impact on productivity and recovery. Prediction of stress evolution is essential for proper reservoir management. The aggregation of data from many field cases, a grasp of complex physical phenomena and advances in numerical methods provide the means for understanding the geomechanical behavior of reservoirs in challenging environments. Note de contenu : Contents *Geomechanical influences in water injection projects: an overview *Large-scale three-dimensional geomechanical modeling of *Reservoirs: examples from california and the deepwater gulf of mexico *Subsidence delay: field observations and analysis *Impact of induced thermal stresses during circulation tests in an engineered fractured geothermal reservoir: example of the soultz-sous-forêts european hot fractured rock geothermal project, rhine graben, France. *Geomechanics in reservoir simulation: overview of coupling methods and field case study *Iterative coupled analysis of geomechanics and fluid flow for rock compaction in reservoir simulation *Numerical simulation of three-phase flow in deforming fractured reservoirs *A preconditioned conjugate gradient based algorithm for coupling geomechanical-reservoir simulations *Particle scale reservoir mechanics *Analysis of deformation measurements for reservoir management *Reservoir parameters quantification from seismic monitoring integrating geomechanics *Well modeling: an overview *Simulation of borehole breakouts using FRACOD2D *Compaction localization in porous sandstone: implications for reservoir mechanics Geomechanics in reservoir simulation = Géomécanique en simulation de réservoirs [texte imprimé] / Institut Français du Pétrole (France), Auteur ; Pascal Longuemare, Editeur scientifique . - Paris : Technip, 2002 . - 191 p. : ill. ; 27 cm. ISBN : 978-2-7108-0833-6 Numéro spécial de : "Oil & gas science and technology = Revue de l'Institut français du pétrole", ISSN 1294-4475, vol. 57, n° 5. Notes bibliogr. Langues : Anglais (eng) Mots-clés : Soil  mechanics Fluides,  Dynamique  des  --  Modèles  mathématiques  --  Actes  de  congrès Sols,  Mécanique  des  --  Modèles  mathématiques  --  Actes  de  congrès Gisements  pétrolifères,  Étude  des  --  Modèles  mathématiques  --  Actes  de  congrès Réservoirs  (lacs) Index. décimale : 624.13 Géotechnique. Mécanique des sols. Ouvrages en terres Résumé : It is well established that geomechanics plays a significant role in problems such as wellbore stability, hydraulic fracturing and subsidence. In recent years, there has been growing awareness of the importance of the link between fluid flow and geomechanics in the management of stress-sensitive reservoirs. Geomechanical processes in and around a reservoir caused by depletion, cold-water injection or steam injection can have a significant impact on productivity and recovery. Prediction of stress evolution is essential for proper reservoir management. The aggregation of data from many field cases, a grasp of complex physical phenomena and advances in numerical methods provide the means for understanding the geomechanical behavior of reservoirs in challenging environments. Note de contenu : Contents *Geomechanical influences in water injection projects: an overview *Large-scale three-dimensional geomechanical modeling of *Reservoirs: examples from california and the deepwater gulf of mexico *Subsidence delay: field observations and analysis *Impact of induced thermal stresses during circulation tests in an engineered fractured geothermal reservoir: example of the soultz-sous-forêts european hot fractured rock geothermal project, rhine graben, France. *Geomechanics in reservoir simulation: overview of coupling methods and field case study *Iterative coupled analysis of geomechanics and fluid flow for rock compaction in reservoir simulation *Numerical simulation of three-phase flow in deforming fractured reservoirs *A preconditioned conjugate gradient based algorithm for coupling geomechanical-reservoir simulations *Particle scale reservoir mechanics *Analysis of deformation measurements for reservoir management *Reservoir parameters quantification from seismic monitoring integrating geomechanics *Well modeling: an overview *Simulation of borehole breakouts using FRACOD2D *Compaction localization in porous sandstone: implications for reservoir mechanics

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Code-barres	Cote	Support	Localisation	Section	Disponibilité	Etat_Exemplaire
047406	624.13 INS	Papier	Bibliothèque Centrale	Génie Civil	Disponible