Experimental study on an alternative oil stimulation technique for tight gas reservoirs based on dynamic shock waves generated by Pulsed Arc Electrohydraulic Discharges

Journal of Petroleum Science and Engineering

Volumn 88-89, Issue , 2012, Pages 67-74

  Chen, Wen ^a   Maurel, Olivier ^a   Reess, Thierry ^a   De Ferron, Antoine Silvestre ^a   La Borderie, Christian ^a   Pijaudier Cabot, Gilles ^a   Rey Bethbeder, Franck ^b   Jacques, Antoine ^b  

^a UNIVERSITÉ DE PAU ET DES PAYS DE L'ADOUR   (France)

^b TOTAL   (France)

Author keywords

Concrete; Damage; Fracture; Microstructure; Sandstone; Shock waves

Indexed keywords

DAMAGE; DYNAMIC MECHANICAL; ELECTRICAL ENERGY; EVOLUTION OF THE MICROSTRUCTURE; EXPERIMENTAL STUDIES; GOOD CORRELATIONS; HOLLOW CYLINDER SPECIMENS; IN-SITU; INTRINSIC PERMEABILITY; LABORATORY EXPERIMENTS; ON DYNAMICS; PERMEABILITY INCREASE; PRESSURE WAVES; PULSED ARC ELECTROHYDRAULIC DISCHARGE; STIMULATION TECHNIQUES; STRESS LEVELS; TIGHT GAS RESERVOIRS; X-RAY TOMOGRAPHY;

CONCRETES; FRACTURE; GAS PERMEABILITY; HYDRAULIC FRACTURING; HYDRAULICS; MICROSTRUCTURE; OIL WELLS; PETROLEUM RESERVOIR ENGINEERING; SANDSTONE; SHOCK WAVES;

LOW PERMEABILITY RESERVOIRS;

CONCRETE; DAMAGE MECHANICS; EXPERIMENTAL STUDY; HYDRAULIC FRACTURE; HYDROCARBON RESERVOIR; MICROSTRUCTURE; OIL WELL; PERMEABILITY; SANDSTONE; SHOCK WAVE;

EID: 84862778362     PISSN: 09204105     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.petrol.2012.01.009     Document Type: Article

References (7)

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