Notice détaillée
Titre
GEL
Formal Name (French)
Laboratoire de géo-énergie
Formal Name (English)
Geo-energy Laboratory
Lab Manager
Lecampion, Brice
Group ID
U13064
Auteurs affilié
Blum, Thomas
Brede, Swann
Ciardo, Federico
Fakhretdinova, Regina
Gallyamov, Emil
Gremaud, Dominique
Gupta, Ankit
Lecampion, Brice
Liardon, Tristan
Lima E Silva, Pedro
Liu, Dong
Loginov, Dmitry
Lu, Guanyi
Momeni, Seyyedmaalek
Moukhtari, Fatima-Ezzahra
Möri, Andreas
Nikolskiy, Dmitry
Peruzzo, Carlo
Sarma, Antareep Kumar
Stoudmann, Joël
Suter, Anne-Françoise
Sáez, Alexis
Talebkeikhah, Mohsen
Zia, Haseeb
Brede, Swann
Ciardo, Federico
Fakhretdinova, Regina
Gallyamov, Emil
Gremaud, Dominique
Gupta, Ankit
Lecampion, Brice
Liardon, Tristan
Lima E Silva, Pedro
Liu, Dong
Loginov, Dmitry
Lu, Guanyi
Momeni, Seyyedmaalek
Moukhtari, Fatima-Ezzahra
Möri, Andreas
Nikolskiy, Dmitry
Peruzzo, Carlo
Sarma, Antareep Kumar
Stoudmann, Joël
Suter, Anne-Françoise
Sáez, Alexis
Talebkeikhah, Mohsen
Zia, Haseeb
Institut
IIC
Faculté
ENAC
Note
Members of GEL-unit
Lien extérieur
http://gel.epfl.ch/page-124450.html
Publications
A semi-infinite hydraulic fracture driven by a shear-thinning fluid
Accounting for near-wellbore fracture behavior to unlock the potential of unconventional gas wells
High-fidelity numerical analysis of experimental tests on concrete specimens via mixed strain-displacement FE
Hydraulic fracture growth & turbulent flow
Hydraulic fracture growth in transversely isotropic rocks
In-situ property determination
Method to optimize perforations for hydraulic fracturing in anisotropic earth formations
Modeling the growth of planar 3D hydraulic fractures in the presence of in-situ stress contrast
Numerical simulation of hydraulic fracture growth: advances & remaining challenges
The tip region of a hydraulic fracture driven by a power law fluid
Voir toutes les publications (257)
Accounting for near-wellbore fracture behavior to unlock the potential of unconventional gas wells
High-fidelity numerical analysis of experimental tests on concrete specimens via mixed strain-displacement FE
Hydraulic fracture growth & turbulent flow
Hydraulic fracture growth in transversely isotropic rocks
In-situ property determination
Method to optimize perforations for hydraulic fracturing in anisotropic earth formations
Modeling the growth of planar 3D hydraulic fractures in the presence of in-situ stress contrast
Numerical simulation of hydraulic fracture growth: advances & remaining challenges
The tip region of a hydraulic fracture driven by a power law fluid
Voir toutes les publications (257)
Le document apparaît dans
Authorities > Lab