Details
Title
GEL
Formal Name (French)
Laboratoire de géo-énergie
Formal Name (English)
Geo-energy Laboratory
Lab Manager
Lecampion, Brice
Group ID
U13064
Affiliated authors
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
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
Sáez, Alexis
Talebkeikhah, Mohsen
Zia, Haseeb
Institute
IIC
Faculty
ENAC
Note
Members of GEL-unit
Linked resource
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
See complete list of publications (251)
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
See complete list of publications (251)
Record appears in
Authorities > Lab