Microseismic observations and modeling at Utah FORGE indicate a tensile hydraulic fracture for cross-linked gel injection but support a possible fluid-induced dilatant shear fracture for slickwater injection.
and Germanovich, Leonid N
2 Pith papers cite this work. Polarity classification is still indexing.
2
Pith papers citing it
citation-role summary
method 1
citation-polarity summary
years
2026 2roles
method 1polarities
use method 1representative citing papers
Coupled CFD-DEM simulations show frictional instability arises from coupled evolution of pore pressure, drainage, dilation/compaction, hydraulic connectivity, and granular fabric rather than pore pressure alone.
citing papers explorer
-
Modeling Utah FORGE 2022 EGS Hydraulic Stimulations: Tensile Hydraulic Fractures versus Fluid-Induced Dilatant Shear Ruptures
Microseismic observations and modeling at Utah FORGE indicate a tensile hydraulic fracture for cross-linked gel injection but support a possible fluid-induced dilatant shear fracture for slickwater injection.
-
Investigating frictional instability due to pressurization in granular media: insights from coupled computational fluid dynamics discrete element method
Coupled CFD-DEM simulations show frictional instability arises from coupled evolution of pore pressure, drainage, dilation/compaction, hydraulic connectivity, and granular fabric rather than pore pressure alone.