H54F-03
Modeling the Impact of Fracture Growth on Fluid Displacements in Deformable Porous Media

Friday, 18 December 2015: 16:30
3018 (Moscone West)
David Santillán1, Luis Cueto-Felgueroso1,2 and Ruben Juanes3, (1)Technical University of Madrid, Madrid, Spain, (2)Massachusetts Institute of Technology, Cambridge, MA, United States, (3)MIT Lincoln Laboratory, Lexington, MA, United States
Abstract:
Coupled flow and geomechanics is a critical research challenge in engineering and the geosciences. The flow of a fluid through a deformable porous media is present in manyenvironmental, industrial, and biological processes,such as the removal of pollutants from underground water bodies, enhanced geothermal systems, unconventional hydrocarbon resources or enhanced oil recovery techniques. However, the injection of a fluid can generate or propagate fractures, which are preferential flow paths.

Using numerical simulation, we study the interplay between injection and rock mechanics, and elucidate fracture propagation as a function of injection rate, initial crack topology and mechanical rock properties. Finally, we discuss the role of fracture growth on fluid displacements in porous media.

Figure: An example of fracture (in red) propagated in a porous media (in blue)