Abstract: In our previous works (Baykin and Golovin 2016, 2017) it is shown that inhomogeneity of the permeability of a reservoir might play a significant role in the choice of the direction of the hydraulic fracture propagation. This effect was demonstrated using the fully coupled model of the hydraulic fracture in the poroelastic medium under the restriction on the geometry of the fracture similar to the one used in the Khristianovich–Geertsma–de Klerk model. In present paper, we extend our observations to a model of the planar 3D hydraulic fracture in the inhomogeneous poroelastic medium. In a series of numerical experiments we demonstrate that, depending on the permeability contrast of different parts of a layered reservoir, the hydraulic fracture propagates either within the low-permeable or the high-permeable zones of the reservoir. This behaviour is explained by the non-uniform action of the backstress that is formed on the fracture walls due to the pressure of the pore fluid.

Cite: Baykin A.N. , Golovin S.V.
Application of the Fully Coupled Planar 3D Poroelastic Hydraulic Fracturing Model to the Analysis of the Permeability Contrast Impact on Fracture Propagation
Rock Mechanics and Rock Engineering. 2018. V.51. N10. P.3205-3217. DOI: 10.1007/s00603-018-1575-1 WOS Scopus РИНЦ OpenAlex

Dates:

Submitted:	Sep 30, 2017
Accepted:	Aug 13, 2018
Published print:	Aug 27, 2018

Identifiers:

Web of science:	WOS:000483950100015
Scopus:	2-s2.0-85053034117
Elibrary:	35721487
OpenAlex:	W2888854492

Citing:

DB	Citing
Scopus	30
Web of science	26
Elibrary	30
OpenAlex	29

Altmetrics: