On the layer crossing problem for a semi-infinite hydraulic fracture Full article
Journal |
Engineering Fracture Mechanics
ISSN: 0013-7944 |
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Output data | Year: 2023, Volume: 293, Article number : 109730, Pages count : DOI: 10.1016/j.engfracmech.2023.109730 | ||||||
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Affiliations |
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Funding (1)
1 | Министерство науки и высшего образования Российской Федерации | FWGG-2022-0002 |
Abstract:
This paper analyses the problem of a semi-infinite fluid-driven fracture propagating through multiple stress layers in a permeable elastic medium. Such a problem represents the tip region of a planar hydraulic fracture. When the hydraulic fracture crosses a stress layer, the use of a standard tip asymptotic solution may lead to a considerable reduction of accuracy, even for the simplest case of a height-contained fracture. In this study, we propose three approaches to incorporate the effect of stress layers into the tip asymptote: non-singular integral formulation, toughness-corrected asymptote, and an ordinary differential equation approximation of the non-singular integral formulation mentioned above. As illustrated in the paper, these approaches for stress-corrected asymptotes differ in computational complexity, the complexity of implementation, and the accuracy of the approximation. In addition, the size of the validity region of the stress-corrected asymptote is evaluated, and it is shown to be greatly reduced relative to the case without layers. In order to address the issue, the stress relaxation factor is introduced. This, in turn, allows for enhancing the accuracy of the layer-crossing computation on a relatively coarse mesh to utilize the stress-corrected asymptote in hydraulic fracturing simulators for the purpose of front tracking.
Cite:
Valov A.V.
, Dontsov E.V.
On the layer crossing problem for a semi-infinite hydraulic fracture
Engineering Fracture Mechanics. 2023. V.293. 109730 . DOI: 10.1016/j.engfracmech.2023.109730 WOS Scopus РИНЦ OpenAlex
On the layer crossing problem for a semi-infinite hydraulic fracture
Engineering Fracture Mechanics. 2023. V.293. 109730 . DOI: 10.1016/j.engfracmech.2023.109730 WOS Scopus РИНЦ OpenAlex
Identifiers:
Web of science: | WOS:001118957800001 |
Scopus: | 2-s2.0-85176961910 |
Elibrary: | 64246898 |
OpenAlex: | W4388564153 |