Peculiarities of hydraulic fracture propagation in media with heterogeneous toughness: The energy balance, elastic battery and fluid backflow

Daniel Peck; Gaspare Da Fies; Ivan Virshylo; Gennady Mishuris

doi:10.1016/j.ijengsci.2025.104237

Peculiarities of hydraulic fracture propagation in media with heterogeneous toughness: The energy balance, elastic battery and fluid backflow

Daniel Peck^*, Gaspare Da Fies, Ivan Virshylo, Gennady Mishuris

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This paper investigates hydraulic fracture in a medium with periodic heterogeneous toughness. Results for the plane-strain (KGD) model are analysed. The energy distribution as the fracture propagates is examined, along with the evolution of the crack geometry. It is shown that the solid layer acts as an elastic battery, discharging to promote rapid propagation through weaker material layers. The limiting case of an infinite-length crack is discussed. The velocity of the fluid throughout the crack length is also considered. For fractures in high-toughness material it is shown that fluid backflow can occur, with its profile dependent on the toughness distribution. The implications of these findings are discussed.

Iaith wreiddiol	Saesneg
Rhif yr erthygl	104237
Nifer y tudalennau	21
Cyfnodolyn	International Journal of Engineering Science
Cyfrol	211
Dyddiad ar-lein cynnar	10 Maw 2025
Dynodwyr Gwrthrych Digidol (DOIs)	https://doi.org/10.1016/j.ijengsci.2025.104237
Statws	E-gyhoeddi cyn argraffu - 10 Maw 2025

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10.1016/j.ijengsci.2025.104237Trwydded: CC BY

ArticleFersiwn derfynol wedi’i chyhoeddi, 4.28 MBTrwydded: CC BY
Supplementary materialData, 3.21 MBTrwydded: CC BY

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EffectFact: Effective Factorisation techniques for matrix-functions: Developing theory, numerical methods and impactful applications
Mishuris, G. (Prif Ymchwilydd)
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title = "Peculiarities of hydraulic fracture propagation in media with heterogeneous toughness: The energy balance, elastic battery and fluid backflow",

abstract = "This paper investigates hydraulic fracture in a medium with periodic heterogeneous toughness. Results for the plane-strain (KGD) model are analysed. The energy distribution as the fracture propagates is examined, along with the evolution of the crack geometry. It is shown that the solid layer acts as an elastic battery, discharging to promote rapid propagation through weaker material layers. The limiting case of an infinite-length crack is discussed. The velocity of the fluid throughout the crack length is also considered. For fractures in high-toughness material it is shown that fluid backflow can occur, with its profile dependent on the toughness distribution. The implications of these findings are discussed.",

keywords = "Hydraulic fracture, Heterogeneous medium, Material toughness, Energy distribution, Fluid velocity",

author = "Daniel Peck and {Da Fies}, Gaspare and Ivan Virshylo and Gennady Mishuris",

note = "{\textcopyright} 2025 The Authors. Published by Elsevier Ltd",

year = "2025",

month = mar,

day = "10",

doi = "10.1016/j.ijengsci.2025.104237",

language = "English",

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journal = "International Journal of Engineering Science",

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AU - Peck, Daniel

AU - Da Fies, Gaspare

AU - Virshylo, Ivan

AU - Mishuris, Gennady

PY - 2025/3/10

Y1 - 2025/3/10

N2 - This paper investigates hydraulic fracture in a medium with periodic heterogeneous toughness. Results for the plane-strain (KGD) model are analysed. The energy distribution as the fracture propagates is examined, along with the evolution of the crack geometry. It is shown that the solid layer acts as an elastic battery, discharging to promote rapid propagation through weaker material layers. The limiting case of an infinite-length crack is discussed. The velocity of the fluid throughout the crack length is also considered. For fractures in high-toughness material it is shown that fluid backflow can occur, with its profile dependent on the toughness distribution. The implications of these findings are discussed.

AB - This paper investigates hydraulic fracture in a medium with periodic heterogeneous toughness. Results for the plane-strain (KGD) model are analysed. The energy distribution as the fracture propagates is examined, along with the evolution of the crack geometry. It is shown that the solid layer acts as an elastic battery, discharging to promote rapid propagation through weaker material layers. The limiting case of an infinite-length crack is discussed. The velocity of the fluid throughout the crack length is also considered. For fractures in high-toughness material it is shown that fluid backflow can occur, with its profile dependent on the toughness distribution. The implications of these findings are discussed.

KW - Hydraulic fracture

KW - Heterogeneous medium

KW - Material toughness

KW - Energy distribution

KW - Fluid velocity

U2 - 10.1016/j.ijengsci.2025.104237

DO - 10.1016/j.ijengsci.2025.104237

M3 - Article

SN - 0020-7225

VL - 211

JO - International Journal of Engineering Science

JF - International Journal of Engineering Science

M1 - 104237

ER -

Peculiarities of hydraulic fracture propagation in media with heterogeneous toughness: The energy balance, elastic battery and fluid backflow

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EffectFact: Effective Factorisation techniques for matrix-functions: Developing theory, numerical methods and impactful applications

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