A coupled phase-field and reactive-transport framework for fracture propagation in poroelastic media

We present a novel approach to model hydro-chemo-mechanical responses in rock formations subject to fracture propagation within chemically active rock formations. The framework developed integrates the mechanisms of reactive transport, fluid flow and transport in porous media, and phase-field modell...

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Published inScientific reports Vol. 12; no. 1; pp. 17819 - 15
Main Authors Clavijo, Santiago Pena, Addassi, Mouadh, Finkbeiner, Thomas, Hoteit, Hussein
Format Journal Article
LanguageEnglish
Published London Nature Publishing Group UK 24.10.2022
Nature Publishing Group
Nature Portfolio
Subjects
639/301/1034/1037
704/172/169/209
Carbon dioxide
Carbon sequestration
Chemical reactions
Deformation
Equilibrium
Fluid flow
Humanities and Social Sciences
Hydraulic fracturing
Hydraulics
Mathematical models
Mechanical failure
multidisciplinary
Partial differential equations
Porosity
Porous media
Propagation
Rocks
Science
Science (multidisciplinary)
Online AccessGet full text
ISSN2045-2322
2045-2322
DOI10.1038/s41598-022-22684-1

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Abstract We present a novel approach to model hydro-chemo-mechanical responses in rock formations subject to fracture propagation within chemically active rock formations. The framework developed integrates the mechanisms of reactive transport, fluid flow and transport in porous media, and phase-field modelling of fracture propagation in poroelastic media. The solution approach integrates the geochemical package PHREEQC with a finite-element open-source platform, FEniCs. The PHREEQC solver is used to calculate the localized chemical reaction, including solid dissolution/precipitation. The resulting solid weakening by chemical damage is estimated from the reaction-induced porosity change. The proposed coupled model was verified with previous numerical results and applied to a synthetic case exhibiting hydraulic fracturing enhanced with chemical damage. Simulation results suggest that mechanical failure could be accelerated in the presence of ongoing chemical processes due to rock weakening and porosity changes, allowing the nucleation, growth, and development of fractures.
AbstractList We present a novel approach to model hydro-chemo-mechanical responses in rock formations subject to fracture propagation within chemically active rock formations. The framework developed integrates the mechanisms of reactive transport, fluid flow and transport in porous media, and phase-field modelling of fracture propagation in poroelastic media. The solution approach integrates the geochemical package PHREEQC with a finite-element open-source platform, FEniCs. The PHREEQC solver is used to calculate the localized chemical reaction, including solid dissolution/precipitation. The resulting solid weakening by chemical damage is estimated from the reaction-induced porosity change. The proposed coupled model was verified with previous numerical results and applied to a synthetic case exhibiting hydraulic fracturing enhanced with chemical damage. Simulation results suggest that mechanical failure could be accelerated in the presence of ongoing chemical processes due to rock weakening and porosity changes, allowing the nucleation, growth, and development of fractures.
Abstract We present a novel approach to model hydro-chemo-mechanical responses in rock formations subject to fracture propagation within chemically active rock formations. The framework developed integrates the mechanisms of reactive transport, fluid flow and transport in porous media, and phase-field modelling of fracture propagation in poroelastic media. The solution approach integrates the geochemical package PHREEQC with a finite-element open-source platform, FEniCs. The PHREEQC solver is used to calculate the localized chemical reaction, including solid dissolution/precipitation. The resulting solid weakening by chemical damage is estimated from the reaction-induced porosity change. The proposed coupled model was verified with previous numerical results and applied to a synthetic case exhibiting hydraulic fracturing enhanced with chemical damage. Simulation results suggest that mechanical failure could be accelerated in the presence of ongoing chemical processes due to rock weakening and porosity changes, allowing the nucleation, growth, and development of fractures.
We present a novel approach to model hydro-chemo-mechanical responses in rock formations subject to fracture propagation within chemically active rock formations. The framework developed integrates the mechanisms of reactive transport, fluid flow and transport in porous media, and phase-field modelling of fracture propagation in poroelastic media. The solution approach integrates the geochemical package PHREEQC with a finite-element open-source platform, FEniCs. The PHREEQC solver is used to calculate the localized chemical reaction, including solid dissolution/precipitation. The resulting solid weakening by chemical damage is estimated from the reaction-induced porosity change. The proposed coupled model was verified with previous numerical results and applied to a synthetic case exhibiting hydraulic fracturing enhanced with chemical damage. Simulation results suggest that mechanical failure could be accelerated in the presence of ongoing chemical processes due to rock weakening and porosity changes, allowing the nucleation, growth, and development of fractures.We present a novel approach to model hydro-chemo-mechanical responses in rock formations subject to fracture propagation within chemically active rock formations. The framework developed integrates the mechanisms of reactive transport, fluid flow and transport in porous media, and phase-field modelling of fracture propagation in poroelastic media. The solution approach integrates the geochemical package PHREEQC with a finite-element open-source platform, FEniCs. The PHREEQC solver is used to calculate the localized chemical reaction, including solid dissolution/precipitation. The resulting solid weakening by chemical damage is estimated from the reaction-induced porosity change. The proposed coupled model was verified with previous numerical results and applied to a synthetic case exhibiting hydraulic fracturing enhanced with chemical damage. Simulation results suggest that mechanical failure could be accelerated in the presence of ongoing chemical processes due to rock weakening and porosity changes, allowing the nucleation, growth, and development of fractures.
ArticleNumber 17819
Author Finkbeiner, Thomas
Hoteit, Hussein
Addassi, Mouadh
Clavijo, Santiago Pena
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  fullname: Hoteit, Hussein
  organization: King Abdullah University of Science and Technology (KAUST)
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Snippet We present a novel approach to model hydro-chemo-mechanical responses in rock formations subject to fracture propagation within chemically active rock...
Abstract We present a novel approach to model hydro-chemo-mechanical responses in rock formations subject to fracture propagation within chemically active rock...
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SubjectTerms 639/301/1034/1037
704/172/169/209
Carbon dioxide
Carbon sequestration
Chemical reactions
Deformation
Equilibrium
Fluid flow
Humanities and Social Sciences
Hydraulic fracturing
Hydraulics
Mathematical models
Mechanical failure
multidisciplinary
Partial differential equations
Porosity
Porous media
Propagation
Rocks
Science
Science (multidisciplinary)
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Title A coupled phase-field and reactive-transport framework for fracture propagation in poroelastic media
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Volume 12
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