A reduced model for Darcy’s problem in networks of fractures

Subsurface flows are influenced by the presence of faults and large fractures which act as preferential paths or barriers for the flow. In literature models were proposed to handle fractures in a porous medium as objects of codimension 1. In this work we consider the case of a network of intersectin...

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Published in	ESAIM. Mathematical modelling and numerical analysis Vol. 48; no. 4; pp. 1089 - 1116
Main Authors	Formaggia, Luca, Fumagalli, Alessio, Scotti, Anna, Ruffo, Paolo
Format	Journal Article
Language	English
Published	Les Ulis EDP Sciences 01.07.2014 Société de Mathématiques Appliquées et Industrielles (SMAI) / EDP
Subjects	65N30 76S05 86A60 Contamination Fault lines fractured porous media Mathematical models Mathematics Numerical analysis Partial differential equations Permeability Reduced models Simulation Studies Theorems XFEM fractured porous media reduce model finite element method XFEM
Online Access	Get full text
ISSN	0764-583X 2822-7840 1290-3841 2804-7214
DOI	10.1051/m2an/2013132

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Abstract	Subsurface flows are influenced by the presence of faults and large fractures which act as preferential paths or barriers for the flow. In literature models were proposed to handle fractures in a porous medium as objects of codimension 1. In this work we consider the case of a network of intersecting fractures, with the aim of deriving physically consistent and effective interface conditions to impose at the intersection between fractures. This new model accounts for the angle between fractures at the intersections and allows for jumps of pressure across intersections. This fact permits to describe the flow when fractures are characterized by different properties more accurately with respect to other models that impose pressure continuity. The main mathematical properties of the model, derived in the two-dimensional setting, are analyzed. As concerns the numerical discretization we allow the grids of the fractures to be independent, thus in general non-matching at the intersection, by means of the extended finite element method (XFEM). This increases the flexibility of the method in the case of complex geometries characterized by a high number of fractures.
AbstractList	Subsurface flows are influenced by the presence of faults and large fractures which act as preferential paths or barriers for the flow. In literature models were proposed to handle fractures in a porous medium as objects of codimension 1. In this work we consider the case of a network of intersecting fractures, with the aim of deriving physically consistent and effective interface conditions to impose at the intersection between fractures. This new model accounts for the angle between fractures at the intersections and allows for jumps of pressure across intersections. This fact permits to describe the flow when fractures are characterized by different properties more accurately with respect to other models that impose pressure continuity. The main mathematical properties of the model, derived in the two-dimensional setting, are analyzed. As concerns the numerical discretization we allow the grids of the fractures to be independent, thus in general non-matching at the intersection, by means of the extended finite element method (XFEM). This increases the flexibility of the method in the case of complex geometries characterized by a high number of fractures.
Author	Fumagalli, Alessio Ruffo, Paolo Scotti, Anna Formaggia, Luca
Author_xml	– sequence: 1 givenname: Luca surname: Formaggia fullname: Formaggia, Luca organization: MOX - Dipartimento di Matematica “F. Brioschi” – Politecnico di Milano - via Bonardi 9, 20133 Milan, Italy – sequence: 2 givenname: Alessio surname: Fumagalli fullname: Fumagalli, Alessio organization: MOX - Dipartimento di Matematica “F. Brioschi” – Politecnico di Milano - via Bonardi 9, 20133 Milan, Italy – sequence: 3 givenname: Anna surname: Scotti fullname: Scotti, Anna organization: MOX - Dipartimento di Matematica “F. Brioschi” – Politecnico di Milano - via Bonardi 9, 20133 Milan, Italy – sequence: 4 givenname: Paolo surname: Ruffo fullname: Ruffo, Paolo organization: ENI Spa – Exploration and Production Division – 5° Palazzo Uffici, Room 4046 E, GEBA Dept. - via Emilia 1, San Donato Milanese, 20097 (MI), Italy
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SubjectTerms	65N30 76S05 86A60 Contamination Fault lines fractured porous media Mathematical models Mathematics Numerical analysis Partial differential equations Permeability Reduced models Simulation Studies Theorems XFEM
Title	A reduced model for Darcy’s problem in networks of fractures
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