A finite element approach to the simulation of hydraulic fractures with lag

A finite element approach to the simulation of hydraulic fractures with lag

Summary We presented a finite‐element‐based algorithm to simulate plane‐strain, straight hydraulic fractures in an impermeable elastic medium. The algorithm accounts for the nonlinear coupling between the fluid pressure and the crack opening and separately tracks the evolution of the crack tip and t...

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Veröffentlicht in:International journal for numerical and analytical methods in geomechanics 2013-06, Vol.37 (9), p.993-1015
Hauptverfasser: Hunsweck, Michael J., Shen, Yongxing, Lew, Adrian J.
Format: Artikel
Sprache:eng
Schlagworte:
74S Mètodes numèrics
Algorithms
Anàlisi numèrica
Applied sciences
Buildings. Public works
Computation methods. Tables. Charts
Computational fluid dynamics
Computer simulation
Elasticitat
Elasticity
Exact sciences and technology
finite element
Fluid flow
fluid lag
Fluids
Fracture mechanics
hydraulic fracture
Hydraulic fracturing
Hydraulics
Matemàtiques i estadística
Mathematical analysis
Mètodes numèrics
Resistència de materials
Strength of materials
Structural analysis. Stresses
Àrees temàtiques de la UPC
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Zusammenfassung:Summary We presented a finite‐element‐based algorithm to simulate plane‐strain, straight hydraulic fractures in an impermeable elastic medium. The algorithm accounts for the nonlinear coupling between the fluid pressure and the crack opening and separately tracks the evolution of the crack tip and the fluid front. It therefore allows the existence of a fluid lag. The fluid front is advanced explicitly in time, but an implicit strategy is needed for the crack tip to guarantee the satisfaction of Griffith's criterion at each time step. We enforced the coupling between the fluid and the rock by simultaneously solving for the pressure field in the fluid and the crack opening at each time step. We provided verification of our algorithm by performing sample simulations and comparing them with two known similarity solutions. Copyright © 2012 John Wiley & Sons, Ltd.
ISSN:0363-9061
1096-9853
DOI:10.1002/nag.1131