Discrete Fracture Network Modeling of Hydraulic Stimulation

1. Front Matter

   Pages i-x

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2. Introduction

   • M. W. McClure, R. N. Horne

   Pages 1-11

3. Methodology

   • M. W. McClure, R. N. Horne

   Pages 13-47

4. Results

   • M. W. McClure, R. N. Horne

   Pages 49-72

5. Discussion

   • M. W. McClure, R. N. Horne

   Pages 73-84

6. Conclusions

   • M. W. McClure, R. N. Horne

   Pages 85-89

Discrete Fracture Network Modeling of Hydraulic Stimulation describes the development and testing of a model that couples fluid-flow, deformation, friction weakening, and permeability evolution in large, complex two-dimensional discrete fracture networks.  The model can be used to explore the behavior of hydraulic stimulation in settings where matrix permeability is low and preexisting fractures play an important role, such as Enhanced Geothermal Systems and gas shale.  Used also to describe pure shear stimulation, mixed-mechanism stimulation, or pure opening-mode stimulation. A variety of novel techniques to ensure efficiency and realistic model behavior are implemented, and tested.  The simulation methodology can also be used as an efficient method for directly solving quasistatic fracture contact problems.  Results show how stresses induced by fracture deformation during stimulation directly impact the mechanism of propagation and the resulting fracture network.

• Boundary Element Method
• Discrete Fracture Modeling
• Displacement Discontinuity Method
• Geomechanics
• Hydraulic Fracturing
• economic geology
• structural geology

• , Petroleum and Geosystems Engineering, University of Texas at Austin, Austin, USA

  Mark W. McClure

• , Energy Resources Engineering, Stanford University, Stanford, USA

  Roland N. Horne

Mark McClure is Assistant Professor in the Department of Petroleum and Geosystems Engineering at University of Texas, Austin. He is winner of the Hank Ramey Award for Outstanding Research and Service to the Department of Energy Resources Engineering in 2012 at Stanford.  His article, "Investigation of Injection-Induced Seismicity using a Coupled Fluid Flow and Rate and State Friction Model" published in Geophysics, won best paper from the Society of Exploration Geologists in 2011. Roland N. Horne is the Thomas Davies Barrow Professor of Earth Sciences at Stanford University, and was the Chairman of the Department of Petroleum Engineering from 1995 to 2006. He holds BE, PhD and DSc degrees from the University of Auckland, New Zealand, all in Engineering Science. Horne has been an SPE Distinguished Lecturer, and has been awarded the SPE Distinguished Achievement Award for Petroleum Engineering Faculty, the Lester C. Uren Award, and the John Franklin Carl Award. Horne is a member of the U.S. National Academy of Engineering and is also an SPE Honorary Member. He is also 2010-2013 President of the International Geothermal Association.

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