A geometrically based method for predicting stress-induced fracture aperture and flow in discrete fracture networks
暂无分享,去创建一个
[1] G. H. Mäkel,et al. The modelling of fractured reservoirs: constraints and potential for fracture network geometry and hydraulics analysis , 2007 .
[2] J. Latham,et al. Effects of geomechanical changes on the validity of a discrete fracture network representation of a realistic two-dimensional fractured rock , 2014 .
[3] B. Lawn. Fracture of Brittle Solids by Brian Lawn , 1993 .
[4] M. Cacas,et al. Nested geological modelling of naturally fractured reservoirs , 2001, Petroleum Geoscience.
[5] Stephen E. Laubach,et al. Fracture-aperture size—frequency, spatial distribution, and growth processes in strata-bounded and non-strata-bounded fractures, Cambrian Mesón Group, NW Argentina , 2013 .
[6] J. Kemeny,et al. Estimating three-dimensional rock discontinuity orientation from digital images of fracture traces , 2003 .
[7] N. J. Hardebol,et al. DigiFract: A software and data model implementation for flexible acquisition and processing of fracture data from outcrops , 2013, Comput. Geosci..
[8] M. Blunt,et al. Role of geomechanically grown fractures on dispersive transport in heterogeneous geological formations. , 2011, Physical review. E, Statistical, nonlinear, and soft matter physics.
[9] M. Osborne,et al. Comparison of overpressure magnitude resulting from the main generating mechanisms , 2004 .
[10] Stephen E. Laubach,et al. A scale-independent approach to fracture intensity and average spacing measurement , 2006 .
[11] J. Olson,et al. Natural fracture characterization in tight gas sandstones: Integrating mechanics and diagenesis , 2009 .
[12] Nick Barton,et al. Non-linear behaviour for naturally fractured carbonates and frac-stimulated gas-shales , 2014 .
[13] D. Pollard,et al. 8 – THEORETICAL DISPLACEMENTS AND STRESSES NEAR FRACTURES IN ROCK: WITH APPLICATIONS TO FAULTS, JOINTS, VEINS, DIKES, AND SOLUTION SURFACES , 1987 .
[14] N. Barton,et al. Strength, deformation and conductivity coupling of rock joints , 1985 .
[15] K. Bisdom,et al. Calibrating discrete fracture-network models with a carbonate three-dimensional outcrop fracture network: Implications for naturally fractured reservoir modeling , 2014 .
[16] N. Warpinski,et al. Regional Fractures I: A Mechanism for the Formation of Regional Fractures at Depth in Flat-Lying Reservoirs (1) , 1991 .
[17] S. G. Roberts,et al. Numerical simulation of multi-phase fluid flow in structurally complex reservoirs , 2007 .
[18] Stephen E. Laubach,et al. A universal power-law scaling exponent for fracture apertures in sandstones , 2014 .
[19] Y. Leroy,et al. Mechanical constraints on the chronology of fracture activation in folded Devonian sandstone of the western Moroccan Anti-Atlas , 2003 .
[20] Hamidreza M. Nick,et al. Upscaling two-phase flow in naturally fractured reservoirs , 2009 .
[21] Philipp Blum,et al. Evaluation of sampling methods for fracture network characterization using outcrops , 2013 .
[22] Julia F. W. Gale,et al. Natural fractures in the Barnett Shale and their importance for hydraulic fracture treatments , 2007 .
[23] S. Laubach,et al. Non-linear growth kinematics of opening-mode fractures , 2015 .
[24] D. Pollard,et al. A new conceptual fold-fracture model including prefolding joints, based on the Emigrant Gap anticline, Wyoming , 2004 .
[25] P. Hennings,et al. Complex fracture development related to stratigraphic architecture: Challenges for structural deformation prediction, Tensleep Sandstone at the Alcova anticline, Wyoming , 2009 .
[26] Stephen E. Laubach,et al. Are open fractures necessarily aligned with maximum horizontal stress , 2004 .
[27] B. Atkinson. Subcritical crack growth in geological materials , 1984 .
[28] Christopher H. Scholz,et al. Relation between vein length and aperture , 1995 .
[29] D. Pollard,et al. Imaging 3-D fracture networks around boreholes , 2002 .
[30] J. A. Simo,et al. Structure of the Alima and associated anticlines in the foreland basin of the southern Atlas Mountains, Tunisia , 2011 .
[31] N. Barton,et al. The shear strength of rock joints in theory and practice , 1977 .
[32] Christopher C. Pain,et al. Simulation of Solute Transport Through Fractured Rock: A Higher-Order Accurate Finite-Element Finite-Volume Method Permitting Large Time Steps , 2010 .
[33] S. Rogers. Critical stress-related permeability in fractured rocks , 2003, Geological Society, London, Special Publications.
[34] C. Scholz. A note on the scaling relations for opening mode fractures in rock , 2010 .
[35] B. Berkowitz. Characterizing flow and transport in fractured geological media: A review , 2002 .
[36] M. Zoback,et al. Fluid flow along potentially active faults in crystalline rock: Geology , 1995 .
[37] Stefan M. Luthi,et al. Multi-scale fracture network analysis from an outcrop analogue: A case study from the Cambro-Ordovician clastic succession in Petra, Jordan , 2012 .
[38] Nick Barton,et al. Some effects of scale on the shear strength of joints , 1980 .
[39] Olivier Bour,et al. A note on the angular correction applied to fracture intensity profiles along drill core , 2006 .
[40] Guozhu Zhao,et al. Analysis of minor fractures associated with joints and faulted joints , 1991 .
[41] A. Paluszny,et al. Impact of fracture development on the effective permeability of porous rocks as determined by 2-D discrete fracture growth modeling , 2010 .
[42] Jon E. Olson,et al. Sublinear scaling of fracture aperture versus length: An exception or the rule? , 2003 .
[43] Stephen E. Laubach,et al. A 48 m.y. history of fracture opening, temperature, and fluid pressure: Cretaceous Travis Peak Formation, East Texas basin , 2010 .
[44] R. Marrett,et al. Extent of power-law scaling for natural fractures in rock , 1999 .
[45] Daniel Reif,et al. Quantitative structural analysis using remote sensing data: Kurdistan, northeast Iraq , 2011 .
[46] Stephen E. Laubach,et al. Modeling Coupled Fracture-Matrix Fluid Flow in Geomechanically Simulated Fracture Networks , 2005 .
[47] Well test simulation through Discrete Fracture Network modelling in a fractured carbonate reservoir , 2004, Petroleum Geoscience.
[48] Fulvio Tonon,et al. Experimental Validation of Modified Barton’s Model for Rock Fractures , 2010 .
[49] J. S. Y. Wang,et al. Validity of cubic law for fluid flow in a deformable rock fracture. Technical information report No. 23 , 1979 .
[50] J. Latham,et al. Polyaxial stress-induced variable aperture model for persistent 3D fracture networks , 2015 .
[51] Louise H. Kellogg,et al. From outcrop to flow simulation: Constructing discrete fracture models from a LIDAR survey , 2011 .
[52] S. Laubach. Practical approaches to identifying sealed and open fractures , 2003 .
[53] Nick Barton,et al. An improved model for hydromechanical coupling during shearing of rock joints , 2001 .
[54] Stefano Tavani,et al. Building a virtual outcrop, extracting geological information from it, and sharing the results in Google Earth via OpenPlot and Photoscan: An example from the Khaviz Anticline (Iran) , 2014, Comput. Geosci..
[55] Jon E. Olson,et al. Comment on “A note on the scaling relations for opening mode fractures in rock” by C.H. Scholz , 2011 .
[56] A. Lavenu,et al. Relationships between fracture patterns, geodynamics and mechanical stratigraphy in Carbonates (South-East Basin, France) , 2012 .
[57] Stephen E. Laubach,et al. Aperture-size scaling variations in a low-strain opening-mode fracture set, Cozzette Sandstone, Colorado , 2009 .
[58] C. Lima,et al. Stress magnitude and orientation in the Potiguar Basin, Brazil: Implications on faulting style and reactivation , 2013 .
[59] P. Segall. Formation and growth of extensional fracture sets , 1984 .
[60] D. Reeves,et al. Dependence of displacement-length scaling relations for fractures and deformation bands on the volumetric changes across them , 2008 .