Using Geomechanical Method to Predict Tectonic Fractures in Low-Permeability Sandstone Reservoirs
First author:Feng Jianwei(1979-),male,Linqu County, Shandong Province,Associate professor. Research areas include structural geology and geomechanics.E-mail:Linqu_fengjw@126.com
Received date: 2016-04-25
Revised date: 2016-08-24
Online published: 2016-09-20
Supported by
Foundation item:Project supported by the National Natural Science Foundation of China “Multiphase evolution and quantitative characterization of fracture networks with different filling degree in tight sandstone”(No.41572124)
Copyright
Understanding and interpreting the timing, location, orientation, and intensity of natural fractures within a geological structure are commonly important to both exploration and production planning activities of low-porosity and low-permeability carbonate reservoirs. In this study, we explore the application of comprehensive geomechanical methods to quantitatively characterize the fracture parameters based on Strain Energy Density Theory, such as linear fracture density and volume fracture density. This study approach is based on the idea that energy generated by tectonic stress on brittle sandstone,which can be distinguished fracture surface energy, friction energy dissipation and residual strain energy and natural fractures can be interpreted or inferred from geomechanical-model-derived strains. For this analysis, we model an extension and compression compound fault block developed in a mechanically stratified sandstone and shale sequence because mechanics experimental data and drilling data exist that can be directly compared with model results.However, the results show that the approach and our study conclusion are independent of the specified structural geometry, which can correlate fracture parameters in different stages with different tectonic activities, and finally build and visualize fracture networks in sandstone. The presence or absence of filling minerals in fractures is shown to strongly control the destruction and transformation of low-permeability sandstone, and this control possesses crucial implications for interpreting fracture aperture and reservoir flow simulation.
Jianwei Feng , Qiqiang Ren , Ke Xu . Using Geomechanical Method to Predict Tectonic Fractures in Low-Permeability Sandstone Reservoirs[J]. Advances in Earth Science, 2016 , 31(9) : 946 -967 . DOI: 10.11867/j.issn.1001-8166.2016.09.0946
| [1] | Nelson R A.Geologic Analysis of Naturally Fractured Reservoirs. Second Edition[M]. Boston, Massachusetts:Gulf Professional Publishing,2001. |
| [2] | Florez-Niño J M, Aydin A, Mavko G, et al. Fault and fracture systems in a fold and thrust belt: An example from Bolivia[J]. AAPG Bulletin,2005, 89(4):471-493. |
| [3] | Lonergan L.Fractured Reservoirs[M]. London: Geological Society Special Publication,2007:270-285. |
| [4] | Smart K J, Ferrill D A, Morris A P, et al. Geomechanical modeling of stress and strain evolution during contractional fault-related folding[J]. Tectonophysics, 2012,576/577:171-196. |
| [5] | Price N J.Mechanics of jointing in rocks[J]. Geological Magazine, 1959, 96(2):149-167. |
| [6] | Stearns D W.Certain aspects of fracture in naturally deformed rocks[R]∥Riecker R E, ed. NSF Advanced Science Seminar in Rock Mechanics: Bedford, Massachusetts.Air Force Cambridge Research Laboratories Special Report,1968: 97-118. |
| [7] | Narr W, Schechter D W, Thompson B L.Naturally Fractured Reservoir Characterization[M]. Richardson, Texas: Society of Petroleum Engineers,2006:112. |
| [8] | Ackermann R V, Schlische R W, Withjack M O.The geometric and statistical evolution of normal fault systems: An experimental study of the effects of mechanical layer thickness on scaling laws[J]. Journal of Structural Geology, 2001, 23(11):1 803-1 819. |
| [9] | Lin Xiubin, Chen Hanlin, Cheng Xiaogan, et al.Conceptual models for fracturing in fault related folds[J]. Mining Science & Technology,2010, 20(1):103-108. |
| [10] | Zeng Lianbo, Wang Hongjun, Lei Gong, et al.Impacts of the tectonic stress field on natural gas migration and accumulation: A case study of the Kuqa Depression in the Tarim Basin, China[J]. Marine & Petroleum Geology,2010, 27(7):1 616-1 627. |
| [11] | Zhao Wentao, Hou Guiting, Sun Xiongwei, et al.Influence of layer thickness and lithology on the fracture growth of clastic rock in East Kuqa[J]. Geotectonica et Metallogenia, 2013, 37(4):603-610. |
| [12] | Ringenbach J C, Pinet N, Delteil J.Structural variety and tectonic evolution of strike-slip basins related to the Philippine Fault System, northern Luzon, Philippines[J]. Tectonics, 1993, 12(1):187-203. |
| [13] | Little T A, Roberts A P.Distribution and mechanism of Neogene to present-day vertical axis rotations, Pacific-Australian Plate Boundary Zone, South Island, New Zealand[J]. Journal of Geophysical Research Atmospheres,1997, 102(B9):20 447-20 468. |
| [14] | Ismail-Zadeh A, Mueller B, Schubert G.Three-dimensional numerical modeling of contemporary mantle flow and tectonic stress beneath the earthquake-prone southeastern Carpathians based on integrated analysis of seismic, heat flow, and gravity data[J]. Physics of the Earth & Planetary Interiors,2005, 149(1/2):81-98. |
| [15] | Corbett K, Friedman M, Spang J.Fracture development and mechanical stratigraphy of Austin Chalk, Texas[J]. AAPG Bulletin,1987, 71(1):17-28. |
| [16] | Hanks C L, Krumhardt A P, Lorenz J, et al.Lithologic and structural controls on natural fracture distribution and behavior within the Lisburne group, northeastern Brooks range and North Slope subsurface, Alaska[J]. AAPG Bulletin,1997, 81(10):1 700-1 720. |
| [17] | Wennberg O P, Svana T, Azizzadeh M, et al.Fracture intensity vs. mechanical stratigraphy in platform top carbonates: The Aquitanian of the Asmari Formation, Khaviz Anticline, Zagros, SW Iran[J]. Petroleum Geoscience,2006, 12(3):235-246. |
| [18] | Zeng Lianbo, Li Yungang.Tectonic fractures in tight gas sandstones of the upper triassic xujiahe formation in the western Sichuan Basin, China[J]. Acta Geologica Sinica,2010,84(5):1 229-1 238. |
| [19] | Lisle. Detection of zones of abnormal strains in structures using Gaussian curvature analysis[J]. AAPG Bulletin, 1994, 78(12):1 811-1 819. |
| [20] | Hennings P H, Olson J E, Thompson L B.Combining outcrop data and three-dimensional structural models to characterize fractured reservoirs: An example from Wyoming[J]. AAPG Bulletin,2000, 84(6):830-849. |
| [21] | Jolley S J.Structurally Complex Reservoirs[M]. London: Geological Society Special Publication,2007, 292:185-202. |
| [22] | Ju Wei, Hou Guiting, Zhang Bo.Insights into the damage zones in fault-bend folds from geomechanical models and field data[J]. Tectonophysics,2014,610:182-194. |
| [23] | Masaferro J L, Bulnes M, Poblet J, et al.Kinematic evolution and fracture prediction of the Valle Morado structure inferred from 3-D seismic data, Salta Province, northwest Argentina[J]. Aapg Bulletin,2003, 87(7):1 083-1 104. |
| [24] | Erickson S G, Jamison W R.Viscous-plastic finite-element models of fault-bend folds[J]. Journal of Structural Geology,1995, 17(4):561-573. |
| [25] | Gudmundsson A, Simmenes T H, Larsen B, et al.Effects of internal structure and local stresses on fracture propagation, deflection, and arrest in fault zones[J]. Journal of Structural Geology, 2010, 32(11):1 643-1 655. |
| [26] | He Jiankun, Lu Shuangjiang, Wang Weimin.Three-dimensional mechanical modeling of the GPS velocity field around the northeastern Tibetan plateau and surrounding regions[J]. Tectonophysics,2013, 584: 257-266. |
| [27] | Hou Guiting, Wang Chuancheng, Li Jianghai, et al.Late Paleoproterozoic extension and a paleostress field reconstruction of the North China Craton[J]. Tectonophysics, 2006,422:89-98. |
| [28] | Ju Wei, Hou Guiting, Hari K R.Mechanics of mafic dyke swarms in the Deccan Large Igneous Province: Palaeostress field modelling[J]. Journal of Geodynamics, 2013, 66(2):79-91. |
| [29] | Smart K J, Wyrick D Y, Ferrill D A.Discrete element modeling of Martian pit crater formation in response to extensional fracturing and dilational normal faulting[J]. Journal of Geophysical Research, 2011, 116(E4):383-392. |
| [30] | Yin An.Mechanics of monoclinal systems in the Colorado Plateau during the Laramide orogeny[J].Journal of Geophysical Research Atmospheres1994, 992(B11):22 043-22 058. |
| [31] | Brigadnov I A.Regularization of non-convex strain energy function for non-monotonic stress-strain relation in the Hencky elastic plastic model[J]. Acta Mechanica, 2015, 226(8):2681-2691. |
| [32] | Price N J.Fault and Joint Development in Brittle and Semi-brittle rock[M]. Oxford: Pergamon Press, 1966. |
| [33] | Wen Shipeng, Li Detong.Simulation technology on structural joints of reservoirs[J]. Journal of China University of Petroleum (Edition of Natural Science),1996,20:17-24. |
| [34] | Song Huizhen.A attempt of quantitative prediction of natural crack on brittle rock reservoir[J]. Journal of Geomechanics,1999,5:76-84. |
| [35] | Wang Ren, Ding Zhongyi, Yin Youquan, et al.Solid Mechanics[M]. Beijing: Geological Publishing House, 1979. |
| [36] | Zhou Xingui, Cao Chengjie, Yuan Jiayin Yuan.The status and prospects of quantitative structural fracture prediction of reservoirs and research of oil and gas seepage law[J].Advances in Earth Science,2003,18: 398-404. |
| [37] | Tan Chengxuan, Wang Lianjie.An approach to the application of 3-D tectonic stress field numerical simulation in structural fissure analysis of the oil-gas-bearing basin[J]. Acta Geoscientia Sinica,2009, 20:392-394. |
| [38] | Dai Junsheng, Feng Jianwei, Li Ming, et al.Discussion on the extension law of structural fracture in sand-mud interbed formation[J]. Earth Science Frontiers,2011,18(2): 277-283. |
| [39] | Wang Zhenliang, Zhang Likuan, Shi Lizhi, et al.Genesis analysis and quantitative evaluation on abnormal high fluid pressure in the Kela2 Gas field, Kuqa depression, Tarim basin[J]. Geological Review,2005,51(1): 55-63. |
| [40] | Allen M B, Vincent S J.Structural features of northern Tarim Basin: implications for region tectonics and petroleum traps: Discussion[J]. AAPG Bulletin,1999,83:1 279-1 283. |
| [41] | Zeng Lianbo, Li Yuegang.Tectonic fractures in tight gas sandstones of the upper triassic Xujiahe Formation in the Western Sichuan Basin, China[J]. Acta Geologica Sinica,2010, 84(5):1 229-1 238. |
| [42] | Zhang Zhongpei, Wang Qingchen, Wang Yi, et al.Brittle structure sequence in the Kuqa Depression and its implications to the tectonic paleostress[J]. Earth Science—Journal of China University of Geosciences,2006,31(3):310-316. |
| [43] | Zheng Chunfang, Hou Guiting, Zhan Yan, et al.An analysis of Cenozoic tectonic stress fields in the Kuqa depression[J]. Geological Bulletin of China,2016,35(1):130-138. |
| [44] | Jia Chengzao.Characteristics of the Mesozoic and Cenozoic Structures and Petroleum Occurrence in the Tarim Basin[M]. Beijing: Petroleum Industry Press,2004. |
| [45] | Zhao Wentao, Hou Guiting, Sun Xiongwei, et al.Influence of layer thickness and lithology on the fracture growth of clastic rock in East Kuqa[J]. Geotectonica et Metallogenia,2013,37(4):603-610. |
| [46] | Saeidi O, Rasouli V, Vaneghi R G, et al.A modified failure criterion for transversely isotropic rocks[J]. Geoscience Frontiers,2014, 5(2):215-225. |
| [47] | Jaeger J C.Shear failure of transversely isotropic rock[J]. Geology Magazine, 1960, 97:65-72. |
| [48] | Chen Bo,Tian Chonglu.To establish and research of three-dimensional geological and mathematical model for quantitative prediction of structural joint[J].Acta Petrolei Sinica,1998,19:50-54. |
| [49] | Hoek E, Brown E T.Underground Excavations in Rock[M]. London: Institution of Mining and Metallurgy,1980. |
| [50] | Jaeger C, Cook N, Zimmerman R W.Fundamentals of Rock Mechanics[M]. London: Blackwell Publishing, 1979. |
| [51] | Brace W F, Kohlstedt D L.Limits on lithospheric stress imposed by laboratory experiments[J]. Journal of Geophysical Research Atmospheres,1980, 85(B11):6 248-6 252. |
| [52] | Dai Junsheng, Wang Bifeng, Ma Zhanrong.Research on cracking principles of brittle low-permeability Sands[J].Xinjiang Petroleum Geology,2007,28(4):393-395. |
| [53] | Hoek E.Estimating Mohr-Coulomb friction and cohesion values from the Hoek-Brown failure criterion[J]. International Journal of Rock Mechanics & Mining Sciences & Geomechanics Abstracts,1990, 27(3):227-229. |
| [54] | Griffith A A.The Phenomena of Rupture and Flow in Solids Trans[J]. Philosophical Transactions of the Royal Society A Mathematical Physical & Engineering Sciences,1921, 221(582/593):163-198. |
| [55] | Gale J E.The Effects of Fracture Type (Indeed Versus Natural) on the Stress-Fracture Closure Permeability Relationships, The 23rd U.S Symposium on Rock Mechanics[C].Berkeley, California: American Rock Mechanics Association, 1982. |
| [56] | Xia Jixiang, Wang Xiufei.Experimental study of fracturing process of sandstone in uniaxial compression[J].Journal of Xi’an Jiaotong University,1982,4:40-46. |
| [57] | Lonergan L.Fractured Reservoirs[M]. London: Geological Society Special Publication,2007:270-285. |
| [58] | Beer F P, Johnston E R, Dewolf J T, et al.Mechanics of Materials, 6th edition[M]. New York: McGraw-Hill Companies,2012. |
| [59] | Barton N, Choubey V.The shear strength of rock and rock joints in theory and practice[J].Rock Mechanics,1977,10:1-54. |
| [60] | Huang Fuqiong, Ouyang Jian, Xiao Chenwen, et al.A quantitative description method for cores and tested samples fractures[J]. Well Logging Technology,1997, 21(5): 356-360. |
| [61] | Willis-Richards J, Watanabe K,Takahashi H. Progress toward a stochastic rock mechanics model of engineered geothermal systems[J].Journal of Geophysical Research Atmospheres,1996, 1 011(B8):17 481-17 496. |
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