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Dharmendra Kumar, A. Ghassemi (2016)
A three-dimensional analysis of simultaneous and sequential fracturing of horizontal wellsJournal of Petroleum Science and Engineering, 146
D. Dam, C. Pater (2001)
Roughness of Hydraulic Fractures: Importance of In-Situ Stress and Tip ProcessesSpe Journal, 6
Yongliang Wang, Y. Ju, Yongming Yang (2018)
Adaptive Finite Element-Discrete Element Analysis for Microseismic Modelling of Hydraulic Fracture Propagation of Perforation in Horizontal Well considering Pre-Existing FracturesShock and Vibration, 2018
S. Shapiro, C. Dinske (2009)
Fluid‐induced seismicity: Pressure diffusion and hydraulic fracturingGeophysical Prospecting, 57
Mariam Alghannam, Z. Rahim (2014)
Optimizing Spacing of Horizontal, Multistage Fractured Wells in Gas Reservoirs
A. Manríquez, K. Sepehrnoori, A. Cortes (2017)
A novel approach to quantify reservoir pressure along the horizontal section and to optimize multistage treatments and spacing between hydraulic fracturesJournal of Petroleum Science and Engineering, 149
T. Yamashita (1993)
Application of fracture mechanics to the simulation of seismicity and recurrence of characteristic earthquakes on a faultJournal of Geophysical Research, 98
S. Salimzadeh, A. Paluszny, R. Zimmerman (2017)
Three-Dimensional poroelastic effects during hydraulic fracturing in permeable rocksInternational Journal of Solids and Structures, 108
D. Boutt, G. Grasselli, J. Fredrich, B. Cook, John Williams (2006)
Trapping zones: The effect of fracture roughness on the directional anisotropy of fluid flow and colloid transport in a single fractureGeophysical Research Letters, 33
H. Azadi, A. Khoei (2011)
Numerical simulation of multiple crack growth in brittle materials with adaptive remeshingInternational Journal for Numerical Methods in Engineering, 85
A. Ziarani, Cheney Chen, A. Cui, D. Quirk, D. Roney (2014)
Fracture and Wellbore Spacing Optimization in Multistage Fractured Horizontal Wellbores: Learnings from Our Experience on Canadian Unconventional Resources
S. Yuan, Yongliang Wang, K. Ye (2013)
An Adaptive FEM for Buckling Analysis of Nonuniform Bernoulli-Euler Members via the Element Energy Projection TechniqueMathematical Problems in Engineering, 2013
B. Gutenberg, C. Richter (1936)
Magnitude and Energy of EarthquakesNature, 176
G. Howard, C. Fast (1957)
Optimum Fluid Characteristics for Fracture ExtensionDrilling and Production Practice
A. Lisjak, O. Mahabadi, L. He, B. Tatone, P. Kaifosh, S. Haque, G. Grasselli (2018)
Acceleration of a 2D/3D finite-discrete element code for geomechanical simulations using General Purpose GPU computingComputers and Geotechnics
R. Schultz, Gail Atkinson, David Eaton, Yu Gu, Honn Kao (2018)
Hydraulic fracturing volume is associated with induced earthquake productivity in the Duvernay playScience, 359
A. Manríquez (2017)
Stress behavior in the near fracture region between adjacent horizontal wells during multistage fracturing using a coupled stress-displacement to hydraulic diffusivity modelJournal of Petroleum Science and Engineering, 162
J. Hazzard, R. Young (2002)
Moment tensors and micromechanical modelsTectonophysics, 356
M. Hallo, I. Oprsal, L. Eisner, Mohammed Ali (2014)
Prediction of magnitude of the largest potentially induced seismic eventJournal of Seismology, 18
A. Cornejo, V. Mataix, F. Zarate, E. Oñate (2020)
Combination of an adaptive remeshing technique with a coupled FEM–DEM approach for analysis of crack propagation problemsComputational Particle Mechanics, 7
F. Staněk, L. Eisner (2017)
Seismicity Induced by Hydraulic Fracturing in Shales: A Bedding Plane Slip ModelJournal of Geophysical Research: Solid Earth, 122
(2016)
ELFEN TGR user and theory manual
Y. Guglielmi, F. Cappa, J. Avouac, P. Henry, D. Elsworth (2015)
Seismicity triggered by fluid injection–induced aseismic slipScience, 348
A. Peirce, A. Bunger (2015)
Interference fracturing: Nonuniform distributions of perforation clusters that promote simultaneous growth of multiple hydraulic fracturesSpe Journal, 20
Yongliang Wang, Y. Ju, Jialiang Chen, Jin-Su Song (2019)
Adaptive finite element–discrete element analysis for the multistage supercritical CO2 fracturing and microseismic modelling of horizontal wells in tight reservoirs considering pre-existing fractures and thermal-hydro-mechanical couplingJournal of Natural Gas Science and Engineering
Y. Guglielmi, F. Cappa, H. Lançon, J. Janowczyk, J. Rutqvist, C. Tsang, J. Wang (2013)
ISRM Suggested Method for Step-Rate Injection Method for Fracture In-Situ Properties (SIMFIP): Using a 3-Components Borehole Deformation SensorRock Mechanics and Rock Engineering, 47
A. Holland (2013)
Earthquakes Triggered by Hydraulic Fracturing in South‐Central OklahomaBulletin of the Seismological Society of America, 103
T. Hajati, C. Langenbruch, Serge Shapiro (2015)
A statistical model for seismic hazard assessment of hydraulic‐fracturing‐induced seismicityGeophysical Research Letters, 42
M. Profit, M. Dutko, Jianguo Yu, S. Cole, D. Angus, A. Baird (2016)
Complementary hydro-mechanical coupled finite/discrete element and microseismic modelling to predict hydraulic fracture propagation in tight shale reservoirsComputational Particle Mechanics, 3
J. Rutqvist, A. Rinaldi, F. Cappa, G. Moridis (2013)
Modeling of fault reactivation and induced seismicity during hydraulic fracturing of shale-gas reservoirs,Journal of Petroleum Science and Engineering, 107
(2010)
Gas shale permeability: effects of roughness, proppant, fracture offset, and confining pressure
S. Yuan, K. Ye, Yongliang Wang, D. Kennedy, F. Williams (2017)
Adaptive finite element method for eigensolutions of regular second and fourth order Sturm-Liouville problems via the element energy projection techniqueEngineering Computations, 34
R. Davies, S. Mathias, J. Moss, S. Hustoft, L. Newport (2012)
Hydraulic fractures: How far can they go?Marine and Petroleum Geology, 37
Mofazzal Hossain, Md Rahman, S. Rahman (2000)
Hydraulic fracture initiation and propagation: roles of wellbore trajectory, perforation and stress regimesJournal of Petroleum Science and Engineering, 27
X. Bao, D. Eaton (2016)
Fault activation by hydraulic fracturing in western CanadaScience, 354
Maurício Lobão (2007)
Finite element modelling of hydraulic fracture flow in porous media
Yongliang Wang, Y. Ju, Z. Zhuang, Chenfeng Li (2018)
Adaptive finite element analysis for damage detection of non-uniform Euler–Bernoulli beams with multiple cracks based on natural frequenciesEngineering Computations, 35
Zhiyuan Wang, Baojiang Sun, Xiaohui Sun (2016)
Calculation of Temperature in Fracture for Carbon Dioxide FracturingSpe Journal, 21
F. Zarate, A. Cornejo, E. Oñate (2018)
A three-dimensional FEM–DEM technique for predicting the evolution of fracture in geomaterials and concreteComputational Particle Mechanics, 5
W. Ellsworth (2013)
Injection-Induced EarthquakesScience, 341
A. Abdollahipour, M. Marji, A. Bafghi, J. Gholamnejad (2016)
DEM simulation of confining pressure effects on crack opening displacement in hydraulic fracturingInternational journal of mining science and technology, 26
B. Williams (1970)
Fluid Loss from Hydraulically Induced FracturesJournal of Petroleum Technology, 22
T. Yang, Jishan Liu, Wancheng Zhu, D. Elsworth, L. Tham, C. Tang (2007)
A coupled flow-stress-damage model for groundwater outbursts from an underlying aquifer into mining excavationsInternational Journal of Rock Mechanics and Mining Sciences, 44
Y. Ju, Yongliang Wang, Jialiang Chen, F. Gao, Jianguo Wang (2018)
Adaptive finite element-discrete element method for numerical analysis of the multistage hydrofracturing of horizontal wells in tight reservoirs considering pre-existing fractures, hydromechanical coupling, and leak-off effectsJournal of Natural Gas Science and Engineering
K. O'connor, C. Dowding (1992)
HYBRID DISCRETE ELEMENT CODE FOR SIMULATION OF MINING‐INDUCED STRATA MOVEMENTSEngineering Computations, 9
Z. Bažant, M. Salviato, V. Chau, H. Viswanathan, A. Zubelewicz (2014)
Why Fracking WorksJournal of Applied Mechanics, 81
Science, 83
J. Rodway, P. Musílek (2016)
Harvesting-aware energy management for environmental monitoring WSN2016 IEEE 16th International Conference on Environment and Electrical Engineering (EEEIC)
Xi Zhang, R. Jeffrey (2012)
Fluid-driven multiple fracture growth from a permeable bedding plane intersected by an ascending hydraulic fractureJournal of Geophysical Research, 117
A. Munjiza, D. Owen, N. Bićanić (1995)
A combined finite‐discrete element method in transient dynamics of fracturing solidsEngineering Computations, 12
A. Meesters, L. Tolk, W. Peters, R. Hutjes, O. Vellinga, J. Elbers, A. Vermeulen, S. Laan, R. Neubert, H. Meijer, A. Dolman (2012)
Inverse carbon dioxide flux estimates for the NetherlandsJournal of Geophysical Research, 117
A. Paluszny, R. Thomas, M. Saceanu, R. Zimmerman (2020)
Hydro-mechanical interaction effects and channelling in three-dimensional fracture networks undergoing growth and nucleationJournal of rock mechanics and geotechnical engineering, 12
L. Gioiella, E. Tubaldi, F. Gara, L. Dezi, A. Dall'asta (2018)
Stochastic Seismic Analysis and Comparison of Alternative External Dissipative SystemsShock and Vibration, 2018
Dong-jing Xu, S. Peng, S. Xiang, Yunlan He (2017)
A Novel Caving Model of Overburden Strata Movement Induced by Coal MiningEnergies, 10
Haiyan Zhu, Jin-gen Deng, Xiaochun Jin, Lianbo Hu, Bo Luo (2015)
Hydraulic Fracture Initiation and Propagation from Wellbore with Oriented PerforationRock Mechanics and Rock Engineering, 48
Optimized three-dimensional (3D) fracture networks are crucial for multistage hydrofracturing. To better understand the mechanisms controlling potential disasters as well as to predict them in 3D multistage hydrofracturing, some governing factors, such as fluid injection-induced stratal movement, compression between multiple hydraulic fractures, fracturing fluid flow, fracturing-induced microseismic damaged and contact slip events, must be properly simulated via numerical models. This study aims to analyze the stratal movement and microseismic behaviours induced by multistage propagation of 3D multiple hydraulic fractures.Design/methodology/approachAdaptive finite element–discrete element method was used to overcome the limitations of conventional finite element methods in simulating 3D fracture propagation. This new approach uses a local remeshing and coarsening strategy to ensure the accuracy of solutions, reliability of fracture propagation path and computational efficiency. Engineering-scale numerical models were proposed that account for the hydro-mechanical coupling and fracturing fluid leak-off, to simulate multistage propagation of 3D multiple hydraulic fractures, by which the evolution of the displacement, porosity and fracture fields, as well as the fracturing-induced microseismic events were computed.FindingsStratal movement and compression between 3D multiple hydraulic fractures intensify with increasing proximity to the propagating fractures. When the perforation cluster spaces are very narrow, alternate fracturing can improve fracturing effects over those achieved via sequential or simultaneous fracturing. Furthermore, the number and magnitude of microseismic events are directly proportional to the stratal movement and compression induced by multistage propagation of fracturing fracture networks.Originality/valueMicroseismic events induced by multistage propagation of 3D multiple hydraulic fractures and perforation cluster spaces and fracturing scenarios that impact the deformation and compression among fractures in porous rock matrices are well predicted and analyzed.
Engineering Computations: International Journal for Computer-Aided Engineering and Software – Emerald Publishing
Published: Jul 9, 2021
Keywords: 3D multiple hydraulic fractures; Adaptive finite element–discrete element method; Hydro-mechanical coupling; Microseismicity; Multistage propagation; Stratal movement
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