Discrete element method simulation of the growth and efficiency of multiple hydraulic fractures simultaneously-induced from two horizontal wells
Tóm tắt
Từ khóa
Tài liệu tham khảo
Adachi J, Siebrits E, Peirce A, Desroches J (2007) Computer simulation of hydraulic fractures. Int J Rock Mech Min 44(5):739–757
Al-Busaidi A, Hazzard J, Young R (2005) Distinct element modeling of hydraulically fractured Lac du Bonnet granite. J Geophys Res-Sol Ea (1978–2012): 110(B6)
Bello RO, Wattenbarger RA (2010) Multi-stage hydraulically fractured horizontal shale gas well rate transient analysis. In: North Africa technical conference and exhibition. Society of Petroleum Engineers
Bruno MS (1994) Micromechanics of stress-induced permeability anisotropy and damage in sedimentary rock. Mech Mater 18(1):31–48
Cundall PA (2001) discontinuous future for numerical modelling in geomechanics? Proc ICE-Geotech Eng 149(1):41–47
Damjanac B, Cundall P (2016) Application of distinct element methods to simulation of hydraulic fracturing in naturally fractured reservoirs. Comput Geotech 71:283–294
Duan K, Kwok CY (2015) Discrete element modeling of anisotropic rock under Brazilian test conditions. Int J Rock Mech Min 78(0):46–56
Duan K, Kwok CY, Tham LG (2015) Micromechanical analysis of the failure process of brittle rock. Int J Numer Anal Methods Geomech 39(6):618–634
Duan K, Kwok CY, Pierce M (2016) Discrete element method modeling of inherently anisotropic rocks under uniaxial compression loading. Int J Numer Anal Methods Geomech 40(8):1150–1183
Duan K, Kwok CY, Wu W, Jing L (2018) DEM modeling of hydraulic fracturing in permeable rock: influence of viscosity, injection rate and in situ states. Acta Geotech 13(5):1187–1202
Duan K, Kwok CY, Zhang QY, Shang JL (2020) On the initiation, propagation and reorientation of simultaneously-induced multiple hydraulic fractures. Comput Geotech 117:103226
Goodfellow SD, Nasseri MHB, Maxwell SC, Young RP (2015) Hydraulic fracture energy budget: Insights from the laboratory. Geophys Res Lett 42(9):3179–3187
Hammes U, Hamlin HS, Ewing TE (2011) Geologic analysis of the Upper Jurassic Haynesville Shale in east Texas and west Louisiana. AAPG Bull 95(10):1643–1666
Hazzard JF, Young RP (2000) Simulating acoustic emissions in bonded-particle models of rock. Int J Rock Mech Min 37(5):867–872
Hazzard JF, Young RP, Maxwell SC (2000) Micromechanical modeling of cracking and failure in brittle rocks. J Geophys Res-Sol Ea 105(B7):16683–16697
Hofmann H, Babadagli T, Yoon JS, Zimmermann G (2016) Multi-branched growth of fractures in shales for effective reservoir contact: A particle based distinct element modeling study. J Nat Gas Sci Eng 35(Pt A):509–521
Ishida T, Aoyagi K, Niwa T et al (2012) Acoustic emission monitoring of hydraulic fracturing laboratory experiment with supercritical and liquid CO2. Geophys Res Lett 39(16)
Itasca (2008) PFC2D particle flow code in 2 dimensions. 4.0 ed. Minneapolis
Ivars DM, Pierce ME, Darcel C et al (2011) The synthetic rock mass approach for jointed rock mass modelling. Int J Rock Mech Min 48(2):219–244
Jain AK, Juanes R (2009) Preferential Mode of gas invasion in sediments: Grain-scale mechanistic model of coupled multiphase fluid flow and sediment mechanics. J Geophys Res-Sol Ea 114(B8)
Koyama T, Jing L (2007) Effects of model scale and particle size on micro-mechanical properties and failure processes of rocks—A particle mechanics approach. Eng Anal Bound Elem 31(5):458–472
Kwok CY, Duan K, Pierce M (2020) Modeling hydraulic fracturing in jointed shale formation with the use of fully coupled discrete element method. Acta Geotech 15:245–264
Lecampion B, Desroches J (2015) Simultaneous initiation and growth of multiple radial hydraulic fractures from a horizontal wellbore. J Mech Phys Solids 82:235–258
Li L, Holt RM (2002) Particle scale reservoir mechanics. Oil Gas Sci Technol - Rev IFP 57(5):525–538
Maxwell S, Urbancic T, Steinsberger N, Zinno R (2002) Microseismic imaging of hydraulic fracture complexity in the Barnett shale. In: SPE annual technical conference and exhibition
Miller CK, Waters GA, Rylander EI (2011) Evaluation of production log data from horizontal wells drilled in organic shales. In: North American unconventional gas conference and exhibition. society of petroleum engineers
Nagel N, Gil I, Sanchez-Nagel M, Damjanac B (2011) Simulating hydraulic fracturing in real fractured rock—overcoming the limits of pseudo 3D models. In: Paper SPE 140480 presented at the SPE hydraulic fracturing technology conference and exhibition, The Woodlands, TX, pp 24–26
Peirce A, Bunger A (2015) Interference fracturing: nonuniform distributions of perforation clusters that promote simultaneous growth of multiple hydraulic fractures. SPE-163860-PA 20(02):384–395
Peng P, Ju Y, Wang Y, Wang S, Gao F (2017) Numerical analysis of the effect of natural microcracks on the supercritical CO2 fracturing crack network of shale rock based on bonded particle models. Int J Numer Anal Methods Geomech 41(18):1992–2013
Pope C, Peters B, Benton T, Palisch T (2009) Haynesville shale-one operator’s approach to well completions in this evolving play. In: SPE annual technical conference and exhibition. Society of Petroleum Engineers
Potyondy DO (2007) Simulating stress corrosion with a bonded-particle model for rock. Int J Rock Mech Min 44(5):677–691
Potyondy DO (2012) A flat-jointed bonded-particle material for hard rock. In: 46th U.S. rock mechanics/geomechanics symposium. American Rock Mechanics Association, Chicago, IL, p 10
Potyondy DO, Cundall PA (2004) A bonded-particle model for rock. Int J Rock Mech Min 41(8):1329–1364
Schöpfer MP, Childs C (2013) The orientation and dilatancy of shear bands in a bonded particle model for rock. Int J Rock Mech Min 57:75–88
Schöpfer MP, Abe S, Childs C, Walsh JJ (2009) The impact of porosity and crack density on the elasticity, strength and friction of cohesive granular materials: Insights from DEM modelling. Int J Rock Mech Min Sci 46:250
Shimizu H, Murata S, Ishida T (2011) The distinct element analysis for hydraulic fracturing in hard rock considering fluid viscosity and particle size distribution. Int J Rock Mech Min 48(5):712–727
Sneddon I (1946) The distribution of stress in the neighbourhood of a crack in an elastic solid. Proc R Soc Lond A Math Phys Sci 187(1009):229–260
Sobhaniaragh B, Mansur W, Peters F (2016) Three-dimensional investigation of multiple stage hydraulic fracturing in unconventional reservoirs. J Pet Sci Eng 146:1063–1078
Sobhaniaragh B, Mansur W, Peters F (2018) The role of stress interference in hydraulic fracturing of horizontal wells. Int J Rock Mech Min 106:153–164
Sone H, Zoback MD (2013) Mechanical properties of shale-gas reservoir rocks—Part 1: Static and dynamic elastic properties and anisotropy. Geophysics 78(5):D381–D392
Spain DR, Gil IR, Sebastian HM, et al (2015) Geo-Engineered completion optimization: An integrated, multi-disciplinary approach to improve stimulation efficiency in unconventional shale reservoirs. SPE Middle East Unconventional Resources Conference and Exhibition. Society of Petroleum Engineers
Wang T, Xu D, Elsworth D et al (2016) Distinct element modeling of strength variation in jointed rock masses under uniaxial compression. Geomech Geophys Geo-Energ Geo-Resour 2:11–24
Warpinski N, Wolhart S, Wright C (2001) Analysis and prediction of microseismicity induced by hydraulic fracturing. In: SPE annual technical conference and exhibition. Society of Petroleum Engineers
Yoon J, Zimmermann G, Zang A (2015) Numerical investigation on stress shadowing in fluid injection-induced fracture propagation in naturally fractured geothermal reservoirs. Rock Mech Rock Eng 48(4):1439–1454
Zhang B, Liu J, Wang SG et al (2018) Impact of the distance between pre-existing fracture and wellbore on hydraulic fracture propagation. J Nat Gas Sci Eng 57:155–165
Zhao X, Young P (2011) Numerical modeling of seismicity induced by fluid injection in naturally fractured reservoirs. Geophysics. 76(6):WC167–WC180
Zhou J, Jin Y, Chen M (2010) Experimental investigation of hydraulic fracturing in random naturally fractured blocks. Int J Rock Mech Min 47(7):1193–1199