[1] 邹才能, 潘松圻, 荆振华, 等. 页岩油气革命及影响[J].石油学报, 2020, 41(1):1-12. ZOU Caineng, PAN Songqi, JING Zhenhua, et al.Shale oil and gas revolution and its impact[J].Acta Petrolei Sinica, 2020, 41(1):1-12. [2] 贾承造, 邹才能, 李建忠, 等.中国致密油评价标准、主要类型、基本特征及资源前景[J].石油学报, 2012, 33(3):343-350. JIA Chengzao, ZOU Caineng, LI Jianzhong, et al.Assessment criteria, main types, basic features and resource prospects of the tight oil in China[J].Acta Petrolei Sinica, 2012, 33(3):343-350. [3] 葸克来, 操应长, 朱如凯, 等.吉木萨尔凹陷二叠系芦草沟组致密油储层岩石类型及特征[J].石油学报, 2015, 36(12):1495-1507. XI Kelai, CAO Yingchang, ZHU Rukai, et al.Rock types and characteristics of tight oil reservoir in Permian Lucaogou Formation, Jimsar sag[J]. Acta Petrolei Sinica, 2015, 36(12):1495-1507. [4] 王越, 陈世悦, 张关龙, 等.咸化湖盆混积岩分类与混积相带沉积相特征——以准噶尔盆地南缘芦草沟组与吐哈盆地西北缘塔尔朗组为例[J].石油学报, 2017, 38(9):1021-1035. WANG Yue, CHEN Shiyue, ZHANG Guanlong, et al.Classifications of mixosedimentite and sedimentary facies characteristics of mixed sedimentary facies belt in saline lacustrine basin:taking examples as the Lucaogou Formation in the south of Junggar Basin and the Taerlang Formation in the northwest of Tuha Basin[J].Acta Petrolei Sinica, 2017, 38(9):1021-1035. [5] 梁世君, 黄志龙, 柳波, 等.马朗凹陷芦草沟组页岩油形成机理与富集条件[J].石油学报, 2012, 33(4):588-594. LIANG Shijun, HUANG Zhilong, LIU Bo, et al.Formation mechanism and enrichment conditions of Lucaogou Formation shale oil from Malang sag, Santanghu Basin[J].Acta Petrolei Sinica, 2012, 33(4):588-594. [6] 马克, 侯加根, 刘钰铭, 等.吉木萨尔凹陷二叠系芦草沟组咸化湖混合沉积模式[J].石油学报, 2017, 38(6):636-648. MA Ke, HOU Jiagen, LIU Yuming, et al.The sedimentary model of saline lacustrine mixed sedimentation in Permian Lucaogou Formation, Jimsar sag[J].Acta Petrolei Sinica, 2017, 38(6):636-648. [7] 王剑, 周路, 刘金, 等.准噶尔盆地吉木萨尔凹陷二叠系芦草沟组酸碱交替成岩作用特征及对页岩储集层的影响[J].石油勘探与开发, 2020, 47(5):898-912. WANG Jian, ZHOU Lu, LIU Jin, et al.Acid-base alternation diagenesis and its influence on shale reservoirs in the Permian Lucaogou Formation, Jimusar sag, Junggar Basin, NW China[J].Petroleum Exploration and Development, 2020, 47(5):898-912. [8] 吴宝成, 李建民, 邬元月, 等.准噶尔盆地吉木萨尔凹陷芦草沟组页岩油上甜点地质工程一体化开发实践[J].中国石油勘探, 2019, 24(5):679-690. WU Baocheng, LI Jianmin, WU Yuanyue, et al.Development practices of geology-engineering integration on upper sweet spots of Lucaogou Formation shale oil in Jimsar sag, Junggar Basin[J].China Petroleum Exploration, 2019, 24(5):679-690. [9] 康毅力, 田键, 罗平亚, 等.致密油藏提高采收率技术瓶颈与发展策略[J].石油学报, 2020, 41(4):467-477. KANG Yili, TIAN Jian, LUO Pingya, et al.Technical bottlenecks and development strategies of enhancing recovery for tight oil reservoirs[J].Acta Petrolei Sinica, 2020, 41(4):467-477. [10] 胥云, 雷群, 陈铭, 等.体积改造技术理论研究进展与发展方向[J].石油勘探与开发, 2018, 45(5):874-887. XU Yun, LEI Qun, CHEN Ming, et al.Progress and development of volume stimulation techniques[J].Petroleum Exploration and Development, 2018, 45(5):874-887. [11] 石林, 史璨, 田中兰, 等.中石油页岩气开发中的几个岩石力学问题[J].石油科学通报, 2019, 4(3):223-232. SHI Lin, SHI Can, TIAN Zhonglan, et al.Several rock mechanics problems in the development of shale gas in PetroChina[J].Petroleum Science Bulletin, 2019, 4(3):223-232. [12] 曾义金.深层页岩气开发工程技术进展[J].石油科学通报, 2019, 4(3):233-241. ZENG Yijin.Progress in engineering technologies for the development of deep shale gas[J].Petroleum Science Bulletin, 2019, 4(3):233-241. [13] BAZAN L W, LARKIN S D, LATTIBEAUDIERE M G, et al.Improving production in the eagle ford shale with fracture modeling, increased conductivity and optimized stage and cluster spacing along the horizontal wellbore[R].SPE 138425, 2010. [14] ZHU J, FORREST J, XIONG Hongjie, et al.Cluster spacing and well spacing optimization using multi-well simulation for the lower Spraberry shale in Midland Basin[R].SPE 187485, 2017. [15] ALIMAHOMED F, MALPANI R, JOSE R, et al.Stacked pay pad development in the Midland Basin[R].SPE 187496, 2017. [16] 赵金洲, 陈曦宇, 李勇明, 等.水平井分段多簇压裂模拟分析及射孔优化[J].石油勘探与开发, 2017, 44(1):117-124. ZHAO Jinzhou, CHEN Xiyu, LI Yongming, et al.Numerical simulation of multi-stage fracturing and optimization of perforation in a horizontal well[J].Petroleum Exploration and Development, 2017, 44(1):117-124. [17] ZHANG Fengshou, HUANG Liuke, YANG Lin, et al.Numerical investigation on the effect of depletion-induced stress reorientation on infill well hydraulic fracture propagation[J].Petroleum Science, 2021. [18] CIPOLLA C L L, WARPINSKI N R R, MAYERHOFER M J J, et al.The relationship between fracture complexity, reservoir properties, and fracture-treatment design[J].SPE Production & Operations, 2010, 25(4):438-452. [19] 侯冰, 陈勉, 李志猛, 等.页岩储集层水力裂缝网络扩展规模评价方法[J].石油勘探与开发, 2014, 41(6):763-768. HOU Bing, CHEN Mian, LI Zhimeng, et al.Propagation area evaluation of hydraulic fracture networks in shale gas reservoirs[J].Petroleum Exploration and Development, 2014, 41(6):763-768. [20] 蒲春生, 郑恒, 杨兆平, 等.水平井分段体积压裂复杂裂缝形成机制研究现状与发展趋势[J].石油学报, 2020, 41(12):1734-1743. PU Chunsheng, ZHENG Heng, YANG Zhaoping, et al.Research status and development trend of the formation mechanism of complex fractures by staged volume fracturing in horizontal wells[J].Acta Petrolei Sinica, 2020, 41(12):1734-1743. [21] HOU Bing, CHANG Zhi, FU Weineng, et al.Fracture initiation and propagation in a deep shale gas reservoir subject to an alternating-fluid-injection hydraulic-fracturing treatment[J].SPE Journal, 2019, 24(4):1839-1855. [22] 刘顺, 何衡, 赵倩云, 等.水力裂缝与天然裂缝交错延伸规律[J].石油学报, 2018, 39(3):320-326. LIU Shun, HE Heng, ZHAO Qianyun, et al.Staggered extension laws of hydraulic fracture and natural fracture[J].Acta Petrolei Sinica, 2018, 39(3):320-326. [23] HOU Bing, ZHANG Ruxin, ZENG Yijin, et al.Analysis of hydraulic fracture initiation and propagation in deep shale formation with high horizontal stress difference[J].Journal of Petroleum Science and Engineering, 2018, 170:231-243. [24] 王燚钊, 侯冰, 王栋, 等.页岩油多储集层穿层压裂缝高扩展特征[J].石油勘探与开发, 2021, 48(2):402-410. WANG Yizhao, HOU Bing, WANG Dong, et al.Features of fracture height propagation in cross-layer fracturing of shale oil reservoirs[J].Petroleum Exploration and Development, 2021, 48(2):402-410. [25] WAN Liming, HOU Bing, MENG Han, et al.Experimental investigation of fracture initiation position and fluid viscosity effect in multi-layered coal strata[J].Journal of Petroleum Science and Engineering, 2019, 182:106310. [26] 周彤, 张士诚, 陈铭, 等.水平井多簇压裂裂缝的竞争扩展与控制[J].中国科学:技术科学, 2019, 49(4):469-478. ZHOU Tong, ZHANG Shicheng, CHEN Ming, et al.Competitive propagation of multi-fractures and their control on multi-clustered fracturing of horizontal wells[J].Scientia Sinica Technologica, 2019, 49(4):469-478. [27] 程万, 蒋国盛, 周治东, 等.水平井中多条裂缝同步扩展时裂缝竞争机制[J].岩土力学, 2018, 39(12):4448-4456. CHENG Wan, JIANG Guosheng, ZHOU Zhidong, et al.Fracture competition of simultaneous propagation of multiple hydraulic fractures in a horizontal well[J].Rock and Soil Mechanics, 2018, 39(12):4448-4456. [28] DONTSOV E V, SUAREZ-RIVERA R.Propagation of multiple hydraulic fractures in different regimes[J].International Journal of Rock Mechanics and Mining Sciences, 2020, 128:104270. [29] WU Kan, OLSON J E.Mechanisms of simultaneous hydraulic- fracture propagation from multiple perforation clusters in horizontal wells[J].SPE Journal, 2016, 21(3):1000-1008. [30] GUPTA P, DUARTE C A.Simulation of non-planar three-dimensional hydraulic fracture propagation[J].International Journal for Numerical and Analytical Methods in Geomechanics, 2014, 38(13):1397-1430. [31] CHEN Zuorong, JEFFREY R G, ZHANG Xi.Numerical modeling of three-dimensional T-shaped hydraulic fractures in coal seams using a cohesive zone finite element model[J].Hydraulic Fracturing Journal, 2015, 2(2):20-37. [32] WHEELER M F, SRINIVASAN S, LEE S, et al.Unconventional reservoir management modeling coupling diffusive zone/phase field fracture modeling and fracture probability maps[R].SPE 193830, 2019. [33] CUNDALL P A.Formulation of a three-dimensional distinct element model-Part I.A scheme to detect and represent contacts in a system composed of many polyhedral blocks[J].International Journal of Rock Mechanics and Mining Sciences & Geomechanics Abstracts, 1988, 25(3):107-116. [34] HART R, CUNDALL P A, LEMOS J.Formulation of a three-dimensional distinct element model-Part II.Mechanical calculations for motion and interaction of a system composed of many polyhedral blocks[J].International Journal of Rock Mechanics and Mining Sciences & Geomechanics Abstracts, 1988, 25(3):117-125. [35] ZHANG Fengshou, YIN Zirui, CHEN Zhaowei, et al.Fault reactivation and induced seismicity during multistage hydraulic fracturing:microseismic analysis and geomechanical modeling[J].SPE Journal, 2020, 25(2):692-711. [36] ZHANG Fengshou, DONTSOV E.Modeling hydraulic fracture propagation and Proppant transport in a two-layer formation with stress drop[J].Engineering Fracture Mechanics, 2018, 199:705-720. [37] YIN Zirui, HUANG Hongwei, ZHANG Fengshou, et al.Three-dimensional distinct element modeling of fault reactivation and induced seismicity due to hydraulic fracturing injection and backflow[J].Journal of Rock Mechanics and Geotechnical Engineering, 2020, 12(4):752-767. [38] 屈平, 申瑞臣, 付利, 等.三维离散元在煤层水平井井壁稳定中的应用[J].石油学报, 2011, 32(1):153-157. QU Ping, SHEN Ruichen, FU Li, et al.Application of the 3D discrete element method in the wellbore stability of coal-bed horizontal wells[J].Acta Petrolei Sinica, 2011, 32(1):153-157. [39] KARATELA E, TAHERI A.Three-dimensional hydro-mechanical model of borehole in fractured rock mass using discrete element method[J].Journal of Natural Gas Science and Engineering, 2018, 53:263-275. [40] MA Liqiang, ZHANG Dongsheng, JING Shengguo, et al.Numerical simulation analysis by solid-liquid coupling with 3DEC of dynamic water crannies in overlying strata[J].Journal of China University of Mining and Technology, 2008, 18(3):347-352. [41] HUANG Liuke, LIU Jianjun, ZHANG Fengshou, et al.3D lattice modeling of hydraulic fracture initiation and near-wellbore propagation for different perforation models[J].Journal of Petroleum Science and Engineering, 2020, 191:107169. [42] LIU Xiaoqiang, QU Zhanqing, GUO Tiankui, et al.Numerical simulation of non-planar fracture propagation in multi-cluster fracturing with natural fractures based on Lattice methods[J].Engineering Fracture Mechanics, 2019, 220:106625. [43] Itasca Consulting Group.3 Dimensional distinct element code user's manual[M].Minneapolis, Minnesota, USA:Itsaca Consulting Group, Inc, 2015. [44] 刘冬冬, 张晨, 罗群, 等.准噶尔盆地吉木萨尔凹陷芦草沟组致密储层裂缝发育特征及控制因素[J].中国石油勘探, 2017, 22(4):36-47. LIU Dongdong, ZHANG Chen, LUO Qun, et al.Development characteristics and controlling factors of natural fractures in Permian Lucaogou Formation tight reservoir in Jimsar sag, Junggar Basin[J].China Petroleum Exploration, 2017, 22(4):36-47. [45] 袁青.准噶尔盆地吉木萨尔凹陷致密油储层裂缝精细表征及甜点评价[D].北京:中国石油大学(北京), 2016. YUAN Qing.Fine description and desert assessment for fractures of tight oil reservoirs in Jimusaer sag of Junngar Basin[D].Beijing:China University of Petroleum, 2016. [46] PALMER I D, LUISKUTTY C T.A model of the hydraulic fracturing process for elongated vertical fractures and comparisons of results with other models[R].SPE 13864, 1985. [47] 金衍, 陈勉, 张旭东.天然裂缝地层斜井水力裂缝起裂压力模型研究[J].石油学报, 2006, 27(5):124-126. JIN Yan, CHEN Mian, ZHANG Xudong.Hydraulic fracturing initiation pressure models for directional wells in naturally fractured formation[J].Acta Petrolei Sinica, 2006, 27(5):124-126. [48] ABASS H H, HEDAYATI S, MEADOWS D L.Nonplanar fracture propagation from a horizontal wellbore:experimental study[J].SPE Production & Facilities, 1996, 11(3):133-137. [49] HWANG J, BRYANT E C, SHARMA M M.Stress reorientation in waterflooded reservoirs[R].SPE 173220, 2015. [50] HIDAYATI D T, CHEN H Y, TEUFEL L W.Flow-induced stress reorientation in a multiple-well reservoir[R].SPE 71091, 2001. [51] ZENG Hao, JIN Yan, QU Hai, et al.Experimental investigation and correlations for proppant distribution in narrow fractures of deep shale gas reservoirs[J].Petroleum Science, 2021. [52] GUO Xuyang, WU Kan, KILLOUGH J.Investigation of production-induced stress changes for infill-well stimulation in eagle ford shale[J].SPE Journal, 2018, 23(4):1372-1388. [53] GUO Xuyang, WU Kan, AN Cheng, et al.Numerical investigation of effects of subsequent parent-well injection on interwell fracturing interference using reservoir-Geomechanics-fracturing modeling[J].SPE Journal, 2019, 24(4):1884-1902. [54] HOU Bing, DAI Yifan, ZHOU Changlin, et al.Mechanism study on steering acid fracture initiation and propagation under different engineering geological conditions[J].Geomechanics and Geophysics for Geo-Energy and Geo-Resources, 2021, 7(3):1-14. |