聂昕;邹长春;杨玉卿;肖昆;黄兆辉;

• 1:中国地质大学地下信息探测技术与仪器教育部重点实验室
• 2:中海油田服务股份有限公司油田技术事业部

摘要(Abstract)：

测井技术在页岩气储层力学性质评价中有着非常重要的作用。利用声、电成像以及阵列声波等测井方法可以进行页岩气储层的地应力、岩石力学参数分析。通过地应力和岩石力学参数的分析,可以指导水平井钻井方向、压裂作业方式的选择,并且监控及评价压裂效果,为提高页岩气储层产量提供有力的支撑。本文总结了声、电成像、阵列声波等几种测井方法在页岩气储层力学性质评价方面的应用及意义,并分析了各种测井方法的局限性和适用条件,说明了结合这几种测井方法可以有效地评价页岩气储层的力学性质。

关键词(KeyWords)： 页岩气;测井;地应力;弹性参数;水力压裂

Abstract:

Keywords:

基金项目(Foundation): 中央高校基本科研业务费专项资金(编号:2011PY0189);; 教育部科学技术研究重点项目(编号:109035)联合资助

作者(Authors): 聂昕;邹长春;杨玉卿;肖昆;黄兆辉;

参考文献(References)：

• [1]Hamed Soroush,Vamegh Rasouli,Behzad Tokhme-chi.A Data Processing Algorithm Proposed for Iden-tification of Breakout Zones in Tight Formations:ACase Study in Barnett Gas Shale[J].Journal of Petro-leum Science and Engineering,(2010),74:154～162.
• [2]Heffernen K.Shale Gas in North America,Emer-ging Shale Opportunities[R].15th Northeast Energyand Commerce Association Fuels Conference.West-borough,MA,2008.
• [3]谭蓉蓉.美国页岩气工业始于1821年[J].天然气工业,2009,29(5):6.
• [4]李大荣.美国页岩气资源及勘探历史[J].石油知识,2004(1):61.
• [5]钱家麟,王剑秋,李术元.世界油页岩资源利用与发展趋势[J].吉林大学学报:地球科学版,2006,36(6):876～887.
• [6]Hamblin AP.The“Shale Gas”Conception Canada:A Preliminary Inventory of Possibilities[R].GSC2006Open File Report 5384.
• [7]李玉喜.我国非常规油气资源类型和潜力[R].北京:国土资源部,2007.
• [8]蒋裕强,董大忠,漆麟,等.页岩气储层的基本特征及其评价[J].天然气工业,2011,30(10):7～12,113～114.
• [9]刘双莲,陆黄生.页岩气测井评价技术特点及评价方法探讨[J].测井技术,2011,35(2):112～116.
• [10]潘仁芳,赵明清,伍媛.页岩气测井技术的应用[J].中国科技信息,2010(7):16～18.
• [11]潘仁芳,伍媛,宋争.页岩气勘探的地球化学指标及测井分析方法初探[J].中国石油勘探,2009,14(3):6～9.
• [12]Luffel D L,F K Guidry,J B Curtis.Evaluation ofDevonian Shale with New Core and Log AnalysisMethods:Paper SPE-21297[J].Journal of Petrole-um Technology,1992,44:1192～1197.
• [13]Flower J G.Use of Sonic-shear-wave/resistivityOverlay as A Quick-look Method for IdentifyingPotential Pay Zones in the Ohio(Devonian)Shale:Paper SPE-10368[J].Jour Petroleum Technology,1983,638～642.
• [14]Luffel D L,F K Guidry.Reservoir Rock Propertiesof Devonian Shale from Core and Log Analysis[R].Soc Core Analysts 3rd Annual Technical Conference,1989.
• [15]Soeder D J.Porosity and Permeability of EasternDevonian Gas Shale:Paper SPE-15213[J].SPEFormation Evaluation,1986,3(1):116～124.
• [16]Le Compte B.Comprehensive Resource Play Evalu-ation for Well Completion Decisions-Mineralogy,Acoustic,and NMR Integration[R].Murphy OilInc,2010.
• [17]齐宝权,杨小兵,张树东,等.应用测井资料评价四川盆地南部页岩气储层[J].天然气工业,2011,31(4):44～47.
• [18]Gatens J I,Harrison C W,Lancaster D E,et al.In-situ Stress Tests and Acoustic Logs DetermineMechanical Properties and Stress Profiles in the De-vonian Shales[J].Paper SPE-18523-PA,SPEFormation Evaluation,1990,5:248～254.
• [19]Schmoker J.W.Determination of Organic-matterContent of Appalachian Devonian Shales from Gam-ma-ray logs[J].AAPG Bulletin,1981,65:1285～1298.
• [20]Schmoker J W.Organic Content of Devonian Shalein Western Appalachian Basin[J].AAPG Bulletin,1980,64:2156～2165.
• [21]Schmoker J W.Determination of Organic Content ofAppalachian Devonian Shales from Formation-den-sity logs[J].AAPG Bulletin,1979,63:1504～1537.
• [22]Hester T C,J W Schmoker.Determination of Or-ganic Content from Formation-density Logs,Devo-nian-Mississippian Woodford Shale,Anadarko Ba-sin,Oklahoma[R].U.S.Geological Survey Open-File Report 87-20:11,1987.
• [23]Kinley Travis J,Lance W Cook,John A Breyer,etal.Hydrocarbon Potential of the Barnett Shale(Mis-sissippian),Delaware Basin,West Texas and South-eastern New Mexico[J].AAPG Bulletin,August2008,92(8):967～991.
• [24]Zhao Hank,N B Givens,B Curtis.Thermal Maturi-ty of the Barnett Shale Determined from Well-logAnalysis[J].AAPG Bulletin,2007,91:535～549.
• [25]Cluff B.Barnett Shale-Woodford Shale Play of theDelaware Basin–is it Another Giant Shale GasField in Texas?[R].The Discovery Group,Inc,2006.
• [26]Julia F W Gale,Robert M Reed,Jon Holder.Natu-ral Fractures in the Barnett Shale and Their Impor-tance for Hydraulic Fracture Treatments[J].AAPGBulletin,2007,91(4):603～622.
• [27]闫存章,黄玉珍,葛春梅,等.页岩气是潜力巨大的非常规天然气资源[J].天然气工业,2009,29(5):1～6.
• [28]Jacobi D,Gladkikh M,LeCompte B,et al.Integrat-ed Petrophysical Evaluation of Shale Gas Reservoirs[A].CIPC/Gas Technology Symposium[C].Cal-gary,Alberta.2008.
• [29]Bell J S,Gough D I.Northeast-southwest Com-pressive Stress in Alberta—evidence from Oil Wells[J].Earth and Planetary Sciences Letters,1979,45:475～482.
• [30]Zoback M D,Apel R,Baumgrtner J,et al.Upper-crustal Strength Inferred from Stress Measure-ments to 6km Depth in the KTB Borehole[J].Na-ture,1993,365:633～635.
• [31]Bell J S.Petro Geoscience In Situ Stresses in Sedi-mentary Rocks(part 1):Measurement Techniques[J].Geoscience Canada,1996,23:85～100.
• [32]Roger H Morin,Roy H Wilkens.Structure andStress State of Hawaiian Island Basalts Penetrated bythe Hawaii Scientific Drilling Project Deep Core Hole[J].Journal of Geophysical Research,2005,110,B07404.
• [33]Mojtaba Rajab,Shahram Sherkati,Bahman Bohlo-li,et al.Subsurface Fracture Analysis and Determina-tion of in-situ stress Direction Using FMI logs:AnExample from the Santonian Carbonates(Ilam For-mation)in the Abadan Plain,Iran[J].Tectonophys-ics,2010,492:192～200.
• [34]Cui J W,Wang L J,Li P W,et al.Wellbore Break-outs of the Main Borehole of Chinese Continental Sci-entific Drilling(CCSD)and Determination of thePresent Tectonic Stress State[J].Tectonophysics,2009,475:220～225.
• [35]赖富强,孙建孟,苏远大,等.利用多极子阵列声波测井预测地层破裂压力[J].勘探地球物理进展,2007,30(l):39～42.
• [36]Richard Merkel.致密含气砂岩的综合岩石物理模型研究[J].刘延梅译.测井与射孔,2007,10(3):51～57.
• [37]石玉江,张海涛,侯雨庭,等.基于岩石物理相分类的测井储层参数精细解释建模[J].测井技术,2005,29(4):328～332.
• [38]Rickman R,Mullen M,Petre E,et al.A practicalUse of Shale Petrophysics for Stimulation Design Op-timization:All Shale plays Are Not Clones of theBarnett Shale[A].SPE Annual Technical Conferenceand Exhibition[C].21～24September 2008,Den-ver,Colorado.
• [39]Yang K,Wang W P,Zu Q X.Determination ofRock Elastic Parameters of Coal Bearing Formationswith Well Logging[J].Acta Geophysica Sinica,1990,33(5):593～603.
• [40]Jarzyna Jadwiga,Bala Maria,Cichy Adam.ElasticParameters of Rocks From Well Logging in NearSurface Sediments[J].Acta Geophysica Sinica,2010,58(1):34～48.
• [41]王少鹤.利用阵列声波测井资料预测静态压裂参数[J].测井技术,2011,35(3):270～274.
• [42]Wong R C K,Schmitt D R,Collis D.InherentTransversely Isotropic Elastic Parameters of Over-consolidated Shale Measured by Ultrasonic Wavesand Their Comparison with Static and Acoustic in Si-tu Log Measurements[J].Journal of Geophysics andEngineering,2008(1):103～117.
• [43]楼一珊.利用声波测井计算岩石的力学参数[J].探矿工程,1998(3):47～48.
• [44]Coates G R,Denoo S A.Mechanical PropertiesProgram Using Borehole Analysis and Mohr’s Circle[A].Spwla 22nd Annual Logging Symposium[C].Society of Petrophysicists and Well-Log Analysts,1981.
• [45]高坤,陶果,仵岳奇,等.利用多极子阵列声波测井资料计算横向各向同性地层破裂压力[J].中国石油大学学报:自然科学版,2007,31(1):35～39.
• [46]罗蓉,李青.页岩气测井评价及地震预测、监测技术探讨[J].天然气工业,2011,31(4):34～39.
• [47]易新民,唐雪萍,梁涛,等.利用测井资料预测判断水力压裂裂缝高度[J].西南石油大学学报(自然科学版),2009,31(5):21～24.