引文
[1]McLellan P J,Hawkes C.Borehole stability analysis for under-balanced drilling[J].Journal of Canadian Petroleum Technology,2001,40(5):31-38.
[2]Addis M A,Barton N R,Bandis S C,et al.Laboratory studies on thestability of vertical and deviated boreholes[R].SPE20406,1990.
[3]Maloney S,Kaiser P K.Results of borehole breakout simulationtests[J].Rock at Great Depth,1989,2:745-752.
[4]Hojka K,Dusseault M B.An analytical solution for the steady-state temperature and stress fields around a borehole during fluidinjection[R].SPE21632,1990.
[5]Maury V,Idelovici J L.Safe drilling of HP/HT wells,the role ofthe thermal regime in loss and gain phenomenon[R].SPE29428,1995.
[6]王炳印,邓金根,宋念友.力学温度和化学耦合作用下泥页岩地层井壁失稳研究[J].钻采工艺,2006,29(6):1-4.Wang Bingyin,Deng Jingen,Song Nianyou.Effects of tempera-ture,chemical and percolation on wellbore instability in shale[J].Drilling&Production Technology,2006,29(6):1-4.
[7]蔚宝华,闫伟,李斌,等.高陡层理性地层井壁稳定性模拟试验研究[J].石油钻采工艺,2009,31(2):48-50.Yu Baohua,Yan Wei,Li Bin,et al.Mechanical borehole stabilitytest study in highly-dipped laminated formation[J].Oil Drilling&Production Technology,2009,31(2):48-50.
[8]蔚宝华,王炳印,曲从锋,等.高温高压储层安全钻井液密度窗口确定技术[J].石油钻采工艺,2005,27(3):31-37.Yu Baohua,Wang Bingyin,Qu Congfeng,et al.Mud density de-termination of HT/HP reservoir formation[J].Oil Drilling&Production Technology,2005,27(3):31-37.
[9]王炳印,蔚宝华,邓金根.温度及渗流对疏松砂岩储层钻井液密度窗口的影响规律研究[J].钻井液与完井液,2005,22(4):40-42.Wang Bingyin,Yu Baohua,Deng Jingen.Temperature and seepageeffects on safe mud window of unconsolidated sand reservoir forma-tion[J].Drilling Fluid&Completion Fluid,2005,22(4):40-42.
[10]邓金根,张洪生.钻井工程中井壁失稳的力学机理[M].北京:石油工业出版社,1998:10.Deng Jingen,Zhang Hongsheng.Mechanical mechanism of side-wall instability in drilling engineering[M].Beijing:Petroleum In-dustry Press,1998:10.
[11]刘玉石.地层坍塌压力及井壁稳定对策研究[J].岩石力学与工程学报,2004,23(14):2421-2423.Liu Yushi.Collapse pressure and precautions for stability ofwellbore wall[J].Chinese Journal of Rock Mechanics and Engi-neering,2004,23(14):2421-2423.
[12]吕开河,孙明波,邱正松.塔里木盆地依奇克里克区块煤层钻井技术研究[J].石油学报,2006,27(5):108-111.LüKaihe,Sun Mingbo,Qiu Zhengsong.Drilling techniques forcoalbed in Yiqikelike area of Tarim Basin[J].Acta Petrolei Sini-ca,2006,27(5):108-111.
[13]黄维安,邱正松,徐加放,等.吐哈西部油田井壁失稳机理实验研究[J].石油学报,2007,28(3):116-120.Huang Wei’an,Qiu Zhengsong,Xu Jiafang,et al.Experimentalstudy on sidewall instability mechanism of oil wells in the west-ern Tuha oilfield[J].Acta Petrolei Sinica,2007,28(3):116-120.
[14]金衍,陈勉,吴超.探井二开以下地层井壁稳定性钻前预测方法[J].石油勘探与开发,2008,35(6):742-745.Jin Yan,Chen Mian,Wu Chao.Borehole stability prediction be-fore drilling for formations under the second section in an explo-ration well[J].Petroleum Exploration and Development,2008,35(6):742-745.
[15]金衍,陈勉.利用地震记录钻前预测井壁稳定性研究[J].石油学报,2004,25(1):89-92.Jin Yan,Chen Mian.Prediction of borehole stability by seismicrecords[J].Acta Petrolei Sinica,2004,25(1):89-92.
[16]金衍,陈勉,张旭东.钻前井壁稳定预测方法的研究[J].石油学报,2001,22(3):96-99.Jin Yan,Chen Mian,Zhang Xudong.Study on prediction for boreholestability before drilling[J].Acta Petrolei Sinica,2001,22(3):96-99.
[17]吴超,陈勉,金衍.基于地震属性技术的井壁稳定随钻预测新方法[J].中国石油大学学报:自然科学版,2007,31(6):141-146.Wu Chao,Chen Mian,Jin Yan.A new method of predicting bore-hole stability while drilling based on seismic attribute technology[J].Journal of China University of Petroleum:Edition of NaturalScience,2007,31(6):141-146.
[18]闫相祯,邓卫东,高进伟,等.套管钻井中套管柱疲劳可靠性及相关力学特性研究[J].石油学报,2009,30(5):769-773.Yan Xiangzhen,Deng Weidong,Gao Jinwei,et al.Analysis onmechanics and fatigue reliability of casing string during casingdrilling[J].Acta Petrolei Sinica,2009,30(5):769-773.
[19]闫相祯,高进伟,杨秀娟.用可靠性理论解析API套管强度的计算公式[J].石油学报,2007,28(1):122-125.Yan Xiangzhen,Gao Jinwei,Yang Xiujuan.Analysis of API for-mulas and calculation of casing strength based on reliability theo-ry[J].Acta Petrolei Sinica,2007,28(1):122-125.
[20]Hoek E,Brown E T.Practical estimates of rock mass strength[J].International Journal of Rock Mechanics and Mining Sci-ences and Geomechanics Abstracts,1997,34(8):1165-1186.
[21]Hoek E,Carranza-Torres C,Corkum B.Hoek-Brown failure cri-terion-2002 Edition:proc.NARMS-TAC Conference[C].Toron-to:University of Toronto,2002:267-273.
[22]Hoek E,Marinos P,Benissi M.Applicability of the geological strengthindex(GSI)classification for very weak and sheared rock masses:thecase of the Athens Schist Formation[J].Bulletin of Engineering Geolo-gy and the Environment,1998,57(2):151-160.
[23]Marinos P,Hoek E.GSI:ageologically friendly tool for rock massstrength estimation:proc.GeoEng2000,Melbourne[C].Lancas-ter:Technomic Publishing Company,2000:1422-1442.
[24]Marinos V,Marinos P,Hoek E.The geological strength index:applications and limitations[J].Bulletin of Engineering Geologyand the Environment,2005,64(1):55-65.
[25]张立松,闫相祯,杨恒林,等.基于测井信息的煤岩GSI-JP破碎分级预测[J].岩土工程学报,2011,33(7):1091-1096.Zhang Lisong,Yan Xiangzhen,Yang Henglin,et al.GSI-JPcrushed classification prediction method of coal rock based onlogging information[J].Chinese Journal of Geotechnical Engi-neering,2011,33(7):1091-1096.
[26]张毅,闫相祯,颜庆智.三维分层地应力模型与井眼岩石破裂准则[J].西安石油学院学报:自然科学版,2000,15(4):42-43.Zhang Yi,Yan Xiangzhen,Yan Qingzhi.3D model for the strati-fied calculation of ground stress and fracture criterion of wellholerock[J].Journal of Xi’an Petroleum Institute:Natural ScienceEdition,2000,15(4):42-43.