Prediction Method of Shear Instability Region around the Borehole for Horizontal Wells in Bedding Shale
-
摘要: 为了揭示层理页岩强度各向异性对水平井井周剪切失稳的影响规律,基于直剪试验研究了川南龙马溪组页岩的强度各向异性特征,并与国外典型层理页岩进行了对比;建立了层理页岩井周坐标转换关系模型,结合井周应力弹性解、Mohr-Coulomb弱面强度理论、Mohr-Coulomb准则,建立了层理页岩地层井周剪切失稳区域预测方法;分析了钻进方位对井周剪切失稳区域分布规律的影响。结果表明:弱面与本体强度参数基本呈线性关系,本体内聚力约为弱面内聚力的2.10倍,本体内摩擦角约为弱面内摩擦角的1.20倍,其中川南龙马溪组页岩强度各向异性特征更加显著;考虑层理等弱面影响计算出的失稳区域的形状不是传统的"狗耳朵"形状,而是近似于长方形,这种形状与典型的物模试验结果基本吻合;若页岩地层中存在显著的层理,则井周地层更容易沿弱面剪切滑动,导致水平井坍塌失稳的风险显著增大。利用该方法可以分别计算出井周地层沿弱面剪切、本体剪切和全部剪切的失稳区域分布,为层理发育地层井眼稳定分析、成像测井反演地应力方位等研究提供基础理论支撑。Abstract: In order to understand the effects of strength anisotropy of bedding shale on shear instability region around the borehole of a horizontal well,the strength anisotropy characteristics for Longmaxi shale in the southern of Sichuan were researched based on direct shear tests,and the test result comparison was made with typical bedding shale data of some other countries,so as to establish the coordinate transformation model around the borehole in the bedding shale.In combination with stress solution around a borehole,Mohr-Coulomb weak plane strength theory,Mohr-Coulomb criterion,the prediction method of shear instability region around the borehole of a horizontal well in bedding shale was established,and the influence of borehole azimuth on shear instability region was also analyzed.It showed that strength parameters of weak plane and rock mass are basically in a linear relationship as the cohesion and internal friction angle of rock mass are about 2.10 and 1.20 times of those of weak planes,respectively.Strength anisotropy was more evident in Longmaxi shale.The shear instability region around the borehole was not in the commonly seen "dog ear" shape due to the weak planes.Instead,it had a square shape,which agreed with typical physical experimental results.If bedding planes in shale reservoir are significantly developed,the formation around borehole may experience shear sliding along the weak planes,which would increase the risk of instability in horizontal wells.The prediction method in this paper could be used to calculate the shear instability regions from weak planes shearing and rock mass shearing providing the basis in borehole stability analysis of bedding formation and the in-situ stress orientation inversion from imaging logging.
-
Keywords:
- shale gas /
- horizontal well /
- stratification /
- wellbore stability /
- weak plane /
- collapse pressure
-
-
[1] Li Yufei,Fu Yongqiang,Tang Geng,et al.Effect of weak bedding planes on wellbore stability for shale gas wells[R].SPE 155666,2012.
[2] 刘忠飞,何世明,全家正,等.川西首口页岩气水平井钻井技术[J].石油钻采工艺,2014,36(1):18-21. Liu Zhongfei,He Shiming,Quan Jiazheng,et al.Drilling technology for the first shale gas horizontal well in West Sichuan[J].Oil Drilling Production Technology,2014,36(1):18-21. [3] 王红岩,刘玉章,董大忠,等.中国南方海相页岩气高效开发的科学问题[J].石油勘探与开发,2013,40(5):574-579. Wang Hongyan,Liu Yuzhang,Dong Dazhong,et al.Scientific issues on effective development of marine shale gas in Southern China[J].Petroleum Exploration and Development,2013,40(5):574-579. [4] 马天寿,陈平.基于CT扫描技术研究页岩水化细观损伤特性[J].石油勘探与开发,2014,41(2):227-233. Ma Tianshou,Chen Ping.Studies of meso-damage characteristics of shale hydration based on CT scanning technology[J].Petroleum Exploration and Development,2014,41(2):227-233. [5] Aadnøy Bernt Sigve.Stresses around boreholes drilled in sedimentary rocks[R].SPE 17119,1987.
[6] Dusseault M B,Gray K E.Mechanisms of stress-induced wellbore damage[R].SPE 23825,1992.
[7] Ong S H,Roegiers J C.Influence of anisotropies in borehole stability[J].International Journal of Rock Mechanics and Mining Sciences Geomechanics Abstracts,1993,30(7):1069-1075.
[8] Okland D,Cook J M.Bedding-related borehole instability in high-angle wells[R].SPE 47285,1998.
[9] Al-Bazali T M,Zhang J,Wolfe C,et al.Wellbore instability of directional wells in laminated and naturally fractured shales[J].Journal of Porous Media,2009,12(2):119-130.
[10] Lee H,Ong S H,Azeemuddin M,et al.A wellbore stability model for formations with anisotropic rock strengths[J].Journal of Petroleum Science and Engineering,2012,96/97:109-119.
[11] 金衍,陈勉.井壁稳定力学[M].北京:科学出版社,2012:13-66. Jin Yan,Chen Mian.Wellbore stability mechanics[M].Beijing:Science Press,2012:13-66. [12] 刘向君,叶仲斌,陈一健.岩石弱面结构对井壁稳定性的影响[J].天然气工业,2002,22(2):41-42. Liu Xiangjun,Ye Zhongbin,Chen Yijian.Influence of rock weak plane texture on sidewall stability[J].Natural Gas Industry,2002,22(2):41-42. [13] 袁俊亮,邓金根,蔚宝华,等.页岩气藏水平井井壁稳定性研究[J].天然气工业,2012,32(9):66-70. Yuan Junliang,Deng Jingen,Yu Baohua,et al.Wellbore stability of horizontal wells in shale gas reservoirs[J].Natural Gas Industry,2012,32(9):66-70. [14] Lu Yunhu,Chen Mian,Jin Yan,et al.Influence of porous flow on wellbore stability for an inclined well with weak plane formation[J].Petroleum Science and Technology,2013,31(6):616-624.
[15] 刘志远,陈勉,金衍,等.裂缝性储层裸眼井壁失稳影响因素分析[J].石油钻采工艺,2013,35(2):39-43. Liu Zhiyuan,Chen Mian,Jin Yan,et al.Analysis on wellbore stability of open hole in fractrued formation[J].Oil Drilling Production Technology,2013,35(2):39-43. [16] 刘志远,陈勉,金衍,等.多弱面地层水平井裸眼井壁垮塌量分析[J].石油勘探与开发,2014,41(1):102-107. Liu Zhiyuan,Chen Mian,Jin Yan,et al.Calculation model for bore-hole collapse volume of a horizontal openhole in multiple-weak-plane formation[J].Petroleum Exploration and Development,2014,41(1):102-107. [17] 温航,陈勉,金衍,等.钻井液活度对硬脆性页岩破坏机理的实验研究[J].石油钻采工艺,2014,36(1):57-59. Wen Hang,Chen Mian,Jin Yan,et al.Experimental research on brittle shale failure caused by drilling fluid activity[J].Oil Drilling Production Technology,2014,36(1):57-59. [18] Chenevert M E,Gatlin C.Mechanical anisotropies of laminated sedimentary rocks[J].SPE Journal,1965,5(1):67-77.
[19] Lee H,Chang C,Ong S H,et al.Effect of anisotropic borehole wall failures when estimating in situ stresses:a case study in the Nankai accretionary wedge[J].Marine and Petroleum Geology,2013,48:411-422.
[20] 蔡美峰,何满潮,刘东燕.岩石力学与工程[M].北京:科学出版社,2009:104-109. Cai Meifeng,He Manchao,Liu Dongyan.Rock mechanics and engineering[M].Beijing:Science Press,2009:104-109. -
期刊类型引用(19)
1. 张光伟,尹福来,程礼林,侯朋朋. 全旋转指向式导向钻井工具结构设计与仿真. 机械设计与制造. 2024(05): 136-140 . 
百度学术
2. 葛勋,郭彤楼,黎茂稳,赵培荣,邓虎成,李王鹏,钟城. 深层页岩储层“工程甜点”评价与优选——以川南永川、丁山地区为例. 石油实验地质. 2023(02): 210-221 . 百度学术
3. 李文霞,王居贺,王治国,杨卫星,史玉才. 顺北油气田超深高温水平井井眼轨迹控制技术. 石油钻探技术. 2022(04): 18-24 . 本站查看
4. 谢鑫,徐浩,付成林,金晶,杨小敏. 水平井钻井轨迹控制研究. 精细石油化工进展. 2022(05): 31-35 . 百度学术
5. 王萍,樊佳勇,韩成福,王亮,屈展,黄海,顾甜利. 苏里格气田区小井眼二开水平井优化设计. 科学技术与工程. 2022(28): 12349-12354 . 百度学术
6. 陆亚秋,梁榜,王超,刘超,吉靖. 四川盆地涪陵页岩气田江东区块下古生界深层页岩气勘探开发实践与启示. 石油与天然气地质. 2021(01): 241-250 . 百度学术
7. 张国荣,王俊方,张龙富,陈士奎. 南川常压页岩气田高效开发关键技术进展. 油气藏评价与开发. 2021(03): 365-376 . 百度学术
8. 李文志. 水平井托压现象原因分析及解决措施. 西部探矿工程. 2021(09): 32-34+37 . 百度学术
9. 张光伟,乔阳,高嗣土,田帆. 全旋转内置式可控弯接头运动特性. 石油钻采工艺. 2020(01): 45-51 . 百度学术
10. 宋明阶,彭光宇,胡春阳,来传亚. 涪陵页岩气田加密井轨道优化设计技术. 探矿工程(岩土钻掘工程). 2020(05): 11-16 . 百度学术
11. 张光生,张红丽,朱秀兰,杨日丽. 水平井井眼轨迹控制技术探讨. 辽宁化工. 2020(08): 1020-1022+1025 . 百度学术
12. 张光伟,乔阳,田帆,高嗣土,尹福来. 全旋转内置式导向钻井工具动力学分析及仿真. 机械强度. 2020(06): 1417-1423 . 百度学术
13. 黄德涛. 水平井滑动钻进托压原因以及对策. 石化技术. 2019(03): 225 . 百度学术
14. 宋保健,孙凯,乐守群,兰凯,明鑫. 涪陵页岩气田钻井提速难点与对策分析. 钻采工艺. 2019(04): 9-12+6 . 百度学术
15. 黄迪箫笙. 涪陵页岩气田二期钻井提速难点分析及对策. 江汉石油职工大学学报. 2019(05): 11-14 . 百度学术
16. 李伟,刘文臣,周贤海,倪红坚,于凡,臧艳彬. 涪陵页岩气田三维水平井轨道优化设计方法探讨. 石油钻探技术. 2018(02): 17-23 . 本站查看
17. 李云峰,徐吉,徐小峰,朱宽亮,吴艳. 南堡2号构造深层潜山水平井钻井完井技术. 石油钻探技术. 2018(02): 10-16 . 本站查看
18. 杨海平. 涪陵平桥与江东区块页岩气水平井优快钻井技术. 石油钻探技术. 2018(03): 13-19 . 本站查看
19. 孙永兴,范生林,乔李华. 页岩气水平井卡钻主要原因及预防对策. 天然气工业. 2018(12): 107-113 . 百度学术
其他类型引用(11)
计量
- 文章访问数: 3516
- HTML全文浏览量: 110
- PDF下载量: 3697
- 被引次数: 30
下载:
