| Institute of Geomechanics, Chinese Academy of Geological Sciences | Host |
| Citation: |
Hanguo ZHOU, Jianchun GUO, Jing LI, Chengle PENG, Chang WANG, Shuai GAO, Jinkai ZHENG. DISTRIBUTION OF SURROUNDING ROCK STRESS IN DEEP CARBONATE RESERVOIR KARST CAVE[J]. Journal of Geomechanics, 2018, 24(1): 35-41. doi: 10.12090/j.issn.1006-6616.2018.24.01.004
|
DISTRIBUTION OF SURROUNDING ROCK STRESS IN DEEP CARBONATE RESERVOIR KARST CAVE
-
Abstract
The Ordovician carbonate oil pool in northern Renqiu of the Jizhong depression is taken as an example in this article. The rock mechanical parameters in the study area were calculated based on the log data of the oil field, and the typical isolated water long elliptic karst cave of the target reservoir was selected, with its surrounding rock stress and its damage zone calculated by numerical simulation and third strength theory. The results show that:1) Under the combined action of overburden pressure and lateral pressure, the stress concentration effect zone of the long elliptic karst cave surrounding rock is 9 times of the radius. 2) The surrounding rock stress of long elliptic karst cave is mainly compressive stress, mainly concentrating in the top and the bottom. 3) The filling property of karst cave has great influence on the principal stress difference and damage range of surrounding rock. For the long-elliptic karst cave, the principal stress difference and shear damage of the surrounding rock increase with the increase of filling pressure when the filling pressure is less than 0.1 MPa; while the principal stress difference and the shear damage range of the surrounding rock gradually decrease with the increase of filling pressure when the filling pressure is more than 0.1 MPa.-
Keywords:
- carbonate rocks /
- karst cave /
- surrounding rock stress /
- numerical simulation
-
-
References
Loucks R G. Paleocave carbonate reservoirs:origins, burial-depth modifications, spatial complexity, and reservoir implications[J]. AAPG Bulletin, 1999, 83(11):1795~1834. 李静, 查明, 刘震.基于声波测井资料的地应力分布研究——以饶阳凹陷任北奥陶系潜山为例[J].岩土力学, 2011, 32(9):2765~2770. LI Jing, ZHA Ming, LIU Zhen. Research on crustal stress distribution based on acoustic logging data-taking North Region of Renqiu Ordovician Buried Hill of Raoyang Depression for example[J]. Rock and Soil Mechanics, 2011, 32(9):2765~2770. (in Chinese with English abstract) 王光付.碳酸盐岩溶洞型储层综合识别及预测方法[J].石油学报, 2008, 29(1):47~51. doi: 10.7623/syxb200801011 WANG Guangfu. Integrative identification and prediction methods for carbonate rock cave reservoir[J]. Acta Petrolei Sinica, 2008, 29(1):47~51. (in Chinese with English abstract) doi: 10.7623/syxb200801011 王思敬.论岩石的地质本质性及其岩石力学演绎[J].岩石力学与工程学报, 2009, 28(3):433~450. WANG Sijing. Geological nature of rock and its deduction for rock mechanics[J]. Chinese Journal of Rock Mechanics and Engineering, 2009, 28(3):433~450. (in Chinese with English abstract) 王鹏昊, 汤良杰, 邱海峻, 等.塔里木盆地西北地区岩石力学格架及其地质意义[J].吉林大学学报(地球科学版), 2012, 42(S3):101~110. WANG Penghao, TANG Liangjie, QIU Haijun, et al. Rock mechanics framework and its geological implication in Northwest Tarim Basin, China[J]. Journal of Jilin University (Earth Science Edition), 2012, 42(S3):101~110. (in Chinese with English abstract) 余家仁, 李彦尊.应用井径曲线研究任丘古潜山岩溶[J].石油勘探与开发, 1981, 8(5):33~39. YU Jiaren, LI Yanzun. Study on the karst of Buried Hill in Renqiu by well diameter curve[J]. Petroleum Exploration and Development, 1981, 8(5):33~39. (in Chinese) 刘之葵, 梁金城, 朱寿增, 等.岩溶区含溶洞岩石地基稳定性分析[J].岩土工程学报, 2003, 25(5):629~633. LIU Zhikui, LIANG Jincheng, ZHU Shouzeng, et al. Stability analysis of rock foundation with cave in karst area[J]. Chinese Journal of Geotechnical Engineering, 2003, 25(5):629~633. (in Chinese with English abstract) 王晓楠, 张燕奇, 王建良.桥梁基桩下伏溶洞围岩应力状态分析[J].科学技术与工程, 2012, 12(14):3390~3393, 3410. doi: 10.3969/j.issn.1671-1815.2012.14.022 WANG Xiaonan, ZHANG Yanqi, WANG Jianliang. Analysis of the stress state of the cave wall-surrounding body under bridge foundation pile in karst region[J]. Science Technology and Engineering, 2012, 12(14):3390~3393, 3410. (in Chinese with English abstract) doi: 10.3969/j.issn.1671-1815.2012.14.022 饶军应, 傅鹤林, 刘运思, 等.管状填充性椭圆形溶洞的围岩应力弹性解析分析[J].中南大学学报(自然科学版), 2015, 46(7):2605~2612. doi: 10.11817/j.issn.1672-7207.2015.07.030 RAO Junying, FU Helin, LIU Yunsi, et al. Stress analysis of rocks surrounding a tubular filled elliptical karst cave with complex function of elastic mechanics[J]. Journal of Central South University (Science and Technology), 2015, 46(7):2605~2612. (in Chinese with English abstract) doi: 10.11817/j.issn.1672-7207.2015.07.030 高长海, 张新征, 查明, 等.冀中坳陷潜山油气藏特征[J].岩性油气藏, 2011, 23(6):6~12. GAO Changhai, ZHANG Xinzheng, ZHA Ming, et al. Characteristics of buried hill reservoir in Jizhong Depression[J]. Lithologic Reservoirs, 2011, 23(6):6~12. (in Chinese with English abstract) 华北油田石油地质志编写组.中国石油地质志(卷五)[M].北京:石油工业出版社, 1987. Huabei Oilfield Petroleum Geology Editorial. Petroleum geology of China volume 5[M]. Beijing:Petroleum Industry Press, 1987. (in Chinese) 刘震. 冀中探区古潜山裂缝的有限元模拟[D]. 东营: 中国石油大学(华东), 2010. LIU Zhen. The Finite Element Simulation of fracture in buried hills of Jizhong region[D]. Dongying: China University of Petroleum (East China), 2010. (in Chinese with English abstract) 李静, 查明, 刘震, 等.岩石力学参数概率统计特性研究[J].勘察科学技术, 2010, (2):20~22. LI Jing, ZHA Ming, LIU Zhen, et al. Study on probability statisitics property of rock mechanical parameters[J]. Site Investigation Science and Technology, 2010, (2):20~22. (in Chinese with English abstract) 胡国忠, 王宏图, 贾剑青, 等.岩石的动静弹性模量的关系[J].重庆大学学报(自然科学版), 2005, 28(3):102~105. HU Guozhong, WANG Hongtu, JIA Jianqing, et al. Relationship between dynamic and static value of elastic modulus in rock[J]. Journal of Chongqing University (Natural Science Edition), 2005, 28(3):102~105. (in Chinese with English abstract) 王冠贵.声波测井理论基础及其应用[M].北京:石油工业出版社, 1988. WANG Guangui. Theoretical basis and its application of acoustic logging[M]. Beijing:Petroleum Industry Press, 1988. (in Chinese) 王子振, 王瑞和, 单珣, 等.常规方法预测碳酸盐岩地层压力的偏差分析[J].中国石油大学学报(自然科学版), 2014, 38(5):96~101. WANG Zizhen, WANG Ruihe, SHAN Xun, et a1. Uncertainty analysis of pore pressure prediction in carbonate formation Using conventional methods[J]. Journal of China University of Petroleum, 2014, 38(5):96~101. (in Chinese with English abstract) 黄荣樽.地层破裂压力预测模式的探讨[J].华东石油学院学报, 1984, 8(4):335~347. HUANG Rongzun. A model for predicting formation fracture pressure[J]. Journal of China University of Petroleum(Edition of Natural Science), 1984, 8(4):335~347. (in Chinese with English abstract) 于崇, 李海波, 李国文, 等.大连地下石油储备库地应力场反演分析[J].岩土力学, 2010, 31(12):3984~3990. doi: 10.3969/j.issn.1000-7598.2010.12.046 YU Chong, LI Haibo, LI Guowen, et al. Inversion analysis of initial stress field of Dalian underground oil storage cavern[J]. Rock and Soil Mechanics, 2010, 31(12):3984~3990. (in Chinese with English abstract) doi: 10.3969/j.issn.1000-7598.2010.12.046 李宝刚, 高日胜.塔里木盆地柯坪塔格构造带南缘古溶洞特征及主控因素分析[J].现代地质, 2014, 28(1):149~155. LI Baogang, GAO Risheng. Characteristics and main controlling factors of karst caves in the southern margin of Kepingtage tectonic belt, Tarim Basin[J]. Geoscience, 2014, 28(1):149~155. (in Chinese with English abstract) 吴孔友, 王雨洁, 张瑾琳, 等.冀中坳陷前第三系岩溶发育规律及其控制因素[J].海相油气地质, 2010, 15(4):14~22. WU Kongyou, WANG Yujie, ZHANG Jinlin, et al. Development rule and controlling factors of pre-tertiary karst in jizhong depression, Bohaiwan Basin[J]. Marine Origin Petroleum Geology, 2010, 15(4):14~22. (in Chinese with English abstract) -
Access History
Figures(7)
Tables(2)
Export File
Citation
Hanguo ZHOU, Jianchun GUO, Jing LI, Chengle PENG, Chang WANG, Shuai GAO, Jinkai ZHENG. DISTRIBUTION OF SURROUNDING ROCK STRESS IN DEEP CARBONATE RESERVOIR KARST CAVE[J]. Journal of Geomechanics, 2018, 24(1): 35-41. doi: 10.12090/j.issn.1006-6616.2018.24.01.004
Format
Content
DownLoad:
- Figure 1. Schematic diagram of the geometric model and the constraint loading in the long ellipse karst cave
- Figure 2. Diagram of the radial variation of maximum principal stress of the surrounding rock in long ellipse karst cave
- Figure 3. Diagram of the radial variation of minimum principalstress of the surrounding rock in long ellipse karst cave
- Figure 4. Distribution of principal stress difference of the surrounding rock in long ellipse karst cave (Pressure is negative)
- Figure 5. Distribution of failure zone of the surroundingrock in long ellipse karst cave
- Figure 6. Curves of the change of stress with the filling pressure in long ellipse karst cave
- Figure 7. Shear failure of the surrounding rock in long ellipse karst cave under the filling pressure