Physical simulation of the influence of lithological differences on fault zone structure
-
摘要: 采用分解和统计相结合的实验原则,逐步考察了影响断层带结构变化的地层因素。通过对砂、泥岩力学性质及含量进行变换,模拟砂、泥岩地层中可能形成的断层带结构。实验结果表明:泥岩泊松比、泥岩含量是影响断层带结构及其内部单元规模的2个重要因素。单一的砂岩泊松比并不直接影响断层带结构类型,其原因可能是因为实验中的砂岩主要表现为脆性变形的结果;但砂岩含量是影响断层带结构类型的重要因素。在泥岩含量一定的情况下,砂岩泊松比的变化影响断层带的宽度,且两者比值在1~1.33之间时断层带发育二元结构;砂岩泊松比低于0.28、泥岩泊松比低于0.34时,断层带形成疏松的一元型结构;当砂岩泊松比高于0.35、泥岩泊松比高于0.38时,断层带为紧闭的一元型滑动面。Abstract: The controlling stratigraphic elements for fault zone structure were studied. Possible fault zone structures in sand and mudstone formations were simulated in view of sand and mudstone mechanical properties and contents. The Poisson's ratio and content of mudstone controlled fault zone structure and its internal unit size. The Poisson's ratio of sand did not directly determine fault zone structure, which might be explained by the brittle deformation of sand in the experiment. On the contrary, sand content was a key element for fault zone structure. When mudstone content was fixed, the Poisson's ratio of sand controlled the width of the fault zone. When the ratio of mud to sandstone Poisson's ratio was 1-1.33, dualistic structure developed in the fault zone. When the Poisson's ratios of sand and mudstones were less than 0.28 and 0.34, respectively, a unitary fault zone with loose structure formed. When the Poisson's ratios of sand and mudstones were more than 0.35 and 0.38, respectively, a closed unitary sliding surface developed.
-
[1] Fossen H.Structural geology[M].New York:Cambridge University Press,2010,119-185. [2] Caine J S,Evans J P,Forster C B.Fault zone architecture and permeability structure[J].Geology,1996,24(11):1025-1028. [3] Gibson R G.Physical character and fluid-flow properties of sandstone-derived fault zones[M]//Coward M P,Daltaban T S,Johnson H,eds.Structural geology in reservoir characterization,Geological Society Special Publication 127.London:Geological Society,1998:83-97. [4] Ben-Zion Y,Sammis C G.Characterization of fault zones[J].Pure and Applied Geophysics,2003,160(3/4):677-715. [5] Wu Zhiping,Chen Wei,Xue Yan,et al.Structural characteristics of faulting zone and its ability in transporting and sealing oil and gas[J].Acta Geological Sinica,2010,84(4):570-578. [6] Sibson R H.Fault rocks and fault mechanisms[J].Journal of the Geological Society of London,1977,133:191-213. [7] Lindsay N C,Murphy F C.Outcrop studies of shale smear on fault surface[J].International Association of Sedimentologists Special Publication,1993,15:113-123. [8] Kim Y S,Peacock D C P,Sanderson D J.Fault damage zones[J].Journal of Structural Geology,2004,26(3):503-517. [9] Gray M B,Stamatakos J A,Ferrill D A,et al.Fault-zone deformation in welded tuffs at Yucca Mountain,Nevada,USA[J].Journal of Structural Geology,2005,27(10):1873-1891. [10] Micarelli L,Benedicto A,Wibberley C A J.Structural evolution and permeability of normal fault zones in highly porous carbonate rocks[J].Journal of Structural Geology,2006,28(7):1214-1227. [11] Clausen J A,Gabrielsen R H.Parameters that control the deve-lopment of clay smear at low stress states:an experimental study using ring-shear apparatus[J].Journal of Structural Geology,2002,24(10):1569-1586. [12] Sperrevik S,Færseth R B,Gabrielsen R H.Experiments on clay smear formation along faults[J].Petroleum Geoscience,2000,6(2):113-123. [13] 王学军,单亦先,劳海港,等.构造变形与烃类充注一体化物理模拟的难点及解决策略[J].石油实验地质,2013,35(4):453-456. Wang Xuejun,Shan Yixian,Lao Haigang,et al.Difficulties and solving strategies for integrated physical simulation of tectonic deformation and hydrocarbon charging[J].Petroleum Geology & Experiment,2013,35(4):453-456. 期刊类型引用(8)
1. 史玉玲,张向涛,朱俊章,龙祖烈,贾兆扬,张小龙. 珠一坳陷近源及远源油气富集主控地质因素统计与油气运移物理模拟实验. 中国海上油气. 2020(05): 26-35 . 
百度学术2. 陆晓东,林健云,左宇军. 煤层力学参数对断层活化滑移的影响研究. 矿业研究与开发. 2020(10): 41-45 . 百度学术3. 洪国郎,金强,程付启,吴奎,张如才,侯庆杰. 改进的断层封闭性计算参数的获取方法及应用——以辽西凸起中南段为例. 油气地质与采收率. 2018(03): 50-54+60 . 百度学术4. 宋佳佳,孙建孟,王敏,傅爱兵,高建申. 断层内部结构研究进展. 地球物理学进展. 2018(05): 1956-1966 . 百度学术5. 刘峻桥,张桐,孙同文,孙永河,王永统. 油源断裂输导能力对油气分布的控制作用. 特种油气藏. 2017(05): 27-31 . 百度学术6. 徐涛,姚燕飞,代瑜,刘万辉,王科朋. 北三台凸起多边断层对油气成藏的影响. 特种油气藏. 2017(04): 48-53 . 百度学术7. 葛丽珍,朱志强,程大勇. 河流相稠油油田合理注水时机实验研究. 特种油气藏. 2017(05): 141-145 . 百度学术8. 张放东,齐仁理,周杰,王学军,孔海瑞. 褶皱型潜山内幕形态与勘探方向——以白音查干达-锡地区为例. 断块油气田. 2016(06): 716-720 . 百度学术其他类型引用(2)
-
百度学术计量
- 文章访问数: 1248
- HTML全文浏览量: 86
- PDF下载量: 1369
- 被引次数: 10
下载:
苏公网安备32021102000780号