Lithologic Reservoirs ›› 2008, Vol. 20 ›› Issue (1): 75-82.doi: 10.3969/j.issn.1673-8926.2008.01.013

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Activity analysis of main faults in Qianquan area, Banqiao Sag

WANG Bingjie, HE Sheng, NI June, FANG Du   

  1. Faculty of Resources, China University of Geosciences, Wuhan 430074, China
  • Online:2008-03-15 Published:2008-03-15

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Abstract:

Based on the interpretation to Es3, Es2, lower Es1, middle Es1, upper Es1 and the bottom of Ed in Qianquan area, Banqiao Sag, the plane distribution of the faults is analyzed. The growth index, activity rate and paleo fall of fault are applied to study the fault activity. The result shows that there developed two vertical normal faults towards NE and NW respectively in Qianquan area, among which Cangdong fault is first order fault, Dazhangtuo fault and G39 fault are second order fault, the others are third order fault, with most of the dip angles being from 55 degree to 70 degree. These three indexes indicate that most of the main faults in the study area experienced two evolution stages, and each was fromweak to strong and became weak again.

Key words: reservoir, rock, stress sensitivity, primary deformation, structural deformation

[ 1] 陈刚, 戴俊生, 叶兴树, 等. 生长指数与断层落差的对比研究[ J] . 西南石油大学学报, 2007, 29( 3) : 20- 23.
[ 2] 赵勇, 戴俊生. 应用落差分析研究生长断层[ J] . 石油勘探与开发, 2003, 30( 3) : 13- 15.
[ 3] 李勤英, 罗凤芝, 苗翠芝. 断层活动速率研究方法及应用探讨[ J] . 断块油气田, 2000, 7( 2) : 15- 17.
[ 4] 吴智平, 李伟, 郑德顺. 沾化凹陷中、新生代断裂发育及其形成机制分析[ J] .高校地质学报, 2004, 10( 3) : 405- 416.
[ 5] 大港油田石油地质编辑委员会. 中国石油地质志( 卷四) [M] .北京: 石油工业出版社, 1991: 10- 120.
[ 6] BosworthW. Geometry of propagating continental rifting[ J] . Nature,1985, 316: 625- 627.
[ 7] 魏永佩, 陈会鑫. 沉积盆地碎屑岩原始厚度恢复经验图版[ J] .石油与天然气地质, 1999, 20( 1) : 90- 93.
[ 8] 肖英玉, 郝雪峰. 断层生长指数在层序地层单元中应用的局限性[ J] . 油气地质与采收率, 2003, 10( 增刊) : 1- 5.
[ 9] 王锦喜, 刘琼, 张树林. 江汉盆地西南缘主干断层活动性分析[ J] . 重庆科技学院学报, 2005, 7( 3) : 7- 9.
[ 10] 徐开礼, 朱志澄. 构造地质学[M] .北京: 地质出版社,1984:125- 126.
[ 11] 王书宝, 钟建华, 陈志朋, 等. 惠民凹陷新生代断裂活动特征研究[ J] . 地质力学学报, 2007, 13( 1) : 94- 95.
[ 12] 曹卿荣, 李佩, 孙凯, 等. 应用地震属性分析技术刻画河道砂体[ J] . 岩性油气藏, 2007, 19( 2) : 93- 96.
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