苏北盆地走滑构造与复杂断块油气成藏

Strike-slip structures and hydrocarbon accumulation in complex fault blocks in Subei Basin

邱旭明 陈伟 李鹤永 段宏亮

QIU Xuming CHEN Wei LI Heyong DUAN Hongliang

中国石化 江苏油田分公司, 江苏 扬州 225009

SINOPEC Jiangsu Oilfield Branch Company, Yangzhou, Jiangsu 225009, China

基于构造几何学、运动学分析，开展苏北盆地成盆成烃成藏研究。苏北盆地经历了断拗、断陷、拗陷3个演化阶段，在中国东部喜马拉雅期以伸展拉张为主的构造发育过程中，盆地内发育雁列、羽状、帚状等具有走滑作用的断层组合，并且已发现油藏和圈闭呈定向排列特征，也与走滑作用密切相关。伸展—走滑作用控制了盆地的成盆演化，造成了各凹陷呈多字形斜列，并且每个凹陷内部形成了多个生烃次凹；控盆控凹断裂差异发育特征控制了不同的油气主要运移方向，形成3种运移模式，雁列、羽状控凹断裂控制下的油气运移模式存在较大差异；次级断层组合和地层形变造就的断层转换带和构造高带是油气富集的重要场所，并形成多种类型的断鼻断块油藏。

The research on basin formation and hydrocarbon generation and accumulation in the Subei Basin was carried out based on structural geometry and kinematic analyses. The Subei Basin has experienced three evolutionary stages: rift-subsiding, fault depression and depression. During the tectonic development dominated by extension and tension in the Himalayan period in the eastern China, there were echelon, pinnate, broom-like and other strike-slip fault combinations in the basin, and it has been found that oil reservoirs and traps were directionally arranged and closely related to strike-slip actions. The extension and strike-slip process controlled basin formation and evolution, which resulted in the oblique arrangement of sags, and formed multiple hydrocarbon generation sub-sags in each sag. The differential development characteristics of basin-controlling and sag-controlling faults controlled the main migration directions of oil and gas, forming three migration modes. The oil and gas migration patterns under the control of echelon and pinnate sag-controlling faults were quite different. The fault transform zone and structural high zone formed by secondary fault combination and formation deformation are important places for oil and gas enrichment, and many types of fault nose and fault block reservoirs were formed.

中国石化科技部项目 P21113

https://doi.org/10.11781/sysydz202303393