Strike-Slip Transfer Zone and Its Control on Formation of Medium and Large-Sized Oilfields in Bohai Sea Area
-
摘要: 渤海海域郯庐走滑断裂带是重要的油气富集带,但是长期以来,该带对大中型油气田控制作用不明确.利用覆盖渤海郯庐断裂带的三维地震资料和400多口钻井资料对渤海海域走滑转换带特征及其与大中型油田形成关系进行了系统的分析.研究认为,新生代以来,渤海海域发育了多类型、多成因、多级次、多期次的走滑转换带;根据转换带在走滑断裂带中发育的位置,可以将渤海海域走滑转换带划分为断边转换带、断间转换、断梢转换带三大类,进一步根据断层的相互作用以及转换带的形态,可以将渤海海域转换带分为S型转换带、叠覆型转换带、双重型转换带、帚状转换带、叠瓦扇型转换带、共轭转换带以及复合转换带7种类型;根据局部应力状态可以分为增压型转换带和释压型转换带;根据转换带的规模,渤海海域走滑转换带可以分为一级转换带、二级转换带和三级转换带;增压型转换带控制了大型有效圈闭的发育、运移条件通畅等大中型油田基本成藏要素,进而控制了大中型油气田的分布.Abstract: Tan-Lu strike-slip fault in Bohai sea area is an important hydrocarbon enrichment zone. But it is not clear whether strike-slip transfer zone controls on the formation of medium and large-sized oilfields. This paper systematically analyzes the Tan-Lu strike-slip transfer zone and its control on the development of medium and large-sized oilfields on the basis of detailed interpretation of 400 wells and 3-D seismic data over the fault zone. Three types of transfer zones developed in the Tan-Lu strike-slip fault zone are recognized according to the position of the transition zone in the strike-slip fault zone, which are named as fault-edge transfer zones, fault-overlap transfer zones and fault terminal transfer zones respectively. These transitions can be further divided into seven types, which are sigmoid, overlapping, duplex, broom-like, shingled, conjugated and compound types of transfer zones. According to the local stress state, each type of transfer zone is further subdivided into contractional and extensional types of transfer zones. Contractional transfer zones control the formation of large-scale traps, whereas extensional transfer zones control the formation of small-scale traps. Geological oil reserves related to contractional transfer zones account for up to 81% of total geological oil reserve of the Tan-Lu strike-slip fault zones. Therefore, contractional transfer zones developed in the strike-slip fault zones should serve as excellent exploration targets for the large-scale oilfield with great potential.
-
图 2 渤海海域断边转换带两种类型实例
a.S型转换带(辽西走滑带锦州20段);b.帚状转换带(辽东走滑带锦州23段)
Fig. 2. Two types of transition zones developed at the edge of the fault in Bohai Sea area
图 3 渤海海域增压型走滑转换带与释压型走滑转换带发育模式
a.右旋走滑S型转换带;b.左旋走滑S型转换带;c.右旋走滑帚状转换带;d.左旋走滑帚状转换带;e.右旋走滑叠覆型转换带;f.左旋走滑叠覆型转换带;g.右旋走滑双重型转换带;h.左旋走滑双重型转换带;i.共轭型转换带;j.右旋走滑叠瓦扇型转换带
Fig. 3. Model of the restrain and releasing strike slip transition zone in Bohai Sea area
图 4 辽西走滑带锦州25-1油田叠覆型转换带圈闭发育特征
左图:为锦州5-1油田沙二段顶面构造简图,显示右旋左阶增压型叠覆型转换带形成大型反转背斜圈闭,右旋右阶释压型转换带形成小型断鼻型圈闭;右图:两种类型转换带形成的圈闭剖面特征
Fig. 4. The trap distribution of overlapping transition zone in Jinzhou 25-1 oil field of Liaoxi strike-slip fault zone
图 5 渤海海域双重型走滑转换带特征
左图:蓬莱19-3油田增压型双重走滑转换带;右图:金县1-1油田释压型双重走滑转换带
Fig. 5. Characteristics of duplex transition zone in Bohai Sea area
图 6 渤海海域曹妃甸5-5地区共轭转换带特征
Fig. 6. Characteristic of conjugated transition zone in Caofeidian 5-5 of Bohai Sea area
图 7 渤海辽东凸起北段复合转换带特征
Fig. 7. Compound transition zone characteristics in the northern Liaodong uplift of Bohai Sea area
图 8 渤海走滑转换带级次特征
Fig. 8. Characteristics of strike slip transition zone orders in Bohai Sea area
图 9 渤海海域不同类型走滑转换带圈闭特征
Fig. 9. Traps characteristics of the different types strike slip transition zone in Bohai sea area
图 10 旅大6-2油田转换带调节断裂与油气富集的关系
a.旅大6-2油田X井油藏剖面图;b.旅大6-2油田东二下段顶面构造图
Fig. 10. Relationship between the adjustment fault and the hydrocarbon of the transition zone
图 11 S型走滑转换带增压带与释压带圈闭侧封性差异物理模拟(右旋走滑)
a.走滑量2 cm;b.走滑量6 cm.物理模拟表明,增压区断裂的闭合程度强于释压区,随着走滑距离的增加,增压区闭合程度增加
Fig. 11. The physical modeling of the difference of trap side sealing between restrain and releasing belts of sigmoid strike slip transition zone(dextral strike-slip)
-
Aydin, A., Nur, A., 1982.Evolution of Pull-Apart Basins and Their Scale Independence.Tectonics, 1(1):91-105.doi: 10.1029/tc001i001p00091 Dahlstrom, C.D.A., 1970.Structural Geology in the Eastem Margin of the Canadian Rocky-Mountains.Bull of Canadian Petroleum Geology, 18(3):332-406. http://www.academia.edu/3221894/Structural_geology_in_the_eastern_margin_of_the_Canadian_Rocky_Mountains Chen, F.J., 2003.Accommodation Zone (or Transfer Zone) of the Basic Concepts and Classification.Geoscience, 17(2):186 (in Chinese). Chen, F.J., Jia, Q.S., Zhang, H.N., 2004.Transfer Zone and Its Relation with Distribution of Sand Bodies.Oil & Gas Geology, 25(2):144-148 (in Chinese with English abstract). https://www.researchgate.net/publication/284378335_Transfer_zone_and_its_relation_with_distribution_of_sand_bodies Chen, Z.N., Chen, F.J., Wang, Q., 2005.Types of Normal Faults, Soft Linkage and Corresponding Transfer Zones.Geoscience, 19(4):495-499 (in Chinese with English abstract). http://www.sciencedirect.com/science/article/pii/S0191814104002044 Gong, Z.S., Cai, D.S., Zhang, G.C., 2007.Dominating Action of Tanlu Fault on Hydrocarbon Accumulation in Eastern Bohai Sea Area.Acta Petrolei Sinica, 28(4):1-10 (in Chinese with English abstract). https://www.researchgate.net/publication/286749423_Fault_Activity's_Controlling_Effect_on_Source_Rock_an_Example_from_Bohai_Sea_Area Lao, H.G., Cheng, Q.H., 2012.The Tectonic Evolution of Lateral Transitional Zone in Southern Jiyang Depression and Its Hydrocarbon Accumulation.Geological Review, 58(5):893-900 (in Chinese with English abstract). http://en.cnki.com.cn/Article_en/CJFDTOTAL-XDDZ200801009.htm Liu, E.T., Wang, H., Li, Y., et al., 2013.Control of Transfer Zone over Sequences and Depositional System in Fushan Sag, Beibuwan Basin.Journal of China University of Petroleum (Science & Technology Edition), 37(3):17-22, 29 (in Chinese with English abstract). https://www.researchgate.net/publication/287619935_Control_of_transfer_zone_over_sequences_and_depositional_system_in_Fushan_sag_Beibuwan_Basin Liu, S., Shen, Z.M., Si, J.T., 2006.Dynamics of the Evolution of the Tanlu Fault Zone:A Multiforce in Multiphase Acting Model.Journal of Chengdu University of Technology (Science & Technology Edition), 33(5):473-477 (in Chinese with English abstract). https://www.researchgate.net/publication/286743545_Structural_characteristics_and_its_control_on_hydrocarbon_accumulation_of_the_Kongdian_Formation_in_the_Wangjiagang_structural_zone_Dongying_Depression Morley, C.K., Nelson, R.A., Patton, T.L., 1990.Transfer Zones in the East African Rift System and Their Relevance to Hydrocarbon Exploration in Rifts (1).AAPG Bulletin, 74(8):1234-1253.doi: 10.1306/0c9b2475-1710-11d7-8645000102c1865d Qi, J.F., 2007.Structural Transfer Zones and Significance for Hydrocarbon Accumulation in Rifting Basins.Marine Origin Petroleum Geology, 12(4):43-50 (in Chinese with English abstract). http://www.searchanddiscovery.com/documents/2012/10401abeinomugisha/ndx_abeinomugisha.pdf Segall, P., Pollard, D.D., 1980.Mechanics of Discontinuous Faults.Journal of Geophysical Research:Solid Earth, 85(B8):4337-4350.doi: 10.1029/jb085ib08p04337 Song, H.L., 1996.Oblique Slip and Strike-Slip Transform Structures.Geological Science and Technology Information, 15(4):33-38(in Chinese with English abstract). https://en.wikipedia.org/wiki/Strike-slip_tectonics Sun, S.M., Peng, S.M., Huang, S.W., 2006.Charactertics and Origin of Transverse Accommodation Zones in the Dongpu Subbasin, Bohai Gulf Basin, and Their Role in Regional Segmentation.Journal of Geomechanics, 12(1):55-63 (in Chinese with English abstract). Swanson, M.T., 2005.Geometry and Kinematics of Adhesive Wear in Brittle Strike-Slip Fault Zones.Journal of Structural Geology, 27(5):871-887.doi: 10.1016/j.jsg.2004.11.009 Cunningham, W.D., Mann, P., 2007.Tectonics of Strike-Slip Restraining and Releasing Bends.Geological Society, London, Special Publications, 290(1):1-12.doi: 10.1144/sp290.1 Tian, W., He M., Yang Y.J., et.al., 2015.Complex Linkage and Transformation of Boundary Faults of Northern Huizhou Sag in Pearl River Mouth Basin.Earth Science, 40(12):2037-2051 (in Chinese with English abstract). https://www.researchgate.net/publication/290497145_Complex_linkage_and_transformation_of_boundary_faults_of_northern_Huizhou_sag_in_Pearl_River_Mouth_Basin Wan, T.F., Zhu, H., Zhao, L., et.al., 1996.Formation and Evolution of Tancheng-Lujiang Fault Zone:A Review.Geoscience, 10(2):159-168 (in Chinese with English abstract). http://en.cnki.com.cn/Article_en/CJFDTOTAL-XDDZ602.002.htm Wang, J.X., Chen, F.J., Li, C.Y., 2003.Character of the Extensional Structures and Accommodation Zones in the Huimin Depression, Shandong Province.Geoscience, 17(2):203-209 (in Chinese with English abstract). https://www.researchgate.net/publication/284061236_Character_of_the_cxten-sional_structures_and_accommodation_zones_in_the_Huiniin_Depression_Shandong_Province Wu, G.H., Qi, J.F., 1999.Characteristics and Origin of First Order Transfer Zones in Huanghua Basin.Oil & Gas Geology, 20(2):125-128 (in Chinese with English abstract). http://en.cnki.com.cn/Article_en/CJFDTotal-SYYT902.005.htm Xu, Y.D., Liang, Y.P., Jiang, S.S., et.al., 2014.Evolution of Cenozoic Sedimentary Basins in Eastern China.Earth Science, 39(8):1079-1098 (in Chinese with English abstract). https://www.researchgate.net/publication/285947643_Evolution_of_cenozoic_sedimentary_basins_in_Eastern_China Ye, H., 1988.Application of Fault Block Tectonics Theory in the Study of Strike Slip Transformation Structure.In:Sun, S., ed., Fault Block Structure Theory and Its Application.Science Press, Beijing, 22-31 (in Chinese). Zhang, L., Wu, Z.P., Li, W., et al., 2012.Research on the Extensional Transfer Structures in the Jiyang Depression.Geotectonica et Metallogenia, 36(1):24-31 (in Chinese with English abstract). http://www.cscanada.net/index.php/aped/article/view/5953/0 Zhou, J.S., Yang, C.Y., Chen, F.J, et al., 1997.Structural Characteristics and Origin of Transverse Transfer Zone in Huanghua Subbasin.Geoscience, 11(4):426-433 (in Chinese with English abstract). https://www.researchgate.net/publication/282712810_Structural_characteristics_of_lateral_low_uplift_in_Gaoyou_sag 陈发景, 2003.调节带(或传递带)的基本概念和分类.现代地质, 17(2): 186. http://www.cnki.com.cn/Article/CJFDTOTAL-XDDZ200302011.htm 陈发景, 贾庆素, 张洪年, 2004.传递带及其在砂体发育中的作用.石油与天然气地质, 25(2): 144-148. doi: 10.11743/ogg20040205 陈昭年, 陈发景, 王琦, 2005.正断层软联接及其传递带类型.现代地质, 19(4): 495-499. http://www.cnki.com.cn/Article/CJFDTOTAL-XDDZ200504002.htm 龚再升, 蔡东升, 张功成, 2007.郯庐断裂对渤海海域东部油气成藏的控制作用.石油学报, 28(4): 1-10. doi: 10.7623/syxb200704001 劳海港, 陈清华, 2012.济阳坳陷南部横向变换带构造演化及其油气聚集规律.地质论评, 58(5): 893-900. http://www.cnki.com.cn/Article/CJFDTOTAL-DZLP201205012.htm 刘恩涛, 王华, 李媛, 等, 2013.北部湾盆地福山凹陷构造转换带对层序及沉积体系的控制.中国石油大学学报(自然科学版), 37(3): 17-22, 29 http://www.cnki.com.cn/Article/CJFDTOTAL-SYDX201303005.htm 刘顺, 沈忠民, 司建涛, 2006.郯庐断裂带演化动力学--多力源多时期分段作用模式.成都理工大学学报(自然科学版), 33(5): 473-477. http://www.cnki.com.cn/Article/CJFDTOTAL-CDLG200605006.htm 漆家福, 2007.裂陷盆地中的构造变换带及其石油地质意义.海相油气地质, 12(4): 43-50. http://www.cnki.com.cn/Article/CJFDTOTAL-HXYQ200704009.htm 宋鸿林, 1996.斜向滑动与走滑转换构造.地质科技情报, 15(4): 33-38. http://www.cnki.com.cn/Article/CJFDTOTAL-DZKQ604.007.htm 孙思敏, 彭仕宓, 黄述旺, 2006.渤海湾盆地东濮凹陷横向调节带特征、成因及其区域分段作用.地质力学学报, 12(1): 55-63. http://www.cnki.com.cn/Article/CJFDTOTAL-DZLX200601008.htm 田巍, 何敏, 杨亚娟, 等, 2015.珠江口盆地惠州凹陷北部边界断裂复合联接和转换.地球科学, 40(12): 2037-2051. http://www.earth-science.net/WebPage/Article.aspx?id=3207 万天丰, 朱鸿, 赵磊, 等, 1996.郯庐断裂带的形成与演化:综述.现代地质, 10(2): 159-168. http://www.cnki.com.cn/Article/CJFDTOTAL-XDDZ602.002.htm 王纪祥, 陈发景, 李趁义, 2003.山东惠民凹陷伸展构造及调节带特征.现代地质, 17(2): 203-209. http://www.cnki.com.cn/Article/CJFDTOTAL-XDDZ200302016.htm 邬光辉, 漆家福, 1999.黄骅盆地一级构造变换带的特征与成因.石油与天然气地质, 20(2): 125-128. doi: 10.11743/ogg19990206 徐亚东, 梁银平, 江尚松, 等, 2014.中国东部新生代沉积盆地演化.地球科学, 39(8): 1079-1098. http://www.earth-science.net/WebPage/Article.aspx?id=2918 叶洪, 1988. 断块构造理论在研究"走滑转换构造"中的应用. 见: 孙枢, 编, 断块构造理论及其应用. 北京: 科学出版社, 22-31. 张林, 吴智平, 李伟, 等, 2012.济阳坳陷伸展背景下的变换构造研究.大地构造与成矿学, 36(1): 24-31. http://www.cnki.com.cn/Article/CJFDTOTAL-DGYK201201007.htm 周建生, 杨池银, 陈发景, 等, 1997.黄骅坳陷横向变换带的构造特征及成因.现代地质, 11(4): 426-433. http://www.cnki.com.cn/Article/CJFDTOTAL-XDDZ704.001.htm -
下载:
点击查看大图
计量
- 文章访问数: 5595
- HTML全文浏览量: 2966
- PDF下载量: 85
- 被引次数: 0
