王盛波;

• 1:成都理工大学能源学院

摘要(Abstract)：

根据盆地演化规律及断层穿层性,将海拉尔盆地断裂分为盆地基底断裂和盖层断裂;根据活动时期和变形特征,分为早期伸展断裂系统、中期张扭断裂系统、早期伸展—中期张扭断裂系统、中期张扭—晚期反转断裂系统和早期伸展—中期张扭—晚期反转断裂系统.结合海拉尔盆地岩心和野外观察,建立3种断裂带内部结构模式:致密储层中断层角砾岩结构、泥质岩盖层中泥岩涂抹结构和泥质岩盖层内断层泥结构.与油气垂向运移有关的断裂系统包括早期伸展—中期张扭—晚期反转断裂系统(正反转断层)、早期伸展—中期张扭—晚期反转活动的断裂系统(反转再活动正断层)和中期张扭—晚期反转活动的断裂系统.该研究成果可以为海拉尔盆地断层封闭性评价提供指导.

关键词(KeyWords)：断裂系统;断裂带内部结构;断层核;破碎带;断层封闭性

Abstract:

Keywords:

基金项目(Foundation):国家科技重大专项(2011ZX05003—001)

作者(Author):王盛波;

Email:

参考文献(References)：

• [1]Bouvier J D,Kaars-Sijpesteijn C H,Kluesner D F,et al.Three-dimensional seismic interpretation and fault sealing investigations,Nun River field,Nigeria[J].AAPG,1989,73:1397-1414.

• [2]Harding T P,Tuminas A C.Structural interpretation of hydrocarbon traps sealed by basement normal blocks and at stable flank offoredeep basins and at rift basins[J].AAPG Bulletin,1989,73:812-840.

• [3]Knipe R J.Faulting processes and fault seal[C]//Larsen R M.Structural and tectonic modelling and its application to petroleum geol-ogy.Stavanger,Norwegian Petroleum Society,1992,325-342.

• [4]Smith D A.Theoretical consideration of sealing and nonsealing faults[J].AAPG,1966,50:363-374.

• [5]Knipe R J.Juxtaposition and seal diagrams to help analyse fault seals in hydrocarbon reservoirs[J].AAPG,1997,81(2):187-195.

• [6]Doughty P T.Clay smear seals and fault sealing potential of an exhumed growth fault,Rio Grande rift,New Mexico[J].AAPG,2003,3:427-444.

• [7]Aydin A,Eyal Y.Anatomy of a normal fault with shale smear:implications for fault seal[J].AAPG,2002,86:1367-1382.

• [8]Clausen J A,Gabrielsen R H.Parameters that control the development of clay smear at low stress states:an experiment study usingring-shear apparatus[J].Journal of Structure Geology,2002,24:1569-1586...

• [9]Allan U S.Model for hydrocarbon migration and entrapment within faulted structures[J].AAPG,1989,73:803-811.

• [10]Forster C B,Evans J P.Hydrogeology of thrust faults and crystalline thrust sheets:Results of combined field and modeling studies[J].Geophysical Research Letters,1991,18:979-982.

• [11]Byerlee J.Model for episodic flow of high-pressure water in fault zones before earthquakes[J].Geology,1993,21:303-306.

• [12]Scholz C H,Anders M H.The permeability of faults,in The mechanical involvement of fluids in faulting:U S[J].Geological Sur-vey Open-File Report,1994,94-228,247-253.

• [13]Caine.Fault zone architecture and permeability structure[J].Geology,1996,24:1025-1028.

• [14]付晓飞,方德庆,吕延防,等.从断裂带内部结构出发评价断层垂向封闭性的方法[J].地球科学,2005,30(3):328-336.Fu Xiaofei,Fang Deqing,Lv Yanfang,et al.Method of Evaluating Vertical Sealing of Faults in Terms of the Internal Structure ofFault Zones[J].Earth Science,2005,30(3):328-336.

• [15]Yielding G,Freeman B,Needham D T.Quantitative fault seal prediction[J].AAPG,1997,81(6):897-917.

• [16]Bretan P,Yielding G,Jones H.Using Calibrate shale gouge ratio to estimate hydrocarbon column heights[J].AAPG,2003,87(3):397-413.

• [17]吴根耀.白垩纪:中国及邻区板块构造演化的一个重要变换期[J].中国地质,2006,33(1):64-77.Wu Genyao.Cretaceous:A key transition period of the plate tectonic evolution in China and its adjacent areas[J].Geology In China,2006,33(1):64-77.

• [18]陈均亮,吴河勇,朱德丰,等.海拉尔盆地构造演化及油气勘探前景[J].地质科学,2007,42(1):147-159.Chen Junliang,Wu Heyong,Zhu Defeng,et al.Tectonic evolution of the Hailar Basin and its potentials of oil-gas exploration[J].Chinese Journal Of Geology,2007,42(1):147-159.

• [19]吕延防.断层封闭的差异性分析[J].大庆石油学院学报,1996,20(4):7-11.Lv Yanfang.Analysis on the difference of fault seals[J].Journal of Daqing Petroleum Institute,1996,20(4):7-11.

• [20]高君,吕延防,田庆丰.断裂带内部结构与油气运移封闭[J].大庆石油学院学报,2007,31(2):4-7.Gao Jun,Lv Yanfang,Tian Qingfeng.Analysis of hydrocarbon migration through the fault based on the interior structure of faultzone[J].Journal of Daqing Petroleum Institute,2007,31(2):4-7.

• [21]吕延防,王帅.断层封闭性定量评价[J].大庆石油学院学报,2010,31(5):35-41.Lv Yanfang,Wang Shuai.Quantitative evaluation of fault seal[J].Journal of Daqing Petroleum Institute,2010,31(5):35-41.

• [22]Anderson L J,Osborne R H,Palmer D F.Cataclastic rocks of the San Gabriel fault-An expression of deformation at deeper crustallevels in the San Andreas fault zones[J].Tectonophysics,1983,98:209-251.

• [23]Andersson J E,Ekman L,Nordqvist R,et al.Hydraulic testing and modeling of a low-angle fracture zone at Finnsjon,Sweden[J].Journal of Hydrology,1991,126:45-77.

• [24]Goddard J V,Evans J P.Chemical changes and fluid-rock interaction in faults of crystalline thrust sheets,northwestern Wyoming,US A[J].Journal of Structural Geology,1995,17:533-547.

• [25]Sperrevik S,Faerseth R B,Gabrielsen R H.Experiments on clay smear formation along faults[J].Petroleum Geoscience,2000,6:113-123.

• [26]Yielding G.Shale gouge ratio-Calibration by geohistory.In:Koeslter A G,Hunsdale R,eds.Hydrocarbon seal quantification[J].Norwegian Petroleum Society Special Publication,2002,1-15.

• [27]Kim J W,Berg R R,Watkins J S,et al.Trapping capacity of faults in the Eocene Yegua Formation,East Sour Lake field,southeastTexas[J].AAPG,2003,87:415-425.

• [28]Takahashi M.Permeability change during experimental fault smearing[J].Journal of Geophysical Research,2003,108(B5):1-15.

• [29]Eichhubl P,D’Onfro P S,Aydin A,et al.Structure,petrophysics,and diagenesis of shale entrained along a normal fault at Black Di-amond Mines,California-Implicationsfor fault seal[J].AAPG,2005,89(9):1113-1137.

• [30]Faerseth R B.Shale smear along large faults:continuity of smear and the fault seal capacity[J].Journal of the Geological Society,2006,163:741-751.

• [31]Hesthammer J and Fossen H.The use of dipmeter data to constrain the structural geology of the Gullfaks Field,northern North Sea[J].Marine and Petroleum Geology,1998,15:549-573.

• [32]Fisher Q J and Knipe R J.The permeability of faults within siliciclastic petroleum reservoirs of the North Sea and Norwegian Conti-nental Shelf[J].Marine and Petroleum Geology,2001,18:1063-1081.

• [33]付晓飞,陈哲,闫百泉,等.海拉尔-塔木察格盆地中部断陷带油气富集主控因素分析——断层和盖层双控模式[J].中国科学:地球科学,2013,43(1):1-14.Fu Xiaofei,Chen Zhe,Yan Baiquan,et al.Analysis of main controlling factors for hydrocarbon accumulation in central rift zones ofthe Hailar-Tamtsag Basin using a fault-caprock dual control mode[J].Science China:Earth Sciences,2013,43(1):1-14...