Lithologic Reservoirs ›› 2021, Vol. 33 ›› Issue (1): 46-56.doi: 10.12108/yxyqc.20210105

• PETROLEUM GEOLOGY • Previous Articles     Next Articles

Transport system and its control on reservoir formation of Jurassic-Cretaceous in hinterland of Junggar Basin

CHEN Gang1, BIAN Baoli2, LI Xiao2, LIU Gang1, GONG Deyu1, ZENG Delong2   

  1. 1. PetroChina Research Institute of Petroleum Exploration and Development, Beijing 100083, China;
    2. Research Institute of Exploration and Development, PetroChina Xinjiang Oilfield Company, Karamay 834000, Xinjiang, China
  • Received:2020-07-03 Revised:2020-10-03 Online:2021-02-01 Published:2021-01-25

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Abstract: Jurassic-Cretaceous reservoirs are characterized by distant source and secondary-filled in hinterland of Junggar Basin. Transport system plays an important role in controlling hydrocarbon accumulation. Based on the systematic description of fault,sand layer and unconformity and the study of their spatial combination relationship, three types of transport were sorted out,including vertical single fault transport type,fault blanket sand terrace type and fault unconformity composite transport type. Combined with the spatiotemporal coupling relationship among migration system,reservoir forming process and reservoir forming elements,three types of hydrocarbon accumulation models under the control of the dominant transport system were summarized:three-dimensional hydrocarbon accumulation model under the control of vertical single transportation of fault, ring convex hydrocarbon accumulation model under the control of fault blanket sand step transportation,and continuous hydrocarbon accumulation model under the control of fault unconformity composite transportation. Based on the distribution of transport elements and hydrocarbon accumulation background, it is pointed out that the Upper Jurassic and Lower Cretaceous are important replacement areas for searching for efficient oil and gas reservoirs.

Key words: transport system, fault, unconformity, sandstone transport bed, Jurassic, Cretaceous, Junggar Basin

CLC Number: 

  • TE122.1+2
[1] MAGOON L B,DOWWG. The petroleum system-from source to trap.AAPG Memoir 60,1994.
[2] 孙自明,傅金华,韩军,等. 论成藏动力学与成藏动力系统. 石油与天然气地质,2007,28(2):129-138. SUN Z M,FU J H,HAN J,et al. A discussion on dynamics and dynamic system for hydrocarbon migration and accumulation. Oil & Gas Geology,2007,28(2):129-138.
[3] 吴冲龙,王燮培,毛小平,等. 油气系统动力学的概念模型与方法原理:盆地模拟和油气成藏动力学模拟的新思路、新方法.石油实验地质,1998,20(4):319-327. WU C L,WANG X P,MAO X P,et al. Conceptual model and method principle of petroleum system dynamics:New ideas and methods for basin simulation and hydrocarbon accumulation dynamics simulation. Petroleum Geology & Experiment,1998, 20(4):319-327.
[4] 郝芳,邹华耀,姜建群,等. 油气成藏动力学及其研究进展. 地学前缘,2000,7(3):11-21. HAO F,ZOU H Y,JIANG J Q,et al. Dynamics of petroleum accumulation and its advances. Earth Science Frontiers,2000,7(3):11-21.
[5] 赵文智,何登发,翟辉,等. 复合含油气系统中油气运移流向研究的意义.石油学报,2001,22(4):7-12. ZHAO W Z,HE D F,ZHAI H,et al. Study on the pathways of hydrocarbon migration of the composite petroleum system. Acta Petrolei Sinica,2001,22(4):7-12.
[6] 邹华耀,郝芳,张柏桥,等. 准噶尔盆地流体输导格架及其对油气成藏与分布的控制. 地球科学-中国地质大学学报, 2005,30(5):609-616. ZOU H Y,HAO F,ZHANG B Q,et al. Fluid-conduit framework and its control on petroleum accumulation in the Junggar Basin. Earth Science-Journal of China University of Geosciences, 2005,30(5):609-616.
[7] BEKELE E B,PERSON M A,MARSILY G D. Petroleum migration pathways and charge concentration:a three-dimensional model discussion. AAPG Bulletin,1999,83(6):1015-1019.
[8] PETERS K E,FOWLER M G. Applications of petroleum geochemistry to exploration and reservoir management. Organic Geochemistry, 2002,33:5-36.
[9] GEORGE S C,GREENWOOD P F,LOGAN G A,et al. Comparison of palaeo oil charges with currently reservoir hydrocarbons using molecular and isotopic analyses of oil-bearing fluid inclusions:Jabiru Oilfield,Timor Sea. APPEA Journal,1997, 37:490-503.
[10] 张卫海,查明,曲江秀,等. 油气输导体系的类型及配置关系. 新疆石油地质,2003,24(2):118-120. ZHANGWH,ZHAM,QU J X,et al. The type and configuration of petroleum transportation system. Xinjiang Petroleum Geology, 2003,24(2):118-120.
[11] WANG C Y,XIE X L. Hydrofracturing and episodic fluid flow in shale-rich basins:anumerical study. AAPG Bulletin,1998, 82(10):1857-1869.
[12] 赵忠新,王华,郭齐军,等. 油气输导体系的类型及其输导性能在时空上的演化分析. 石油实验地质,2002,24(6):527-532. ZHAO Z X,WANG H,GUO Q J,et al. Types of passage system and analysis of evolution of its capabilities in temporal and spatial range. Petroleum Geology & Experiment,2002,24(6):527-532.
[13] 田光荣,王建功,孙秀建,等. 柴达木盆地阿尔金山前带侏罗系含油气系统成藏差异性及其主控因. 岩性油气藏,2021,33(1):1-14. TIAN G R,WANG J G,SUN X J,et al. Hydrocarbon accumulation differences and main controlling factors of Jurassic petroleum system in Altun piedmont of Qaidam Basin. Lithologic Reservoirs,2021,33(1):1-14.
[14] HINDLEAD. Petroleum migration pathways and charge concentration:A three-dimensional model-reply. AAPG Bulletin,1999, 83(6):1020-1023.
[15] RHEA L,PERSON M,MARSILY G,et al. Geostatistical models of secondary oil migration within heterogeneous carrier beds:a theoretical example. AAPG Bulletin,1994,78(11):1679-1691.
[16] 尹微,樊太亮,曾清波,等. 塔里木盆地巴楚地区输导体系类型及油气成藏.石油实验地质,2006,28(4):340-344. YIN W,FAN T L,ZENG Q B,et al. Pathway system types and hydrocarbon accumulation in Bachu area,the Tarim Basin. Petroleum Geology & Experiment,2006,28(4):340-344.
[17] 何登发.不整合面的结构与油气聚集.石油勘探与开发,2007, 34(2):142-149. HE D F. Structure of unconformity and its control on hydrocarbon accumulation. Petroleum Exploration and Development, 2007,34(2):142-149.
[18] 陈欢庆,朱筱敏,张琴,等. 输导体系研究进展. 地质论评, 2009,52(2):269-275. CHEN H Q,ZHU X M,ZHANG Q,et al. Research progress of transport system. Geological Review,2009,52(2):269-275.
[19] 李明诚. 石油与天然气运移.3版. 北京:石油工业出版社, 2004. LI M C. Migration of oil and gas. 3rd ed. Beijing:Petroleum Industry Press,2004.
[20] 武芳芳,朱光有,张水昌,等. 塔里木盆地油气输导体系及对油气成藏的控制作用.石油学报,2009,30(3):332-341. WU F F,ZHU G Y,ZHANG S C,et al. Types of hydrocarbon migration pathways and its controlling effects on hydrocarbon distribution in Tarim Basin. Acta Petrolei Sinica,2009,30(3):332-341.
[21] 张越迁,张年富. 准噶尔盆地中部油气勘探回顾与展望. 新疆石油地质,2000,21(2):105-109. ZHANG Y Q,ZHANG N F. Review and prospect for petroleum exploration in hinterland of Junggar Basin. Xinjiang Petroleum Geology,2000,21(2):105-109.
[22] 宋岩,王喜双,房德权. 准噶尔盆地含油气系统的形成与演化.石油学报,2000,21(4):20-25. SONG Y,WANG X S,FANG D Q. The formation and development of petroleum systems in Junggar Basin.Acta Petrolei Sinica, 2000,21(4):20-25.
[23] 何登发,陈新发,张义杰,等. 准噶尔盆地油气富集规律. 石油学报,2004,25(1):1-10. HE D F,CHEN X F,ZHANG Y J,et al. Enrichment characteristics of oil and gas in Junggar Basin. Acta Petrolei Sinica,2004, 25(1):1-10.
[24] 张义杰,柳广弟. 准噶尔盆地复合油气系统、演化与油气勘探方向. 石油勘探与开发,2002,29(1):36-39. ZHANG Y J,LIU G D. Characteristics and evolution of composite petroleum systems and the exploration strategy in Junggar Basin,northwest China. Petroleum Exploration and Development, 2002,29(1):36-39.
[25] 刘刚,卫延召,陈棡,等. 准噶尔盆地腹部侏罗系-白垩系次生油气藏形成机制及分布特征. 石油学报,2019,40(8):914-927. LIU G,WEI Y Z,CHEN G,et al. Genetic mechanism and distribution characteristics of Jurassic-Cretaceous secondary reservoirs in the hinterland of Junggar Basin. Acta Petrolei Sinica,2019, 40(8):914-927.
[26] 胡素云,蔚远江,董大忠,等. 准噶尔盆地腹部断裂活动对油气聚集的控制作用.石油学报,2006,27(1):1-7. HU S Y,YU Y J,DONG D Z,et al. Control of fault activity on hydrocarbon accumulation in central Junggar Basin. Acta Petrolei Sinica,2006,27(1):1-7.
[27] 齐雪峰,吴晓智,刘得光,等. 准噶尔盆地腹部深层构造特征与油气前景.新疆石油地质,2010,31(2):111-114. QI X F,WU X Z,LIU D G,et al. The deep structural features and hydrocarbon prospect in hinterland of Junggar Basin. Xinjiang Petroleum Geology,2010,31(2):111-114.
[28] 张国俊,况军. 准噶尔盆地腹部地区石油地质特征及找油前景.新疆石油地质,1993,14(3):201-208. ZHANG G J,KUANG J. Petroleum geology characteristics and prospects for hydrocarbon in hinterland area of Junggar Basin. Xinjiang Petroleum Geology,1993,14(3):201-208.
[29] 潘长春,傅家谟,盛国英,等. 准噶尔盆地腹部油气藏油源的确定及其意义.石油学报,1999,20(5):27-32. PAN C C,FU J M,SHENG G Y,et al. Determination and implication of petroleum origins of oil reservoirs in central Junggar Basin. Acta Petrolei Sinica,1999,20(5):27-32.
[30] 蔡忠贤,陈发景,贾振远. 准噶尔盆地的类型和构造演化. 地学前缘,2000,7(4):10-18. CAI Z X,CHEN F J,JIA Z Y. Types and tectonic evolution of Junggar Basin. Earth Science Frontiers,2000,7(4):10-18.
[31] 吴庆福. 准噶尔盆地发育阶段、构造单元划分及局部构造成因概论. 新疆石油地质,1986,7(1):29-37. WU Q F. Development stage,structural element division and genesis of local structural in Junggar Basin. Xinjiang Petroleum Geology,1986,7(1):29-37.
[32] 张功成. 准噶尔盆地结构与油气田分布. 石油学报,1999,20(1):1-9. ZHANG G C. Structure of Junggar Basin and distribution of oil and gas fields. Acta Petrolei Sinica,1999,20(1):1-9.
[33] 彭希龄,张国俊. 准噶尔盆地构造演化与油气聚集//朱夏,徐旺.中国中新生代沉积盆地. 北京:石油工业出版社,1990. PENG X L,ZHANG G J. Tectonic evolution and hydrocarbon accumulation in Junggar Bbasin//ZHU X,XUW.Mesozoic-Cenozoic sedimentary basins in China. Beijing:Petroleum Industry Press,1990.
[34] 李振宏,汤良杰,丁文龙,等. 准噶尔盆地腹部地区断裂特征分析. 石油勘探与开发,2002,29(1):40-43. LI Z H,TANG L J,DINGWL,et al. Fault characteristic analysis for the hinterland of Junggar Basin. Petroleum Exploration and Development,2002,29(1):40-43.
[35] 吴孔友,瞿建华,王鹤华,等. 准噶尔盆地大侏罗沟断层走滑特征、形成机制及控藏作用. 中国石油大学学报(自然科学版),2014,38(5):41-47. WU K Y,QU J H,WANG H H,et al. Strike-slip characteristics, forming mechanisms and controlling reservoirs of Dazhuluogou fault in Junggar Basin. Journal of China University of Petroleum (Edition of Natural Science),2014,38(5):41-47.
[36] 马宗晋,曲国胜,李涛,等. 准噶尔盆地盆山构造耦合与分段性.新疆石油地质,2008,29(3):271-276. MA Z J,QU G S,LI T,et al. Tectonic coupling and segmentation of marginal structural belt in Junggar Basin. Xinjiang Petroleum Geology,2008,29(3):271-276.
[37] 陈中红,吴孔友,查明,等. 准噶尔盆地陆梁地区断裂-不整合面输导体系与油气运聚.地球学报,2006,27(1):63-68. CHEN Z H,WU K Y,ZHAM,et al. Relationship between passage systems of faults-unconformities and hydrocarbon migration:a case study of the Luliang Uplift in the Junggar Basin.Acta Geoscientica Sinica,2006,27(1):63-68.
[38] 付广,王慧. 隆起区和斜坡区断-砂输导体系控制油气分布特征的差异性. 中国石油大学学报(自然科学版),2018,42(3):22-30. FU G,WANG H. Differences of distribution characteristics of oil and gas by the control of fault-sand transporting system in uplifted area and slope area. Journal of China University of Petroleum (Edition of Natural Science),2018,42(3):22-30.
[39] 付广,王宇鹏. 断裂密集带及附近下生上储式油气富集的控制因素. 岩性油气藏,2018,30(2):23-29. FU G,WANG Y P. Controlling factors of hydrocarbon enrichment with the type of "below source and upper reservoir" in fault concentrated zones and nearby. Lithologic Reservoirs,2018,30(2):23-29.
[40] 史建南,邹华耀.准噶尔盆地油气输导体系类型与成藏规律研究. 石油天然气学报(江汉石油学院学报),2009,31(3):7-12. SHI J N,ZOU HY. Study on the conduit system types and hydrocarbon accumulation rules in Junggar Basin. Journal of Oil and Gas Technology(Journal of Jianghan Petroleum Institute),2009, 31(3):7-12.
[41] 况军,姚根顺,朱国华,等. 准噶尔盆地腹部地区侏罗系三工河组相对优质储集层的成因. 石油勘探与开发,2001,28(6):34-36. KUANG J,YAO G S,ZHU G H.et al. The origin of favorable sandstone reservoirs of Sangonghe Formation,Lower Jurassic in central Junggar Basin. Petroleum Exploration and Development, 2001,28(6):34-36.
[42] 靳军,付欢,于景维,等. 准噶尔盆地白家海凸起下侏罗统三工河组沉积演化及油气勘探意义. 中国石油勘探,2018,23(1):81-90. JIN J,FU H,YU J W,et al. Sedimentary evolution of the Lower Jurassic Sangonghe Formation in Baijiahai uplift,Junggar Basin and its significance in oil and gas exploration. China Petroleum Exploration,2018,23(1):81-90.
[43] 鲍志东,刘凌,张冬玲,等. 准噶尔盆地侏罗系沉积体系纲要. 中国石油勘探,2005,23(2):194-202. BAO Z D,LIU L,ZHANG D L,et al. Depositional system frameworks of the Jurassic in Junggar Basin. Acta Sedimentologica Sinica,2005,23(2):194-202.
[44] 罗晓容,张立强,张立宽,等. 碎屑岩输导层非均质性与油气运聚成藏.石油学报,2020,41(3):253-272. LUO X R,ZHANG L Q,ZHANG L K,et al. Heterogeneity of clastic carrier bed and hydrocarbon migration and accumulation. Acta Petrolei Sinica,2020,41(3):253-272.
[45] 陈中红,查明,朱筱敏. 准噶尔盆地陆梁隆起不整合面与油气运聚关系.古地理学报,2003,5(1):120-126. CHEN Z H,ZHAM,ZHU X M. Relation between unconformity surface and hydrocarbon migration and accumulation of Luliang uplift in Junggar Basin. Journal of Palaeogeography,2003,5(1):120-126.
[46] 何登发,周路,唐勇,等. 准噶尔盆地中侏罗统西山窑组与头屯河组间不整合面特征及其油气勘探意义. 古地理学报, 2007,9(4):387-396. HE D F,ZHOU L,TANG Y,et al. Characteristics of unconformity between Xishanyao Formation and Toutunhe Formation of Middle Jurassic in Junggar Basin and its significance for oil and gas exploration. Journal of Palaeogeography,2007,9(4):387-396.
[47] 邹才能,侯连华,杨帆,等. 碎屑岩风化壳结构及油气地质意义.中国科学:地球科学,2014,44(12),2652-2664. ZOU C N,HOU LH,YANG F,et al. Structure of weathered clastic crust and its petroleum potential. Science China:Earth Sciences, 2014,44(12),2652-2664.
[48] 牟中海,何琰,唐勇,等. 准噶尔盆地陆西地区不整合与油气成藏的关系.石油学报,2005,26(3):16-20. MU Z H,HE Y,TANG Y,et al. Relation of unconformity with hydrocarbon accumulation in Luxi area of Junggar Basin. Acta Petrolei Sinica,2005,26(3):16-20.
[49] 杨德彬,朱光有,苏劲,等. 中国含油气盆地输导体系类型及其有效性评价.西南石油大学学报,2011,33(3):8-17. YANG D B,ZHU G Y,SU J,et al. The passage system and effectiveness evaluation of oil and gas basin in China. Journal of Southwest Petroleum University,2011,33(3):8-17.
[50] 陈建平,邓春萍,梁狄刚,等. 叠合盆地多烃源层混源油定量判析:以准噶尔盆地东部彩南油田为例. 地质学报,2004,78(2):279-288. CHEN J P,DENG C P,LIANG D G,et al. Quantification of mixed oil derived from multiple source rocks:a typical case study of the Cainan Oilfield in the east Junggar Basin,northwest China. Acta Geologica Sinica,2004,78(2):279-288.
[51] 王绪龙,支东明,王屿涛,等. 准噶尔盆地烃源岩与油气地球化学. 北京:石油工业出版社,2013. WANG X L,ZHI D M,WANG Y T,et al. Source rocks and oilgas geochemistry in Junggar Basin. Beijing:Petroleum Industry Press,2013.
[52] 李明诚,单秀琴,马成华,等. 油气成藏期探讨. 新疆石油地质,2005,26(5):587-591. LI M C,SHAN X Q,MA C H,et al. An approach to hydrocarbon accumulation period. Xinjiang Petroleum Geology,2005,26(5):587-591.
[53] 张义杰,准噶尔盆地断裂控油的流体地球化学证据. 新疆石油地质,2003,24(2):100-106. ZHANG Y J. Geochemical proof from fluid flow controlled by faulted zone in Junggar Basin. Xinjiang Petroleum Geology, 2003,24(2):100-106.
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