岩性油气藏 ›› 2021, Vol. 33 ›› Issue (1): 12–24.doi: 10.12108/yxyqc.20210102

• 论坛与综述 • 上一篇    下一篇

地层油气藏主要勘探进展及未来重点领域

朱如凯1,2, 崔景伟1,2, 毛治国1,2, 曹正林1, 王兴志3, 高长海4, 刘永福5   

  1. 1. 中国石油勘探开发研究院, 北京 100083;
    2. 中国石油油气储层重点实验室, 北京 100083;
    3. 西南石油大学 地球科学与技术学院, 成都 610500;
    4. 中国石油大学(华东)深层油气重点实验室, 山东 青岛 266580;
    5. 中国石油塔里木油田分公司 勘探开发研究院, 新疆 库尔勒 841000
  • 收稿日期:2020-08-19 修回日期:2020-10-25 出版日期:2021-02-01 发布日期:2021-01-25
  • 通讯作者: 崔景伟(1980-),男,博士,高级工程师,主要从事成藏地球化学和非常规油气地质方面的研究工作。Email:jingwei.cui@126.com。 E-mail:jingwei.cui@126.com
  • 作者简介:朱如凯(1968-),男,博士,教授级高级工程师,主要从事非常规油气和沉积储层方面的研究工作。地址:(100083)北京市海淀区学院路20号。Email:zrk@petrochina.com.cn
  • 基金资助:
    国家科技重大专项“大型地层油气藏形成主控因素与有利区带评价”(编号:2017ZX05001-001)资助

Main exploration progress and future key fields of stratigraphic reservoirs

ZHU Rukai1,2, CUI Jingwei1,2, MAO Zhiguo1,2, CAO Zhenglin1, WANG Xingzhi3, GAO Changhai4, LIU Yongfu5   

  1. 1. PetroChina Research Institute of Petroleum Exploration & Development, Beijing 100083, China;
    2. Key Laboratory of Petroleum Reservoir, PetroChina, Beijing 100083, China;
    3. College of Earth Science and Technology, Southwest Petroleum University, Chengdu 610500, China;
    4. Key Laboratory of Deep Oil and Gas, China University of Petroleum(East China), Qingdao 266580, Shandong, China;
    5. Research Institute of Exploration and Development, PetroChina Tarim Oilfield Company, Korla 841000, Xinjiang, China
  • Received:2020-08-19 Revised:2020-10-25 Online:2021-02-01 Published:2021-01-25

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摘要: 近年来,地层油气藏勘探取得了重要进展。为了综述中国地层油气藏“十三五”勘探进展并展望未来地层油气藏的重点勘探领域,开展了典型地层油气藏解剖,研究大型碎屑岩超覆或削截型、碳酸盐岩风化壳型、火山岩或变质岩地层油气藏富集规律,评价地层油气藏资源潜力。结果表明:①准噶尔盆地二叠系和石炭系、中国三大克拉通盆地(四川、塔里木、鄂尔多斯)震旦系顶—奥陶系以及松辽盆地基岩等地层油气藏勘探取得了重大进展,获得油气当量均在亿吨级或十亿吨级。②大型地层油气藏受盆缘或盆内隆起周缘长期继承性古斜坡、区域不整合和输导体系控制,发育准层状集群式巨型—大型地层油气聚集,存在风化壳和内幕2类地层油气藏,均可大规模成藏。③地层油气藏勘探重点领域为中国三大克拉通震旦系—奥陶系碳酸盐岩层间或层内不整合风化壳、准噶尔盆地6个斜坡区二叠系碎屑岩超覆或削截地层、火山岩或变质岩为主的基岩。④未来勘探技术可加强盆地内部多级不整合的识别、成藏要素综合分析以及地球物理探测技术集成,围绕纵向上发现新含油气层系、平面上扩展新含油气区,构建大型地层油气藏成藏理论并推动中国地层油气藏勘探。该研究成果对于未来勘探技术发展、地层油气藏重点领域部署具有重要指导作用。

关键词: 不整合, 勘探进展, 富集规律, 未来领域, 地层油气藏

Abstract: In recent years,remarkable progress has been made in the exploration of stratigraphic reservoirs. In order to review the exploration progress of stratigraphic reservoirs in China during the 13th Five-Year Plan period and to look forward to the key exploration fields in the future,the anatomy of typical stratigraphic reservoirs was carried out,then the accumulation laws in three different types of stratigraphic reservoirs were studied,including large-scale clastic rock overlap-cut type,carbonate weathered crust type,volcanic or metamorphic rock type, and finally the resource potential of stratigraphic reservoirs was evaluated. The results show that:(1)The exploration have achieved significant progress in stratigraphic reservoirs of the Permian and Carboniferous in Junggar Basin,the Sinian Top-Ordovician of the three major craton basins in China(Sichuan,Tarim,Ordos),and the bedrock of Songliao Basin,whose oil and gas equivalents obtained are all in the billion-ton-odds.(2)Largescale stratigraphic reservoirs are controlled by long-term inherited ancient slopes,regional unconformities,and transport systems at the basin margin or inner-basin uplift periphery,and develop giant-large stratigraphic hydrocarbon accumulations in quasi-layered clusters way. There are two types of stratigraphic reservoirs including weathered crust type and inner surface type,and both can be accumulated in a large scale.(3)The key areas for exploration of stratigraphic oil and gas reservoirs are the unconformity weathering crust inner or between Sinian-Ordovician carbonate beds among the three major cratons in China,overlap-cut stratum of the Permian clastic rocks in the six slope areas of Junggar Basin,and bedrock dominated by volcanic rock or metamorphic rock.(4)Future exploration technologies are expected to strengthen the identification of multi-level unconformities in the basin, the comprehensive analysis of accumulation factors,and the integration of geophysical exploration technologies. The accumulation theory of large-scale stratigraphic reservoirs would be built and promote the exploration of them in China by focusing on the discovery of new oil and gas layers in the longitudinal direction and extension of new oil and gas areas in the plane dimension. The research results have an important guiding role for the development of future exploration technology and the deployment of key areas of stratigraphic reservoirs.

Key words: unconformity, exploration progress, accumulation law, future fields, stratigraphic reservoirs

中图分类号: 

  • TE122.1
[1] 贾承造,赵文智,邹才能,等. 岩性地层油气藏地质理论与勘探技术. 石油勘探与开发,2007,34(3):257-272. JIA C Z,ZHAO W Z,ZOU C N,et al. Geological theory and exploration technology for lithostratigraphic hydrocarbon reservoirs. Petroleum Exploration and Development,2007,34(3):257-272.
[2] 邹才能,袁选俊,陶士振,等. 岩性地层油气藏. 北京:石油工业出版社,2010:42-83. ZOU C N,YUAN X J,TAO S Z,et al. Lithologic-stratigraphic reservoir. Beijing:Petroleum Industry Press,2010:42-83.
[3] 陶士振,袁选俊,侯连华,等. 大型岩性地层油气田(区)形成与分布规律.天然气地球科学,2017,28(11):7-18. TAO S Z,YUAN X J,HOU L H,et al. The regularities of formation and distribution of giant litho-stratigraphic oil and gas fields. Natural Gas Geoscienc,2017,28(11):7-18.
[4] HUBBERT M. Entrapment of petroleum under hydrodynamic conditions. AAPG Bulletin,1953,37(8):1954-2026.
[5] LEVORSEN A. Geology of petroleum. 2nd ed. San Francisco W. H. Freeman and Company,1967.
[6] ROBERT E. Stratigraphic oil and gas fields-classification,exploration methods,and case histories. AAPG Memoir 16,1972:23-45.
[7] 胡见义.非构造油气藏. 北京:石油工业出版社,1986. HU J Y. Non-structural reservoir. Beijing:Petroleum Industry Press,1986.
[8] 贾承造,赵文智,邹才能,等. 岩性地层油气藏地质理论与勘探技术. 北京:石油工业出版社,2008:162-180. JIA C Z,ZHAO W Z,ZOU C N,et al. Geological theory and exploration technology for lithostratigraphic hydrocarbon reservoirs. Beijing:Petroleum Industry Press,2008:162-180.
[9] ALLEN M. The deliberate search for the stratigraphic trap:an introduction. Geological Society London Special Publications, 2006,254(1):1-5.
[10] CALDARELLI C,ROBINSON M. New insights into the Mesozoic tectono-stratigraphic evolution of the platform to basin transition in the southern Adriatic Sea area:Searching for stratigraphic traps. AAPG European Regional Conference & Exhibition, Barcelona,Spain,2013.
[11] BOWMAN M,LEVELL B. Petroleum geology of NW Europe:50 years of learning. Proceedings of the 8th Petroleum Geology Conference,2018:385-398.
[12] CHEN L,JI H C,DOU L R,et al. The characteristics of source rock and hydrocarbon charging time of Precambrian granite reservoirs in the Bongor Basin,Chad. Marine Petroleum Science, 2018(97):323-338.
[13] DOLSON J,HE Z Y,HORN B. Advances and perspectives on stratigraphic trap exploration-making the subtle trap obvious. AAPG Middle East Region Geosciences Technology Workshop, 2017.
[14] 焦方正. 塔里木盆地顺北特深碳酸盐岩断溶体油气藏发现意义与前景.石油与天然气地质,2018,39(2):207-216. JIAO F Z. Significance and prospect of ultra-deep carbonate fault-karst reservoirs in Shunbei area,Tarim Basin. Oil & Gas Geology,2018,39(2):207-216.
[15] 赵子路,汪泽成,杨雨,等. 四川盆地蓬探1井灯影组灯二段油气勘探重大发现及意义.中国石油勘探,2020,25(3):1-12. ZHAO Z L,WANG Z C,YANG Y,et al. Important discovery in the second member of Dengying Formation in well Pengtan1 and its significance,Sichuan Basin. China Petroleum Exploration, 2020,25(3):1-12.
[16] 陈敬国,白旭明,叶秋焱,等. 二连盆地乌兰花凹陷火成岩区三维地震采集技术.中国石油勘探,2014,19(5):65-72. CHEN J G,BAI X M,YE Q Y,et al. 3 D seismic acquisition technology of igneous rock area in Wulanhua Depression of Erlian Basin. China Petroleum Exploration,2014,19(5):65-72.
[17] 刘宝鸿,张斌,郭强,等. 辽河坳陷东部凹陷深层火山岩气藏的发现与勘探启示.中国石油勘探,2020,25(3):33-43. LIU B H,ZHANG B,GUO Q,et al. Discovery and exploration inspiration of deep volcanic gas reservoirs in eastern sag of Liaohe Depression. China Petroleum Exploration,2020,25(3):33-43.
[18] 罗海炳,胡英杰,刘兴周,等. 辽河坳陷兴隆台潜山中生界地质新认识与油气新发现. 中国石油勘探,2019,24(4):439-448. LUO H B,HU Y J,LIU X Z,et al. New understanding of Mesozoic geology and new discovery of oil and gas in Xinglongtai buried hill,Liaohe Depression. China Petroleum Exploration, 2019,24(4):439-448.
[19] 崔海峰,田雷,刘军,等. 塔西南坳陷麦盖提斜坡奥陶系白云岩油气的发现及其勘探启示.天然气工业,2017,37(4):42-51. CUI H F,TIAN L,LIU J,et al. Hydrocarbon discovery in the Ordovician dolomite reservoirs in the Maigaiti Slope,Southwest Depression of the Tarim Basin,and its enlightenment. Natural Gas Industry,2017,37(4):42-51.
[20] 蔡川,邱楠生,刘念,等. 冀中坳陷束鹿凹陷潜山不整合特征及油气运聚模式. 地质学报,2020,94(3):888-904. CAI C,QIU N S,LIU N,et al. Unconformity characteristics, hydrocarbon migration,and the accumulation model of the buried hill in the Shulu Sag,Jizhong Depression. Acta Geologica Sinica, 2020,94(3):888-904.
[21] 杨海军,陈永权,田军,等. 塔里木盆地轮探1井超深层油气勘探重大发现与意义.中国石油勘探,2020,25(2):62-72. YANG H J,CHEN Y Q,TIAN J,et al. Great discovery and its significance of ultra-deep oil and gas exploration in well Luntan-1 of the Tarim Basin. China Petroleum Exploration,2020, 25(2):62-72.
[22] 石新朴,覃建强,丁艳雪,等. 准噶尔盆地滴南凸起火山岩气藏成藏主控因素与成藏模式. 天然气地球科学,2018,29(12):20-28. SHI X P,TAN J Q,DING Y X,et al. Models and controlling factors of volcanic gas reservoirs forming in Dinan Salient in Junggar Basin. Natural Gas Geoscience,2018,29(12):20-28.
[23] 李鹭光,何海清,范土芝,等. 中国石油油气勘探进展与上游业务发展战略.中国石油勘探,2020,25(1):1-10. LI L G,HE H Q,FAN T Z,et al. Oil and gas exploration progress and upstream development strategy of CNPC. China Petroleum Exploration,2020,25(1):1-10.
[24] 赵政嘉,顾玉洁,史原鹏,等. 二连盆地乌兰花凹陷花岗岩储层改造技术研究及应用.中国矿业,2019,28(5):72-76. ZHAO Z J,GU Y J,SHI Y P,et al. Study and application of granite reservoirs reconstruction technology in Wulanhua Sag, Erlian Basin. China Mining Magazine,2019,28(5):72-76.
[25] 田立新,施和生,刘杰,等. 珠江口盆地惠州凹陷新领域勘探重大发现及意义. 中国石油勘探,2020,25(4):22-30. TIAN L X,SHI H S,LIU J,et al. Great discovery and significance of new frontier exploration in Huizhou Sag,Pearl River Mouth Basin. China Petroleum Exploration,2020,25(4):22-30.
[26] 田立新,刘杰,张向涛,等. 珠江口盆地惠州26-6大中型泛潜山油气田勘探发现及成藏模式. 中国海上油气,2020,32(4):1-11. TIAN L X,LIU J,ZHANG X T,et al. Discovery and accumulation pattern of HZ26-6 large-medium sized pan-buried hill oil and gas field in Pearl River Mouth Basin. China Offshore Oil and Gas,2020,32(4):1-11.
[27] 杜金虎. 松辽盆地中央古隆起带(北部)天然气成藏条件分析及勘探前景.中国石油勘探,2017,22(5):5-18. DU J H. Analysis of natural gas accumulation conditions and exploration perspective in the central paleo-uplift belt(north), Songliao Basin. China Petroleum Exploration,2017,22(5):5-18.
[28] 薛永安,李慧勇. 渤海海域深层太古界变质岩潜山大型凝析气田的发现及其地质意义. 中国海上油气,2018,30(3):1-9. XUE Y A,LI H Y. Large condensate gas field in deep Archean metamorphic buried hill in Bohai Sea:Discovery and geological significance. China Offshore Oil and Gas,2018,30(3):1-9.
[29] 徐长贵,于海波,王军,等. 渤海海域渤中19-6大型凝析气田形成条件与成藏特征.石油勘探与开发,2019,46(1):25-38. XU C G,YU H B,WANG J,et al. Formation conditions and accumulation characteristics of Bozhong 19-6 large condensate gas field in offshore Bohai Bay Basin. Petroleum Exploration and Development,2019,46(1):25-38.
[30] 付锁堂,付金华,喻建,等. 河套盆地临河坳陷石油地质特征及勘探前景.石油勘探与开发,2018,45(5):5-18. FU S T,FU J H,YU J,et al. Petroleum geological features and exploration prospect of Linhe Depression in Hetao Basin. Petroleum Exploration and Development,2018,45(5):5-18.
[31] 张以明,张锐锋,王少春,等. 河套盆地临河坳陷油气勘探重要发现的实践与认识.中国石油勘探,2018,23(5):5-15. ZHANG Y M,ZHANG R F,WANG S C,et al. Practice and understanding of great discovery in oil and gas exploration in Linhe Depression of Hetao Basin. China Petroleum Exploration,2018, 23(5):5-15.
[32] 赵文智,汪泽成,胡素云,等. 中国陆上三大克拉通盆地海相碳酸盐岩油气藏大型化成藏条件与特征. 石油学报,2012,33(增刊2):1-10. ZHAO W Z,WANG Z C,HU S Y,et al. Large-scale hydrocarbon accumulation factors and characteristics of marine carbonate reservoirs in three large onshore cratonic basins in China. Acta Petrolei Sinica,2012,33(Suppl 2):1-10.
[33] 邓胜徽,杜品德,卢远征,等. 塔里木盆地塔中-巴楚地区奥陶系内幕不整合. 地质论评,2015,61(2):324-332. DENG S H,DU P D,LU Y Z,et al. Unconformities in the Ordovician of Tazhong-Bachu area of the Tarim Basin,NW China, Geological Review,2015,61(2):324-332.
[34] 邓胜徽,黄智斌,景秀春,等. 塔里木盆地西部奥陶系内部不整合. 地质论评,2008,54(6):741-747. DENG S H,HUANG Z B,JING X C,et al. Unconformities in the Ordovician of western Tarim Basin,NW China. Geological Review,2008,54(6):741-747.
[35] 樊茹,卢远征,张学磊,等. 四川盆地奥陶系十字铺组与宝塔组接触关系新认识.地质学报,2013,87(3):321-329. FAN R,LU Y Z,ZHANG X L,et al. New understanding of the contact relationship between Shihtzupu Formation and Pagoda Formation in Sichuan Basin. Acta Geologica Sinica,2013,87(3):321-329.
[36] 高长海,查明,曲江秀,等. 准噶尔盆地西北缘不整合储层流体包裹体特征与油气成藏期次. 天然气工业,2015,35(11):23-32. GAO C H,ZHA M,QU J X,et al. Fluid inclusion characteristics and hydrocarbon accumulation stages of unconformable reservoirs in the northwest margin of the Junggar Basin. Natural Gas Industry,2015,35(11):23-32.
[37] 高长海,查明,赵贤正,等. 渤海湾盆地冀中坳陷深层古潜山油气成藏模式及其主控因素.天然气工业,2017,37(4):52-59. GAO C H,ZHA M,ZHAO X Z,et al. Hydrocarbon accumulation models and their main controlling factors in the deep buried hills of the Jizhong Depression,Bohai Bay Basin. Natural Gas Industry,2017,37(4):52-59.
[38] GAO C H,DING X J,ZHA M,et al. Diagenesis of unconformity and the influence on reservoir physical properties:a case study of the Lower Jurassic in Xiazijie area,Junggar Basin, NW China. Journal of Petroleum Exploration and Production Technology,2017,7(3):659-666.
[39] 毛治国,崔景伟,綦宗金,等. 风化壳储层分类、特征及油气勘探方向. 岩性油气藏,2018,30(2):12-22. MAO Z G,CUI J W,QI Z J,et al. Classification,characteristics and petroleum exploration of weathering crust reservoir. Lithologic Reservoirs,2018,30(2):12-22.
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