Structure-Sedimentary Evolution and Gas Accumulation of Paleogene in Songnan Low Uplift of the Qiongdongnan Basin
-
摘要: 为了明确松南低凸起区构造沉积演化特征及对天然气成藏的意义.基于区域长剖面精细解释,利用最新的钻井、测井、地震资料,分析了松南低凸起及围区古近系构造格局、斜坡类型及演化特征、沉积特征及与天然气成藏的关系.结果表明,松南低凸起主要受北部2号、12号断裂,南部11号、10号断裂活动控制,古近纪经历了:“(1)差异翘倾抬升,西高东低;(2)加速翘倾抬升,向东抬升”这2个阶段,并以发育旋转掀斜斜坡为主.古地貌具有“隆凹相间”与“西高东低”的特征.断裂活动及翘倾抬升作用控制了物源区的分布、缓坡沉积格局及输砂通道,在东突起上发育了缓坡带扇三角洲沉积.大面积分布的扇三角洲发育了优质的储集体,构造活动形成了多种类型的圈闭,天然气生、运、聚时空匹配良好,松南低凸起古近系有望成为琼东南盆地下一个千亿方级的天然气聚集区.Abstract: Based on the detailed interpretation of regional long section and the latest drilling, logging and seismic data, the Paleogene structural pattern, slope type and its evolution characteristics, sedimentary characteristics and their relationship with gas accumulation in Songnan low uplift (SLU)and surrounding areas are analyzed.The purpose is to clarify the tectonic and sedimentary evolution characteristics of the SLU and its influence on gas accumulation. The results show that the SLU is mainly controlled by the No.2 & No.12 faults in the north and No.11 & No.10 faults in the south. The SLU experienced two stages, namely, the differential updip uplift characterized by the "high in the west and low in the east " and the accelerated eastward updip uplift. And it was dominated by the development of rotational lift ramp in the Paleogene. The paleogeomorphology has the characteristics of "alternation of uplift and depression" and "high in the west and low in the east" in study area. The faults activity and uplift of upwarping controlled the distribution of material source area, sedimentary pattern of gentle slope and sand transport channel, so fans delta deposit developed in the gentle slope zone on the western bulge. The wide distribution of fan deltas formed high quality reservoir, and the tectonic activity formed many types of traps. The gas generation, transportation and accumulation are well matched in space and time in the SLU Therefore, the Paleogene of SLU is expected to be the next gas accumulation area of about 100 billion cubic meters in the Qiongnan Basin.
-
Key words:
- Qiongdongnan Basin /
- Songnan low uplift /
- structure evolution /
- sedimentary evolution /
- gas
-
图 1 琼东南盆地构造纲要
Fig. 1. Tectonic framework of the Qiongdong Basin showing the study area, seismic dataset, faults
图 5 始新统-陵水组沉积厚度图与2号11号断裂叠合图
Fig. 5. Overlaping map of thickness of Eocene-Lingshui formation, NO.2 and NO.11 faults activity rate
图 6 松南低凸起早渐新世晚期崖城组古地貌图与典型地震剖面
Fig. 6. Paleogeomorphologic map and typical seismic profile of the Yacheng formation in the late Early Oligocene of Songnan low uplift
图 7 Y-1井崖城组扇三角洲岩电特征
Fig. 7. Fan delta rock and log characteristics of Yacheng formation, Y-1
图 8 过松南低凸起扇三角洲典型地震剖面(剖面位置见图 1)
Fig. 8. Typical seismic profile off an delta in the Songnan Low Uplift
图 9 松南低凸起崖城组-陵水组沉积相
Fig. 9. Sedimentary facies map of Yacheng formation and Lingshui formation of the Songnan low uplift
图 10 断层差异旋转翘倾缓坡带控三角洲沉积模式
Fig. 10. Deltaic sedimentation model controlled by fault differential rotation tilting gentle slope zone
-
Cai, H., Qin, L. Z., Liu, Y. H., 2019. Differentiation and Coupling Model of Source-to-Sink Systems with Transitional Facies in Pingbei Slope of Xihu Sag. Earth Science, 44(3): 880-897(in Chinese with English abstract). http://d.old.wanfangdata.com.cn/Periodical/dqkx201903016 Carmalt, S. W., John, S. B., 1986. Giant of Oil-Gasfield. AAPG Memoir, 40:11-55. http://d.old.wanfangdata.com.cn/Periodical/syxb201807007 Ge, X., Shen, C. B., Selby, D., et al., 2018. Neoproterozoic-Cambrian Petroleum System Evolution of the Micang Shan Uplift, Northern Sichuan Basin, China: Insights from Pyrobitumen Rhenium-Osmium Geochronology and Apatite Fission-Track Analysis. AAPG Bulletin, 102(8):1429-1453. https://doi.org/10.1306/1107171616617170 Guo, M. G., Zeng, X. Y., Jiang, R. F., et al., 2017. The Forming Condition of Multiple Oil Gas Accumulation and Accumulation Model of Songnan Low Uplift in Deep-Water Area of Qiongdongnan Basin. Contributions to Geology and Mineral Resources Research, 32(4):577-587(in Chinese with English abstract). He, J.X., Wu, W.H., Zu, Y.H., et al., 2010.Genetic Types, Migration and Accumulation of Oil & Gas and Exploration Proposal in North Marginal Basins, South China Sea. Natural Gas Geoscience, 21(1):7-17(in Chinese with English abstract). http://d.old.wanfangdata.com.cn/Periodical/trqdqkx201001002 Huang, B. J., Huang, H., Wang, Z. F., et al., 2015. Kinetics and Model of Gas Generation of Source Rocks in the Deepwater Area, Qiongdongnan Basin. Acta Oceanologica Sinica, 34(4): 11-18. https://doi.org/10.1007/s13131-015-0646-3 Huang, B. J., Li, X. S., Wang, Z. F., et al., 2012. Source Rock Geochemistry and Gas Potential in the Deep Water Area, Qiongdongnan Basin. China Offshore Oil and Gas, 24(4):1-7(in Chinese with English abstract). http://en.cnki.com.cn/Article_en/CJFDTOTAL-ZHSD201204002.htm Huang, B. J., Tian, H., Li, X. S., et al., 2016. Geochemistry, Origin and Accumulation of Natural Gases in the Deepwater Area of the Qiongdongnan Basin, South China Sea. Marine and Petroleum Geology, 72: 254-267. https://doi.org/10.1016/j.marpetgeo.2016.02.007 Huang, J. Z., 2009. The Pros and Cons of Paleohighs for Hydrocarbon Reservoiring: A Case Study of the Sichuan Basin. Natural Gas Industry, 29(2):12-17(in Chinese with English abstract). Lei, C., Ren, J. Y., 2016. Hyper-Extended Rift Systems in the Xisha Trough, Northwestern South China Sea: Implications for Extreme Crustal Thinning Ahead of a Propagating Ocean. Marine and Petroleum Geology, 77: 846-864. https://doi.org/10.1016/j.marpetgeo.2016.07.022 Li, S. L., Zhu, X. M., Liu, H. Q., et al. 2017. Evaluation and Prediction of Favorable Reservoirs in Source-to-Sink Systems of the Palaeogene, Shaleitian Uplif.Earth Science, 42(11): 1994-2009(in Chinese with English abstract). http://en.cnki.com.cn/Article_en/CJFDTOTAL-DQKX201711011.htm Li, X. S., Zhang, Y. Z., Yang, X. B., et al., 2017. New Understandings and Achievements of Natural Gas Exploration in Yinggehai-Qiongdongnan Basin, South China Sea. China Offshore Oil and Gas, 29(6):1-11(in Chinese with English abstract). http://www.wanfangdata.com.cn/details/detail.do?_type=perio&id=zghsyq-gc201706001 Lu, B. F., Yin, Z. X., Cai, Z. R., et al., 2012. Cenozoic Tectonic Evolution Sequence in Northern South China Sea and Its Oil/Gas Significance. Acta Geologica Sinica, 86(8):1249-1261(in Chinese with English abstract). http://en.cnki.com.cn/Article_en/CJFDTOTAL-DZXE201208009.htm Neng, Y., Wu, J. F., Qi, J. F., et al., 2013. Three Structural Layers and Its Evolution of CenozoicBasins in Deep Water Area of Northern Margin, South China Sea. Acta Geologica Sinica, 87(3): 403-414(in Chinese with English abstract). http://en.cnki.com.cn/Article_en/CJFDTOTAL-DZXE201303011.htm Sun, L. D., Li, Y. J., Jiang, T. W., et al., 2007. The Central Tarim Lower Uplift: A Composite Hydrocarbon Accumulation Play in the Tarim Basin in China. Chinese Journal of Geology, 42(3):602-620(in Chinese with English abstract). Sun, Z., Wang, Z., Sun, Z., et al., 2015. Structure and Kinematic Analysis of the Deepwater Area of the Qiongdongnan Basin through a Seismic Interpretation and Analogue Modeling Experiments. Acta Oceanologica Sinica, 34(4): 32-40. https://doi.org/10.1007/s13131-015-0585-z Tang, Li., S., Zhu, J. T., Yao, Z., et al., 2017. Evolution and Reservoir Formation Conditions of Buried Hills in Songnan Low Uplift of the Qiongdongnan Basin. Special Oil & Gas Reservoirs, 24(1):87-91(in Chinese with English abstract). http://www.wanfangdata.com.cn/details/detail.do?_type=perio&id=tzyqc201701017 Taylor, B., Hayes, D. E., 1983. Origin and History of the South China Sea Basin. American Geophysical Union Geophysical Monograph, Washington, 27: 23-56. Wang, Z. F., Sun, Z. P., Zhang, Y. Z., et al., 2016. Distribution and Hydrocarbon Accumulation Mechanism of the Giant Deepwater Central Canyon Gas Field in Qiongdongnan Basin, Northern South China Sea. China Petroleum Exploration, 21(4):54-64(in Chinese with English abstract). http://www.wanfangdata.com.cn/details/detail.do?_type=perio&id=zgsykt201604006 Wang, Z. S., Chen, C. W., Han, G. M., et al., 2017. Rotate-Tilt Slope Zone Structures-Sedimentary Evolution and Petroleum Geologic Significance: A Case study of Banqiao Slope of Qikou Sag, Bohai Bay Basin. Natural Gas Geoscience. 28(11):44-50(in Chinese with English abstract). Wang, Z. S., Liu, Z., Huang, B. J., et al., 2014. Distribution and Evaluation of Oligocene Source Rocks in the East of Central Depression Belt in Deep-Water Area, Qiongdongnan Basin. Natural Gas Geoscience, 25(3): 360-371(in Chinese with English abstract). http://d.old.wanfangdata.com.cn/Periodical/trqdqkx201403007 Wei, G. Q., Yang, W., Du, J. H., et al., 2015. Tectonic Features of Gaoshiti-Moxi Paleo-Uplift and Its Controls on the Formation of a Giant Gas Field, Sichuan Basin, SW China. Petroleum Exploration and Development, 42(3):283-292(in Chinese with English abstract). doi: 10.1016/S1876-3804(15)30018-5 Xiao, D. Q., Lu, Y., Fu, L. X., et al., 2013. Slope Structure Feature and Category in Faulted Basin -A Case Study on Qikou Sag Bohai Bay Basin. Petroleum Geology and Engineering, 27(1):1-6(in Chinese with English abstract). http://en.cnki.com.cn/Article_en/CJFDTOTAL-SYHN201301003.htm Xie, W. Y., Zhang, Y. W., Sun, Z., et al., 2007. Characteristics and Formation Mechanism of Faults in Qiongdongnan Basin. Marine Geology & Quaternary Geology, 27(1): 71-78(in Chinese with English abstract). http://d.old.wanfangdata.com.cn/Periodical/dqkx-e200901019 Xie, Y. H., 2014. A Major Breakthrough in Deepwater Natural Gas Exploration in Self-Run Oil/Gas Field in the Northern South China Sea and Its Enlightenment. Natural Gas Industry, 34(10): 1-8(in Chinese with English abstract). http://www.wanfangdata.com.cn/details/detail.do?_type=perio&id=trqgy201410001 Xie, Y. H., Tong, C. X., Fan, C. W., et al., 2015. Characteristics and Evolution of Fault System in Qiongdongnan Basin. Geotectonica et Metallogenia, 39(5):795-807(in Chinese with English abstract). http://www.wanfangdata.com.cn/details/detail.do?_type=perio&id=ddgzyckx201505004 Xie, X. N., Müller, R. D., Li, S. T., et al., 2006. Origin of Anomalous Subsidence along the Northern South China Sea Margin and its Relationship to Dynamic Topography. Marine and Petroleum Geology, 23(7): 745-765. https://doi.org/10.1016/j.marpetgeo.2006.03.004 Yang, J. H., Li, C., Li, T., et al., 2014.Accumulation Condition and Model of Gas Reservoir in Central Canyon in Deepwater Area of Northern South China Sea. Acta Geologica Sinica, 88(11): 2141-2149(in Chinese with English abstract). http://en.cnki.com.cn/Article_en/CJFDTOTAL-DZXE201411011.htm Yang, Y.M., Wen, L., Luo, B., 2016. Sedimentary Tectonic Evolution and Reservoir-Forming Conditions of the Dazhou-Kaijiang Paleo-Uplift, Sichuan Basin. Natural Gas Industry, 36(8): 1-10(in Chinese with English abstract). http://www.wanfangdata.com.cn/details/detail.do?_type=perio&id=trqgy201608001 Yu, J. F., Duan, R. T., 2008. Forming Mechanism and Developing Characteristics of Eastern Segment of No.2 Fault Zone in Qiongdongnan Basin. Geotectonica et Metallogenia, 32(3):293-299(in Chinese with English abstract). http://www.wanfangdata.com.cn/details/detail.do?_type=perio&id=ddgzyckx200803005 Zhang, Y. Z., Fan, C. W., Xu, X. D., et al., 2015. Genesis and Sources of Natural Gas in Eastern Qingdongnan Basin, South China Sea. Petroleum Geology & Experiment, 37(4): 466-472(in Chinese with English abstract). http://en.cnki.com.cn/Article_en/CJFDTOTAL-SYSD201504010.htm Zhang, Y. Z., Gan, J., Yang, X. B., et al., 2017. Tectonic Evolution and Its Constraints on the Formation of Deepwater Giant Gas Field in Lingshui Sag, Qiongdongnan Basin. Marine Geology Frontiers, 33(10):22-31(in Chinese with English abstract). http://d.old.wanfangdata.com.cn/Periodical/hydzdt201710003 Zhang, Y. Z., Qi, J. F., Wu, J. F., 2019. Cenozoic Faults Systems and Its Geodynamics of the Continental Margin Basins in the Northern of South China Sea. Earth Science, 44(2): 603-625(in Chinese with English abstract). http://www.wanfangdata.com.cn/details/detail.do?_type=perio&id=dqkx201902020 Zhang, Z. Y., Zhu, G. Y., Zhang, Y. J., et al., 2018. The Origin and Accumulation of Multi-Phase Reservoirs in the East Tabei Uplift, Tarim Basin, China. Marine and Petroleum Geology, 98: 533-553. https://doi.org/10.1016/j.marpetgeo.2018.08.036 Zhao, W., Fang, N. Q., Zhan, H. M., et al., 2013. Cenozoic Tectonic Migration in the Northern South China Sea. Marine Geology Frontiers, 29(4): 1-6(in Chinese with English abstract). Zhao, Z. X., Sun, Z., Wang, Z. F., et al., 2013. The Dynamic Mechanism of Post-Rift Accelerated Subsidence in Qiongdongnan Basin, Northern South China Sea. Marine Geophysical Research, 34(3/4): 295-308. https://doi.org/10.1007/s11001-013-9188-2 Zhou, D., Sun, Z., Chen, H. Z., et al., 2008. Mesozoic Paleogeography and Tectonic Evolution of South China Sea and Adjacent Areas in the Context of Tethyan and Paleo-Pacific Interconnections. Island Arc, 17(2): 186-207. https://doi.org/10.1111/j.1440-1738.2008.00611.x Zhou, J., Yang, X. B., Gan, J., et al., 2017. Controls of Faults on Sedimentary Filling in Deep-Water Area of Qiongdongnan Basin. Special Oil & Gas Reservoirs, 24(2): 75-79(in Chinese with English abstract). Zhou, J., Zhu, J. T., Yang, J. H., et al., 2018. Characteristics of Faults and Their Implication to Gas Geology in Baonan Step-Fault Zone in Deep-Water Area of Qiongdongnan Basin. Natural Gas Geoscience, 29(1): 87-95(in Chinese with English abstract). http://d.old.wanfangdata.com.cn/Periodical/trqdqkx201801008 Zhu, W.L., Zhang, G.C., Gao, L., 2008. Geological Characteristics and Exploration Objectives of Hydrocarbons in the Northern Continental Margin Basin of South China Sea. Acta Petrolei Sinica, 29(1): 1-9(in Chinese with English abstract). doi: 10.1111/j.1745-7254.2008.00742.x 蔡华, 秦兰芝, 刘英辉. 2019.西湖凹陷平北斜坡带海陆过渡相源-汇系统差异性及其耦合模式.地球科学, 44(3): 880-897. http://www.earth-science.net/WebPage/Article.aspx?id=4167 郭明刚, 曾小宇, 江汝锋, 等, 2017.琼东南盆地深水区松南低凸起油气复式聚集条件与成藏模式.地质找矿论丛, 32(4):577-587. http://d.old.wanfangdata.com.cn/Periodical/dzzklc201704008 何家雄, 吴文海, 祝有海, 等, 2010.南海北部边缘盆地油气成因及运聚规律与勘探方向.天然气地球科学, 21(1):7-17. http://d.old.wanfangdata.com.cn/Periodical/trqdqkx201001002 黄保家, 李绪深, 王振峰, 等, 2012.琼东南盆地深水区烃源岩地球化学特征与天然气潜力.中国海上油气, 24(4):1-7. doi: 10.3969/j.issn.1673-1506.2012.04.001 黄籍中, 2009.从四川盆地看古隆起成藏的两重性.天然气工业, 29(2): 12-17. doi: 10.3787/j.issn.1000-0976.2009.02.003 李顺利, 朱筱敏, 刘强虎, 等. 2017.沙垒田凸起古近纪源-汇系统中有利储层评价与预测.地球科学, 42(11): 1994-2009. http://www.earth-science.net/WebPage/Article.aspx?id=3679 李绪深, 张迎朝, 杨希冰, 等, 2017.莺歌海-琼东南盆地天然气勘探新认识与新进展.中国海上油气, 29(6):1-11. http://d.old.wanfangdata.com.cn/Periodical/zghsyq-gc201706001 吕宝凤, 殷征欣, 蔡周荣, 等, 2012.南海北部新生代构造演化序列及其油气成藏意义.地质学报, 86(8):1249-1261. doi: 10.3969/j.issn.0001-5717.2012.08.008 能源, 吴景富, 漆家福, 等, 2013.南海北部深水区新生代盆地三层结构及其构造演化.地质学报, 87(3): 403-414. http://d.old.wanfangdata.com.cn/Periodical/dizhixb201303010 孙龙德, 李曰俊, 江同文, 等, 2007.塔里木盆地塔中低凸起:一个典型的复式油气聚集区.地质科学, 42(3).602-620. doi: 10.3321/j.issn:0563-5020.2007.03.015 唐历山, 朱继田, 姚哲, 等, 2017.琼东南盆地松南低凸起潜山演化及成藏条件.特种油气藏, 24(1):87-91. doi: 10.3969/j.issn.1006-6535.2017.01.017 王振峰, 孙志鹏, 张迎朝, 等, 2016.南海北部琼东南盆地深水中央峡谷大气田分布与成藏规律.中国石油勘探, 21(4):54-64. doi: 10.3969/j.issn.1672-7703.2016.04.006 王振升, 陈长伟, 韩国猛, 等, 2017.旋转掀斜斜坡区构造-沉积演化特征及油气地质意义--以渤海湾盆地歧口凹陷板桥斜坡为例.天然气地球科学, 28(11):1650-1656. http://www.cqvip.com/QK/97226X/201711/673873303.html 王子嵩, 刘震, 黄保家, 等, 2014.琼东南盆地深水区中央坳陷带东部渐新统烃源岩分布及评价.天然气地球科学, 25(3): 360-371. http://d.old.wanfangdata.com.cn/Periodical/trqdqkx201403007 魏国齐, 杨威, 杜金虎, 等, 2015.四川盆地高石梯-磨溪古隆起构造特征及对特大型气田形成的控制作用.石油勘探与开发, 42(3):257-265. doi: 10.11698/PED.2015.03.01 肖敦清, 卢异, 付立新, 等, 2013.断陷湖盆斜坡构造类型及特征--以歧口凹陷为例.石油地质与工程, 27(1):1-6. doi: 10.3969/j.issn.1673-8217.2013.01.001 谢文彦, 张一伟, 孙珍, 等, 2007.琼东南盆地断裂构造与成因机制.海洋地质与第四纪地质, 27(1): 71-78. http://d.old.wanfangdata.com.cn/Periodical/hydzydsjdz200701009 谢玉洪, 2014.南海北部自营深水天然气勘探重大突破及其启示.天然气工业, 34(10):1-8. doi: 10.3787/j.issn.1000-0976.2014.10.001 谢玉洪, 童传新, 范彩伟, 等, 2015.琼东南盆地断裂系统特征与演化.大地构造与成矿学, 39(5): 795-807. http://d.old.wanfangdata.com.cn/Periodical/ddgzyckx201505004 杨金海, 李才, 李涛, 等, 2014.琼东南盆地深水区中央峡谷天然气成藏条件与成藏模式.地质学报, 88(11): 2141-2149. http://d.old.wanfangdata.com.cn/Periodical/dizhixb201411011 杨跃明, 文龙, 罗冰, 等, 2016.四川盆地达州-开江古隆起沉积构造演化及油气成藏条件分析.天然气工业, 36(8): 1-10. http://d.old.wanfangdata.com.cn/Periodical/trqgy201608001 于俊峰, 段如泰, 2008.琼东南盆地2号断裂东带发育特征及形成机理.大地构造与成矿学, 32(3):293-299. doi: 10.3969/j.issn.1001-1552.2008.03.005 张迎朝, 范彩伟, 徐新德, 等, 2015.南海琼东南盆地东区天然气成因类型与烃源探讨.石油实验地质, 37(4): 466-472. http://d.old.wanfangdata.com.cn/Periodical/sysydz201504009 张迎朝, 甘军, 杨希冰, 等, 2017.琼东南盆地陵水凹陷构造演化及其对深水大气田形成的控制作用.海洋地质前沿, 33(10):22-31. http://d.old.wanfangdata.com.cn/Periodical/hydzdt201710003 张远泽, 漆家福, 吴景富, 2019.南海北部新生代盆地断裂系统及构造动力学影响因素.地球科学, 44(2): 603-625. http://www.earth-science.net/WebPage/Article.aspx?id=4131 赵卫, 方念乔, 詹华明, 等, 2013.南海北部新生代构造迁移特征.海洋地质前沿, 29(4):1-6. http://d.old.wanfangdata.com.cn/Periodical/hydzdt201304001 周杰, 杨希冰, 甘军, 等, 2017.琼东南盆地深水区断裂对沉积充填的控制作用.特种油气藏, 24(2):75-79. doi: 10.3969/j.issn.1006-6535.2017.02.014 周杰, 朱继田, 杨金海, 等, 2018.琼东南盆地深水区宝南断阶带断裂特征及天然气地质意义.天然气地球科学, 29(1): 87-95. http://d.old.wanfangdata.com.cn/Periodical/trqdqkx201801008 朱伟林, 张功成, 高乐, 2008.南海北部大陆边缘盆地油气地质特征与勘探方向.石油学报, 29(1): 1-9. http://d.old.wanfangdata.com.cn/Periodical/syxb200801001 -
下载:
点击查看大图
图(11)
计量
- 文章访问数: 5277
- HTML全文浏览量: 2563
- PDF下载量: 84
- 被引次数: 0
