A synthetic method to identify the rock types of Archaeozoic under the covered region in a basin: an example from Jiyang depression

Abstract

Abstract: In recent years, two 100 million-ton class subtle reservoirs were found in the Shijiutuo uplift within the Bohai Sea. Exploration practices have proved that new geological understandings provide theoretical guidance and scientific deployment for hydrocarbon exploration discoveries. The mechanism of ternary-factor (ridge-trap-sand) coupling for controlling reservoir in low-amplitude structure guided the significant discovery of the Neogene structural-lithologic reservoir in extra-shallow water delta in the Shijiutuo uplift. The differential hydrocarbon accumulation mode of subtle reservoirs in basin-margin fault transfer zone in steep slope belt facilitated the discovery of the first 100 million-ton class the Palaeogene stratigraphic-lithologic reservoir in the medium-deep layers in the Bohai oilfield. These new geological understandings further promoted technical researches and innovations. As a result, six key technologies have been developed, including the variable-velocity mapping for shallow low-amplitude structure, the description of lithologic traps in sand-rich extra-shallow water delta, the semi-quantitative fault-sand coupling analysis, the exquisite palaeogeomorphic restoration under the tectonic-sedimentary simulation in medium-deep layers, the identification of stratigraphic-lithologic traps in medium-deep layers, and the testing of complex lithologies in medium-deep layers. These technologies provide technical support and assurance for discovering large subtle reservoirs in the Bohai Sea, playing a prospective role for future promotion and application.

Key words: Archaeozoic, covered region, magmatic rock, rock type, quantitative identification, Jiyang depression

Wang Xuejun, Guo Yuxin, Wang Yuqin, Liu Ning. A synthetic method to identify the rock types of Archaeozoic under the covered region in a basin: an example from Jiyang depression[J]. China Petroleum Exploration, 2016, 21(5): 26-32.

References

[1] 周文，杜贤樾，刘家铎，等. 埕岛中东部潜山带古生界和太古界储层裂缝分布评价[J]. 矿物岩石，2000,20(1):52-56. Zhou Wen, Du Xianyue, Liu Jiaduo, et al. Evaluation on distribution of fracture from reservoir of Palaeozoic and Archeozoic in the east Chengdao buried hill[J]. Journal of Mineralogy and Petrology, 2000,20(1):52-56.
[2] 王端平，金强，戴俊生，等. 基岩潜山油气藏储集空间分布规律和评价方法[M]. 北京：地质出版社，2003:12-33. Wang Duanping, Jin Qiang, Dai Junsheng, et al. Distribution rules and evaluation methods for the space in the reservoir of buried hills[M]. Beijing: Geological Publishing House, 2003:12-33.
[3] 周心怀，史浩，孙书滨，等. 综合地震属性分析在JZS油气田太古界变质岩潜山储层预测中的应用[J]. 石油地球物理勘探，2006,41(5):541-545. Zhou Xinhuai, Shi Hao, Sun Shubin, et al. Application of comprehensive seismic attributes analysis in prediction of Archaean metamorphic rock buried-hill reservoir in JZS oil/gas field[J]. Oil Geophysical Prospecting, 2006,41(5):541-545.
[4] 罗静兰，梁志刚，王卓卓，等. 辽河盆地兴隆台潜山变质岩—火山岩油藏烃类注入史及其成藏模式[J]. 石油实验地质，2004,26(3):249-253. Luo Jinglan, Liang Zhigang, Wang Zhuozhuo, et al. Hydrocarbon charging history and pool-forming model of the Archeozoic-Mesozoic metamorphic-volcanic reservoirs, Xinglongtai buried hill, Liaohe Basin [J]. Petroleum Geology & Experiment, 2004,26(3):249-253.
[5] 黄太明. 牛心坨地区太古界变质岩储层特征研究[J]. 特种油气藏，2003,10(5):22-25. Huang Taiming. Study on characteristics of Archaeozoic metamorphic reservoirs in Niuxintuo area[J]. Special Oil and Gas Reservoirs, 2003,10(5):22-25.
[6] 袁静. 埕北30潜山带太古界储层特征及其影响因素[J].石油学报， 2004,23(1):48-51. Yuan Jing. Characters and influence factors on Archeozoic reservoirs in the Chengbei 30 buried hills[J]. Acta Petrolei Sinica, 2004,23(1):48-51.
[7] 周英杰，武强，张敬轩，等. 埕北30潜山太古界裂缝性油藏裂缝分布预测[J]. 中国矿业大学学报，2004,33(4):433-437. Zhou Yingjie, Wu Qiang, Zhang Jingxuan, et al. Prediction of fracture distribution of Chengbei-30 buried hill fractured reservoir in Shengli oilfield[J]. Journal of China University of Mining & Technology, 2004,33(4):433-437.
[8] 郝琦，刘震，查明，等.辽河茨榆坨潜山太古界裂缝型储层特征及其控制因素[J].吉林大学学报: 地球科学版，2006,36(3):384-389. Hao Qi, Liu Zhen, Zha Ming, et al. Characters and controlling factors on the Archean fracture-type reservoirs of the Ciyutuo buried hill in the Liaohe Basin[J]. Journal of Jilin University: Earth Science Edition, 2006,36(3):384-389.
[9] 李家强，刘军锷. 东营凹陷北部陡坡带太古界潜山内幕油气成藏特征[J].中国石油大学胜利学院报，2008,22(1):1-3. Li Jiaqiang, Liu Jun’e. The interior characteristics of hydrocarbon accumulation of Archaean buried hills in the steep slope zone in north part of Dongying sag[J]. Journal of Shengli College China University of Petroleum, 2008,22(1):1-3.
[10] 朱留方，吴海燕，翟勇. 太古界变质岩储集层测井资料综合评价[J].天然气工业，2005,25(11):39-41. Zhu Liufang, Wu Haiyan, Zhai Yong. Comprehensively evaluating the log data of Archeozoic Erathem metamorphics reservoir[J]. Natural Gas Industry, 2005,25(11):39-41.
[11] 高世臣，郑丽辉，邢玉忠. 辽河盆地太古界变质岩油气储层特征[J].石油天然气学报: 江汉石油学院学报，2008,30(2):1-4. Gao Shichen, Zheng Lihui, Xing Yuzhong. Reservoir characteristics of Archaean metamorphic rocks in Liaohe Basin [J]. Journal of Oil and Gas Technology: Journal of Jianghan Petroleum Institute, 2008,30(2):1-4.
[12] 曾联波，张吉昌. 辽河坳陷边台变质岩潜山油藏裂缝分布特征[J]. 石油大学学报：自然科学版，1997,21(3):16-19. Zeng Lianbo, Zhang Jichang. Distribution of fracture in buried hill reservoir of metamorphic rock in Biantai of Liaohe depression[J]. Journal of the University of Petroleum,China: Edition of Natural Science, 1997,21(3):16-19.
[13] 邢志贵. 辽河坳陷太古宇变质岩储层研究[M]. 北京：石油工业出版社，2006:1-32. Xing Zhigui. Research on metamorphic rock reservoirs of Archean Eonothem in the Liaohe depression[M]. Beijing: Petroleum Industry Press, 2006:1-32.
[14] 张敬轩，金强. 山东莱芜地区太古界露头裂缝特征及其油气储层意义[J]. 石油实验地质，2003,25(4):371-373. Zhang Jingxuan, Jin Qiang. Characteristics of fractures and their hydrocarbon reservoir meanings for the Archean outcrop in Laiwu area, Shandong Province[J]. Petroleum Geology & Experiment, 2003,25(4):371-373.
[15] 姜文亚，柳飒. 层序地层格架中优质烃源岩分布与控制因素——以歧口凹陷古近系为例[J]. 中国石油勘探，2015,20(2):51-58. Jiang Wenya, Liu Sa. Distribution and controlling factors of high-quality hydrocarbon source rock in sequential stratigraphic framwork-taking Paleogene system in Qikoou depression for instance[J]. China Petroleum Exploration, 2015,20(2):51-58.
[16] 山东地质矿产局. 山东省区域地质志[M]. 北京：地质出版社，1991:6-25. Shandong Provincial Bureau of Geology & Mineral Resources. Regional geology of Shandong Province[M]. Beijing: Geological Publishing House, 1991:6-25.
[17] 曹国权. 鲁西山区早前寒武纪地壳演化再探讨[J]. 山东地质，1995,11(2):1-14. Cao Guoquan. The early Precambrian crustal evolution in western Shangdong[J]. Geology of Shandong, 1995,11（2）：1-14.
[18] 张增奇，刘明渭. 山东省岩石地层[M]. 武汉：中国地质大学出版社，1996:1-41. Zhang Zengqi, Liu Mingwei. The lithostratigraphic of Shandong Province[M]. Wuhan: China University of Geoscience Press, 1996:1-41.
[19] 孟涛. 济阳坳陷太古界潜山油气成藏及有利勘探区[J]. 特种油气藏，2015,22(1):66-69. Meng Tao. Hydrocarbon accumulation and prospects in archean buried hill of Jiyang depression[J]. Special Oil & Gas Reservoirs, 2015,22(1):66-69.
[20] 曾文冲，欧阳健. 测井地层分析与油气评价（上册）[M]. 北京：石油工业出版社，1981:34-37. Zeng Wenchong, Ouyang Jian. Strata analysis and hydrocarbon evaluation by logging(the first volume)[M]. Beijing: Petroleum Industry Press, 1981:34-37.
[21] 赵俊峰，李凤琴，凌志红. 东濮凹陷古潜山致密砂岩油气层测井识别方法[J]. 特种油气藏，2014,21(2):46-50. Zhao Junfeng, Li Fengqin, Ling Zhihong.Logging identification methodology of buried hill type tight sandstone oil-gas bearing formation in the Dongpu sag[J]. Special Oil & Gas Reservoirs, 2014,21(2):46-50.