西湖凹陷平北地区煤系烃源岩识别与分布

doi:10.12108/yxyqc.20210509

岩性油气藏 ›› 2021, Vol. 33 ›› Issue (5): 95–106.doi: 10.12108/yxyqc.20210509

西湖凹陷平北地区煤系烃源岩识别与分布

赵静^1,2, 黄志龙^1,2, 刘春锋³, 李天军^1,2, 蒋一鸣³, 谭思哲³, 黄鋆³, 郭小波⁴

1. 中国石油大学(北京) 地球科学学院, 北京 102249;
2. 中国石油大学(北京) 油气资源与探测国家重点实验室, 北京 102249;
3. 中海石油(中国)有限公司上海分公司, 上海 200030;
4. 西安石油大学地球科学与工程学院, 西安 710065

收稿日期:2020-11-16 修回日期:2021-03-28 出版日期:2021-10-01 发布日期:2021-09-30
第一作者:赵静(1995-),女,中国石油大学(北京)在读博士研究生,研究方向为石油地质。地址:(102249)北京市昌平区府学路18号。Email:2276334866@qq.com
通信作者: 黄志龙(1962-),男,博士,教授,博士生导师,主要从事油气藏形成与分布等方面的教学与研究工作。Email:huangzhilong1962@163.com。
基金资助:
国家科技重大专项“东海深层低渗—致密天然气勘探开发技术”（编号：2016ZX05027-002-001）资助

Identification and distribution characteristics of coal-bearing source rocks in Pingbei area,Xihu Sag

ZHAO Jing^1,2, HUANG Zhilong^1,2, LIU Chunfeng³, LI Tianjun^1,2, JIANG Yiming³, TAN Sizhe³, HUANG Jun³, GUO Xiaobo⁴

1. School of Geosciences, China University of Petroleum, Beijing 102249, China;
2. State Key Laboratory of Petroleum Resource and Prospecting, China University of Petroleum(Beijing), Beijing 102249, China;
3. Shanghai Branch of CNOOC Limited, Shanghai 200030, China;
4. School of Earth Sciences and Engineering, Xi'an Shiyou University, Xi'an 710065, China

Received:2020-11-16 Revised:2021-03-28 Online:2021-10-01 Published:2021-09-30

摘要/Abstract

摘要： 西湖凹陷平北地区平湖组煤系烃源岩发育煤、炭质泥岩、泥岩3种岩性。为明确煤系烃源岩的发育与展布特征，并确定优质烃源岩发育的关键因素，首先通过对平北地区煤系烃源岩地球化学特征的分析与有效烃源岩的评价，建立烃源岩岩性测井识别模型，然后结合岩性分布与泥岩TOC含量预测结果，明确研究区煤系烃源岩的发育特征与分布规律。结果表明：研究区平湖组煤和炭质泥岩为优质烃源岩，TOC质量分数> 1.0%的泥岩为有效烃源岩；煤系烃源岩的有机质类型以Ⅱ-Ⅲ型为主，普遍达到低熟-成熟阶段；煤系烃源岩的分布明显受古水深控制，平湖组中段沉积期发生海侵作用，有利于煤系烃源岩发育，煤的沉积中心多分布于隆间洼地，炭质泥岩与煤具有共生关系，有效泥岩随水深增加而变厚；平北地区古地形特征及生长断层的活动速率可影响局部水体变化，为优质煤系烃源岩发育的关键因素。该研究成果对西湖凹陷平北地区的生烃潜力评价、有利区预测具有一定指导意义。

关键词: 煤系烃源岩, 识别与分布, 平湖组, 西湖凹陷

Abstract: The coal-bearing source rocks of Pinghu Formation in Pingbei area, Xihu Sag, have three kinds of lithology:coal, carbonaceous mudstone and mudstone. In order to clarify the development and distribution characteristics of various coal-bearing source rocks, and determine the key factors for the development of high-quality source rocks, through the analysis of geochemical characteristics and the evaluation of effective source rocks of coal-bearing source rocks in Pingbei area, the lithologic logging identification model was established. Combined with the prediction results of lithology distribution and TOC content of mudstone, the development characteristics and distribution law of coal-bearing source rocks in study area were clarified. The results show that:the coal and carbonaceous mudstone of Pinghu Formation are high quality source rocks, and the mudstone with w(TOC) >1.0% are effective source rocks. Organic matter types of coal-bearing source rocks are mainly Ⅱ-Ⅲ types, generally reaching low maturity to maturity stage. The distribution of coal-bearing source rocks is obviously controlled by Paleo water depth. Transgression occurred in the middle part of sedimentary period of Pinghu Formation, is conducive to the development of coal-bearing source rocks. The sedimentary centers of coal are mostly distributed in the depression between uplifts;besides, the carbonaceous mudstone and coal have symbiotic relationship. The effective mudstone thickens with the increase of water depth. The Paleotopography and the active rate of growth faults in Pingbei area affect the local water bodies, which are the key factors for the development of high-quality coal-bearing source rocks. The research results have guiding significance for hydrocarbon generation potential evaluation and favorable area prediction in Pingbei area, Xihu Sag.

Key words: coal-bearing source rocks, identification and distribution, Pinghu Formation, Xihu Sag

中图分类号:

TE112.11

赵静, 黄志龙, 刘春锋, 李天军, 蒋一鸣, 谭思哲, 黄鋆, 郭小波. 西湖凹陷平北地区煤系烃源岩识别与分布[J]. 岩性油气藏, 2021, 33(5): 95–106.

ZHAO Jing, HUANG Zhilong, LIU Chunfeng, LI Tianjun, JIANG Yiming, TAN Sizhe, HUANG Jun, GUO Xiaobo. Identification and distribution characteristics of coal-bearing source rocks in Pingbei area,Xihu Sag[J]. Lithologic Reservoirs, 2021, 33(5): 95–106.

参考文献

[1] 肖贤明, 刘德汉, 傅家谟.我国聚煤盆地煤系烃源岩生烃评价与成烃模式.沉积学报, 1996, 14(增刊1):10-17. XIAO X M, LIU D H, FU J M. The evaluation of coal-measure source rocks of coal-bearing basins in China and their hydrocarbon-generating models. Acta Sedimentologica Sinica, 1996, 14(Suppl 1):10-17.
[2] 孙永革, 朱进, 徐华, 等.生油煤形成的环境制约.地球化学, 2002, 31(1):8-14. SUN Y G, ZHU J, XU H, et al. Environmental constraints on oil-generating coals. Geochimica, 2002, 31(1):8-14.
[3] 陶士振, 邹才能.东海盆地西湖凹陷天然气成藏及分布规律. 石油勘探与开发, 2005, 32(4):103-110. TAO S Z, ZOU C N. Accumulation and distribution of natural gases in Xihu Sag, East China Sea Basin. Petroleum Exploration and Development, 2005, 32(4):103-110.
[4] 姜亮. 东海陆架盆地油气资源勘探现状及含油气远景.中国海上油气(地质), 2003, 17(1):1-5. JIANG L. Exploration status and perspective of petroleum resources in East China Sea shelf basin. China Offshore Oil and Gas(Geology), 2003, 17(1):1-5.
[5] 张建培, 余逸凡, 张田, 等.东海西湖凹陷深盆气勘探前景探讨.中国海上油气, 2013, 25(2):24-29. ZHANG J P, YU Y F, ZHANG T, et al. A discussion on the exploration potential of deep basin gas in Xihu sag, East China Sea. China Offshore Oil and Gas, 2013, 25(2):24-29.
[6] ZHU Y M, LI Y, ZHOU J, et al. Geochemical characteristics of Tertiary coal-bearing source rocks in Xihu depression, East China Sea Basin. Marine and Petroleum Geology, 2012, 35(1):154-165.
[7] 苏奥, 陈红汉.东海盆地西湖凹陷油岩地球化学特征及原油成因来源.地球科学, 2015, 40(6):1072-1081. SU A, CHEN H H. Geochemical characteristics of oil and source rock, origin and genesis of oil in Xihu Depression, East China Sea Basin. Earth Science, 2015, 40(6):1072-1081.
[8] 田杨, 叶加仁, 雷闯, 等.断陷盆地海陆过渡相烃源岩发育模式:以西湖凹陷平湖组为例.地球科学, 2019, 44(3):898-908. TIAN Y, YE J R, LEI C, et al. Development model for source rock of marine continental transitional face in faulted basins:A case study of Pinghu formation in Xihu Sag. Earth Science, 2019, 44(3):898-908.
[9] 魏恒飞, 陈践发, 陈晓东.东海盆地西湖凹陷凝析气藏成藏特征及分布控制因素.吉林大学学报(地球科学版), 2019, 49(6):1507-1517. WEI H F, CHEN J F, CHEN X D. Characteristics and controlling factors of condensate reservoir accumulation in Xihu Sag, East China Sea Basin. Journal of Jilin University(Earth Science Edition), 2019, 49(6):1507-1517.
[10] 刁慧, 刘金水, 侯读杰, 等.中国近海断-坳转换期煤系烃源岩特征:以西湖凹陷平湖组烃源岩为例.海洋地质与第四纪地质, 2019, 39(6):102-114. DIAO H, LIU J S, HOU D J, et al. Coal-bearing source rocks formed in the transitional stage from faulting to depression nearshore China:A case from the Pinghu Formation in the Xihu Sag. Marine Geology & Quaternary Geology, 2019, 39(6):102-114.
[11] 李宁, 汤睿, 赵洪, 等.西湖凹陷平湖构造带物源特征分析.海洋石油, 2017, 37(2):21-26. LI N, TANG R, ZHAO H, et al. Source characteristics analysis of Pinghu structural belt in Xihu Depression. Offshore Oil, 2017, 37(2):21-26.
[12] 周心怀, 高顺莉, 高伟中, 等.东海陆架盆地西湖凹陷平北斜坡带海陆过渡型岩性油气藏形成与分布预测. 中国石油勘探, 2019, 24(2):153-164. ZHOU X H, GAO S L, GAO W Z, et al. Formation and distribution of marine-continental transitional lithologic reservoirs in Pingbei slope belt, Xihu Sag, East China Sea shelf basin. China Petroleum Exploration, 2019, 24(2):153-164.
[13] 吴嘉鹏, 万丽芬, 张兰, 等.西湖凹陷平湖组岩相类型及沉积相分析.岩性油气藏, 2017, 29(1):27-34. WU J P, WAN L F, ZHANG L, et al. Lithofacies types and sedimentary facies of Pinghu Formation in Xihu Depression. Lithologic Reservoirs, 2017, 29(1):27-34.
[14] 刘金水, 赵洪.东海陆架盆地西湖凹陷平湖斜坡带差异性气侵的成藏模式. 成都理工大学学报(自然科学版), 2019, 46(4):487-496. LIU J S, ZHAO H. Characteristics of differential gas invasion on Pinghu Slope of Xihu Sag, East China Sea Basin. Journal of Chengdu University of Technology(Science & Technology Edition), 2019, 46(4):487-496.
[15] 于水.西湖凹陷西斜坡平湖组烃源岩沉积成因分析.地球科学, 2020, 45(5):1722-1736. YU S. Depositional genesis analysis of source rock in Pinghu Formation of western slope, Xihu Depression. Earth Science, 2020, 45(5):1722-1736.
[16] 陈建平, 赵长毅, 何忠华. 煤系有机质生烃潜力评价标准探讨.石油勘探与开发, 1997, 24(1):1-5. CHEN J P, ZHAO C Y, HE Z H. Criteria for evaluating the hydrocarbon generating potential of organic matter in coal measures. Petroleum Exploration and Development, 1997, 24(1):1-5.
[17] ZHU X J, CHEN J F, LI W, et al. Hydrocarbon generation potential of Paleogene coals and organic rich mudstones in Xihu Sag, East China Sea shelf basin, offshore eastern China. Journal of Petroleum Science and Engineering, 2020, 184:1-13.
[18] 吉鸿杰, 邱振, 陶辉飞, 等.烃源岩特征与生烃动力学研究:以准噶尔盆地吉木萨尔凹陷芦草沟组为例.岩性油气藏, 2016, 28(4):34-42. JI H J, QIU Z, TAO H F, et al. Source rock characteristics and hydrocarbon generation kinetics:A case study of the Permian Lucaogou Formation in Jimusar Sag, Junggar Basin. Lithologic Reservoirs, 2016, 28(4):34-42.
[19] 蒋一鸣, 刁慧, 曾文倩.东海盆地西湖凹陷平湖组煤系烃源岩条件及成烃模式.地质科技通报, 2020, 39(3):30-39. JIANG Y M, DIAO H, ZENG W Q. Coal source rock conditions and hydrocarbon generation model of Pinghu Formation in Xihu Depression, East China Sea Basin. Bulletin of Geological Science and Technology, 2020, 39(3):30-39.
[20] 黄志龙, 高岗.石油地质综合研究方法.北京:石油工业出版社, 2017:150-152. HUANG Z L, GAO G. Comprehensive research methods of petroleum geology. Beijing:Petroleum Industry Press, 2017:150-152.
[21] 卢双舫, 马延伶, 曹瑞成, 等.优质烃源岩评价标准及其应用:以海拉尔盆地乌尔逊凹陷为例.地球科学——中国地质大学学报, 2012, 37(3):535-544. LU S F, MA Y L, CAO R C, et al. Evaluation criteria of highquality source rocks and its applications:Taking the Wuerxun Sag in Hailaer Basin as an example. Earth Science-Journal of China University of Geosciences, 2012, 37(3):535-544.
[22] 高岗, 王银会, 柳广弟, 等.酒泉盆地营尔凹陷有效烃源岩的确认及其展布特征.石油实验地质, 2013, 35(4):414-418. GAO G, WANG Y H, LIU G D, et al. Confirmation and distribution features of effective source rocks in Yinger Sag, Jiuquan Basin. Petroleum Geology & Experiment, 2013, 35(4):414-418.
[23] 高岗, 杨尚儒, 陈果, 等.确定烃源岩有效排烃总有机碳阈值的方法及应用.石油实验地质, 2017, 39(3):397-408. GAO G, YANG S R, CHEN G, et al. Method and application for identifying TOC threshold of hydrocarbon-expelling source rock. Petroleum Geology & Experiment, 2017, 39(3):397-408.
[24] 程熊, 侯读杰, 赵喆, 等.西湖凹陷天然气成因及来源分析.中国海上油气, 2019, 31(3):50-60. CHENG X, HOU D J, ZHAO Z, et al. Analysis on the genesis and source of natural gas in Xihu Sag, East China Sea Basin. China Offshore Oil and Gas, 2019, 31(3):50-60.
[25] 李延丽, 王建功, 石亚军, 等.柴达木盆地西部盐湖相有效烃源岩测井识别.岩性油气藏, 2017, 29(6):69-75. LI Y L, WANG J G, SHI Y J, et al. Logging identification of effective source rocks in salt-lake facies in western Qaidam Basin. Lithologic Reservoirs, 2017, 29(6):69-75.
[26] MEYER B L, NEDERLOF M H. Identification of source rocks on wireline logs by density/resistivity and sonic transit time/resistivity crossplots. AAPG Bulletin, 1984, 68:121-129.
[27] 张小莉, 沈英.吐哈盆地侏罗系煤系地层烃源岩的测井研究. 测井技术, 1998, 22(3):37-39. ZHANG X L, SHEN Y. Study on the source rock of Jurassic coal measure strata in Turpan-Hami Basin by logs. Well Logging Technology, 1998, 22(3):37-39.
[28] 黄彦杰, 白玉彬, 孙兵华, 等.鄂尔多斯盆地富县地区延长组长7烃源岩特征及评价.岩性油气藏, 2020, 32(1):66-75. HUANG Y J, BAI Y B, SUN B H, et al. Characteristics and evaluation of Chang 7 source rock of Yanchang Formation in Fuxian area, Ordos Basin. Lithologic Reservoirs, 2020, 32(1):66-75.
[29] 孙哲, 彭靖淞, 江尚昆, 等.渤海海域庙西中南洼围区烃源岩有机相与测井评价.岩性油气藏, 2020, 32(1):102-110. SUN Z, PENG J S, JIANG S K, et al. Organic facies and well logging evaluation of source rocks in central-south sag of Miaoxi Depression and its surrounding areas, Bohai Sea. Lithologic Reservoirs, 2020, 32(1):102-110.
[30] 黄文辉, 敖卫华, 肖秀玲, 等.鄂尔多斯盆地侏罗纪含煤系生烃潜力评价.煤炭学报, 2011, 36(3):461-467. HUANG W H, AO W H, XIAO X L, et al. The assessment of the capacity for producing hydrocarbon in the Jurrasic coal and associate rocks in Ordos Basin. Journal of China Coal Society, 2011, 36(3):461-467.
[31] 蒋德鑫, 姜正龙, 张贺, 等.烃源岩总有机碳含量测井预测模型探讨:以陆丰凹陷文昌组为例.岩性油气藏, 2019, 31(6):109-117. JIANG D X, JIANG Z L, ZHANG H, et al. Well logging prediction models of TOC content in source rocks:A case of Wenchang Formation in Lufeng Sag. Lithologic Reservoirs, 2019, 31(6):109-117.
[32] 赵洪, 蒋一鸣, 常吟善, 等.西湖凹陷平湖组基于沉积相标志的沉积特征研究.上海国土资源, 2018, 39(1):88-92. ZHAO H, JIANG Y M, CHANG Y S, et al. Study on sedimentary characteristics of the Pinghu Formation based on sedimentary facies markers in Xihu Sag, East China Sea Basin. Shanghai Land & Resources, 2018, 39(1):88-92.
[33] 蒋一鸣, 邵龙义, 李帅, 等.西湖凹陷平湖构造带平湖组沉积体系及层序地层研究.现代地质, 2020, 34(1):141-153. JIANG Y M, SHAO L Y, LI S, et al. Deposition system and stratigraphy of Pinghu Formation in Pinghu tectonic belt, Xihu Sag. Geoscience, 2020, 34(1):141-153.
[34] 李云波, 姜波, 赵志刚, 等.西湖凹陷构造发育及其对平湖组煤系的控制:与黄县盆地对比分析. 中国矿业大学学报, 2014, 43(3):432-441. LI Y B, JIANG B, ZHAO Z G, et al. Tectonic development characteristics and their influence on coal seam distribution characteristics in Xihu Sag, East China Sea:Comparative analysis to the Huangxian Basin in Shandong province. Journal of China University of Mining &Technology, 2014, 43(3):432-441.
[35] 操应长, 姜在兴, 夏斌.幕式差异沉降运动对断陷湖盆中湖平面和水深变化的影响.石油实验地质, 2003, 25(4):323-327. CAO Y C, JIANG Z X, XIA B. Effects of episodic differential subsidence on the changes of lake level and water depth in rift lake basins. Petroleum Geology & Experiment, 2003,25(4):323-327.
[36] 周心怀, 蒋一鸣, 唐贤君. 西湖凹陷成盆背景、原型盆地演化及勘探启示. 中国海上油气, 2019, 31(3):1-10. ZHOU X H, JIANG Y M, TANG X J. Tectonic setting, prototype basin evolution and exploration enlightenment of Xihu Sag in East China Sea Basin. China Offshore Oil and Gas, 2019, 31(3):1-10.

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西湖凹陷平北地区煤系烃源岩识别与分布

Identification and distribution characteristics of coal-bearing source rocks in Pingbei area,Xihu Sag

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