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Oil and gas exploration breakthroughs and insights in the western segment of Silurian Shajingzi structural belt in Tarim Basin |
GAO Yongjin1, ZHANG Yuanyin1,2, WU Chao3, YANG Youxing1, BAI Zhongkai1, TIAN Ya1 |
1. Oil & Gas Survey Center, China Geological Survey, Beijing 100083, China; 2. Institute of Energy, Peking University, Beijing 100871, China; 3. Urumqi Geological Team, Xinjiang Geology and Mineral Resources Bureau, Xinjiang Urumqi, 830017, China |
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Abstract The exploration degree of Silurian oil and gas in the northwestern part of Tarim Basin was relatively low. The oil and gas discovery was obtained in the eastern segment of Shajingzi structural belt from wells XSD 1 and XSC 1 from 2019 to 2021, and then the industrial gas flow was also achieved in XSD 2 well, which extended westward in 2023. Based on the analysis of drilling, oil testing, geochemical, geological characteristics in Shajingzi area and the results of field profile measurements, and combined with the targeted processing and detailed interpretation of 2D seismic data, the authors in this paper conducted an analysis of the reservoir formation model and evaluation of resource potential. The results are as follows. ① Large sand bodies were developed in Silurian Kepingtage Formation in Shajingzi structural belt, with favorable reservoir-seal assemblages. The wells XSD 2 in the eastern segment, XSC 1 and XSD 1 in the western segment, have all achieved industrial gas flow, revealing the oil and gas potential of Silurian strata; ② Shajingzi fault system is large in scale and long in duration, connecting the high-quality source rocks in the deep part of Awati depression. This fault system also controls the formation of a series of structural traps and structural-lithology traps in Shajingzi structural belt. The reservoir formation period is mainly Himalayan period after the traps were formed, characterized by “fault-dominated, late-stage reservoir formation”; ③ Forty-two traps have been identified in Silurian Kepingtage Formation of Shajingzi structural belt, with a predicted trap resource volume of 198.21 million tons oil equivalent, indicating significant oil and gas exploration potential. The results of the study could provide some references and basis for the next step in the evaluation of the exploration area.
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Received: 12 August 2024
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[1] 李清瑶,高永进,陈夷,等.北方重要盆地油气资源战略选区调查工作进展[J].中国地质调查,2024,11(1):1-8. Li Q Y,Gao Y J,Chen Y,et al.Progress in the strategic selection investigation of oil and gas resources in northern important basins[J].Geological Survey of China,2024,11(1):1-8. [2] 杨有星,高永进,周新桂,等.新疆地区公益性油气调查进展与主要成果[J].中国地质调查,2023,10(3):1-15. Yang Y X,Gao Y J,Zhou X G,et al.Progress and main achievements of public welfare oil and gas survey in Xinjiang[J].Geolo-gical Survey of China,2023,10(3):1-15. [3] 姜振学,庞雄奇,刘洛夫,等.塔里木盆地志留系沥青砂破坏烃量定量研究[J].中国科学D辑:地球科学,2008,38(增刊1):89-94. Jiang Z X,Pang X Q,Liu L F,et al.Quantitative studies of hydrocarbon loss of the Silurian bitumen sandstone in the Tarim Basin[J].Science in China Series D:Earth Sciences,2008,38(S1):89-94. [4] 张永贵,张忠民,冯兴强,等.塔河油田南部志留系油气成藏主控因素与成藏模式[J].石油学报,2011,32(5):767-774. Zhang Y G,Zhang Z M,Feng X Q,et al.Main controlling factors and models of Silurian hydrocarbon accumulation in the southern Tahe Oilfield[J].Acta Petrolei Sinica,2011,32(5):767-774. [5] 徐寅,徐怀民,牛玉杰,等.塔中地区志留系海相砂岩层序特征及成藏模式[J].中国矿业大学学报,2013,42(3):405-412. Xu Y,Xu H M,Niu Y J,et al.Sequence characteristics and hydrocarbon accumulation model of marine sandstone of Silurian in Tazhong area[J].Journal of China University of Mining & Technology,2013,42(3):405-412. [6] 张君峰,张远银,高永进.塔里木盆地沙井子构造带志留系油气勘探突破及启示[J].石油勘探与开发,2022,49(1):203-214. Zhang J F,Zhang Y Y,Gao Y J.Silurian hydrocarbon exploration breakthrough and its implications in the Shajingzi structural belt of Tarim Basin,NW China[J].Petroleum Exploration and Development,2022,49(1):203-214. [7] Zhang Y Y,Zhang J F,Gao Y J,et al.Characteristics and accumulation model of Silurian tight sandstone gas reservoir:A case study in the Shajingzi belt,northwest Tarim Basin,China[J].Frontiers in Earth Science,2022,10:857053. [8] 张远银,高永进,白忠凯,等.塔里木盆地柯坪断隆东段新苏地1井钻获奥陶—志留系油气显示[J].中国地质,2020,47(6):1930-1931. Zhang Y Y,Gao Y J,Bai Z K,et al.New hydrocarbon discoveries via XSD1 drilling in the eastern Keping uplift,Tarim Basin[J].Geology in China,2020,47(6):1930-1931. [9] 高永进,张君峰,张远银,等.塔里木盆地西北部新苏地1井首获志留系工业气流[J].中国地质,2021,48(5):1655-1656. Gao Y J,Zhang J F,Zhang Y Y,et al.Silurian commercial gas flow firstly obtained by well XSD1 in the northwest Tarim Basin[J].Geology in China,2021,48(5):1655-1656. [10] 杨有星,高永进,张金虎,等.塔里木盆地西北缘新苏地2井钻获志留系油气层[J].中国地质,2022,49(5):1699-1700. Yang Y X,Gao Y J,Zhang J H,et al.Discovery of Silurian hydrocarbon reservoirs obtained by well XSD2 in the northwest Tarim Basin[J].Geology in China,2022,49(5):1699-1700. [11] 张君峰,高永进,杨有星,等.塔里木盆地温宿凸起油气勘探突破及启示[J].石油勘探与开发,2019,46(1):14-24. Zhang J F,Gao Y J,Yang Y X,et al.Oil exploration breakthrough in the Wensu salient,northwest Tarim Basin and its implications[J].Petroleum Exploration and Development,2019,46(1):14-24. [12] 张君峰,高永进,周新桂,等.塔里木盆地温宿凸起石油地质特征及油气远景[M].北京:地质出版社,2020. Zhang J F,Gao Y J,Zhou X G,et al.Petroleum Geology Characteristics and Hydrocarbon Prospect in the Wensu Salient,Tarim Basin[M].Beijing:Geological Publishing Press,2020. [13] 王国林,李曰俊,孙建华,等.塔里木盆地西北缘柯坪冲断带构造变形特征[J].地质科学,2009,44(1):50-62. Wang G L,Li Y J,Sun J H,et al.Structural deformation characteristics of the Kalpin thrust belt,NW Tarim[J].Chinese Journal of Geology,2009,44(1):50-62. [14] 齐英敏,李曰俊,王月然,等.塔里木盆地西北缘沙井子构造带断裂构造分析[J].地质科学,2012,47(2):265-277. Qi Y M,Li Y J,Wang Y R,et al.Fault analysis on Shajingzi structural belt,NW margin of Tarim Basin,NW China[J].Chinese Journal of Geology,2012,47(2):265-277. [15] 李曰俊,孙龙德,杨海军,等.塔里木盆地阿瓦提凹陷周缘的晚新生代张扭性断层带[J].地质科学,2013,48(1):109-123. Li Y J,Sun L D,Yang H J,et al.The Late Cenozoic tensor-shear fault zones around Awati Sag,NW Tarim Basin[J].Chinese Journal of Geology,2013,48(1):109-123. [16] 吴立群,焦养泉,荣辉.塔里木盆地西部四十厂剖面志留系柯坪塔格组沥青砂岩沉积特征[J].现代地质,2011,25(1):48-54. Wu L Q,Jiao Y Q,Rong H.Sedimentary characteristics of Silurian Kepingtage Formation bituminous sandstone at Sishichang section,western Tarim Basin[J].Geoscience,2011,25(1):48-54. [17] 李清瑶,高永进,杨有星,等.塔里木盆地西北部志留系柯坪塔格组沉积体系演化特征[J].断块油气田,2023,30(4):639-647. Li Q Y,Gao Y J,Yang Y X,et al.Sedimentary system evolution characteristics of Silurian Kepingtage Formation in northwest Tarim Basin[J].Fault-Block Oil & Gas Field,2023,30(4):639-647. [18] Yang H J,Li S M,Pang X Q,et al.Origin of the Silurian crude oils and reservoir formation characteristics in the Tazhong uplift[J].Acta Geologica Sinica,2010,84(5):1128-1140. [19] 席勤,余和中,顾乔元,等.塔里木盆地阿瓦提凹陷主力烃源岩探讨及油源对比[J].大庆石油地质与开发,2016,35(1):12-18. Xi Q,Yu H Z,Gu Q Y,et al.Main hydrocarbon source rocks and contrasts for Awati Sag in Tarim Basin[J].Petroleum Geology and Oilfield Development in Daqing,2016,35(1):12-18. [20] 张水昌,张斌,杨海军,等.塔里木盆地喜马拉雅晚期油气藏调整与改造[J].石油勘探与开发,2012,39(6):668-680. Zhang S C,Zhang B,Yang H J,et al.Adjustment and alteration of hydrocarbon reservoirs during the late Himalayan period,Tarim Basin,NW China[J].Petroleum Exploration and Development,2012,39(6):668-680. |
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