塔里木盆地富满油田深层—超深层油气成藏过程

doi:10.7623/syxb202406005

石油学报 ›› 2024, Vol. 45 ›› Issue (6): 947-960.DOI: 10.7623/syxb202406005

塔里木盆地富满油田深层—超深层油气成藏过程

黄亚浩¹, 汪如军², 文志刚¹, 张银涛², 崔仕提², 李梦勤², 王彭², 何涛华¹

1. 长江大学油气地球化学与环境湖北省重点实验室湖北武汉 430100;
2. 中国石油塔里木油田公司新疆库尔勒 841000

收稿日期:2023-07-19 修回日期:2024-01-15 出版日期:2024-06-25 发布日期:2024-07-05
通讯作者: 文志刚,男,1965年7月生,1997年获中国地质大学(北京)博士学位,现为长江大学资源与环境学院教授,主要从事油气地球化学、油气成藏与富集规律研究工作。Email:wzg728@sina.com
作者简介:黄亚浩,男,1990年12月生,2018年获中国地质大学(武汉)博士学位,现为长江大学资源与环境学院副教授,主要从事深层油气成藏研究工作。Email:hyhtr08916@163.com
基金资助:
国家自然科学基金项目(No.42302154,No.42272160)资助。

Hydrocarbon accumulation process of the deep to ultra deep reservoirs in Fuman oilfield,Tarim Basin

Huang Yahao¹, Wang Rujun², Wen Zhigang¹, Zhang Yintao², Cui Shiti², Li Mengqin², Wang Peng², He Taohua¹

1. Hubei Key Laboratory of Oil and Gas Geochemistry and Environment, Yangtze University, Hubei Wuhan 430100, China;
2. PetroChina Tarim Oilfield Company, Xinjiang Korla 841000, China

Received:2023-07-19 Revised:2024-01-15 Online:2024-06-25 Published:2024-07-05

摘要/Abstract

摘要： 塔里木盆地台盆区深层—超深层油气资源潜力巨大,其中,富满油田奥陶系一间房组—鹰山组油气成藏过程复杂,油气相态在平面上的分布差异明显。基于碳酸盐胶结物原生油包裹体和碳酸盐脉体的微区U-Pb同位素定年结果,确定了富满油田储层充填3期缝洞型脉体,主要存在3期原油充注和1期天然气充注。第1期原油充注发生在加里东中期(473.3~447.4 Ma),第2期原油充注发生在海西中—晚期(348.2~273.9 Ma),第3期原油充注发生在印支期—燕山早期(217.6~205.2 Ma);1期天然气大规模充注在燕山晚期—喜马拉雅期(90~20 Ma);3期缝洞充填脉体对应3期原油充注时期和构造活动时间。富满油田南部与北部不同区域充注的古原油的成熟度和类型不同,主要受控于不同区域寒武系玉尔吐斯组烃源岩的热演化程度,寒武系烃源岩的热演化过程和台盆区构造活动时间与油气充注过程具有时空匹配关系。研究成果有助于提高对深层—超深层碳酸盐岩油气成藏机理和油气富集规律的认识。

关键词: 流体包裹体, 同位素定年, 深层油气, 碳酸盐岩, 塔里木盆地

Abstract: The platform area of Tarim Basin possesses a vast hydrocarbon resource potential in deep to ultra-deep reservoirs. Tarim Basin has experienced a complex of hydrocarbon accumulation in the Ordovician Yijianfang Formation and Yingshan Formation in Fuman oilfield. Meanwhile, there is a significant difference in the planar distribution of hydrocarbon phases. Based on micro-area U-Pb isotope dating of carbonate cement and crude oil inclusions as well as carbonate veins, this study has determined three stages of fracture-cave type vein filling in reservoirs of Fuman oilfield, three stages of crude oil charging and one stage of natural gas charging. Specifically, the Stage-1 of crude oil charging occurred during the Middle Caledonian Period (473.3-447.4 Ma), the Stage-2 spanned from the Middle Devonian to the Late Devonian Period (348.2-273.9 Ma), the Stage-3 occurred during the Early Indosinian to Yanshanian Period (217.6-205.2 Ma), and the natural gas charging occurred on a large scale during the Late Yanshanian to Himalayan (90-20 Ma). The three stages of fracture-cave type vein filling correspond to the three stages of crude oil charging and tectonic activity. There are differences in the maturity and type of paleo oils charged in the southern and northern parts of Fuman oilfield, which are primarily influenced by variations in the thermal evolution of source rocks in the Cambrian Yuertusi Formation in different areas of the oilfield. The evolutionary processes of the Cambrian source rocks and the timing of tectonic activities in the platform area exhibit temporal and spatial correlations with the four phases of hydrocarbon charging. These research findings contribute to an enhanced understanding of the hydrocarbon accumulation mechanism and hydrocarbon enrichment regularity of deep to ultra-deep carbonate reservoirs.

Key words: fluid inclusion, isotope dating, deep oil and gas, carbonate rock, Tarim Basin

中图分类号:

TE132.1

黄亚浩, 汪如军, 文志刚, 张银涛, 崔仕提, 李梦勤, 王彭, 何涛华. 塔里木盆地富满油田深层—超深层油气成藏过程[J]. 石油学报, 2024, 45(6): 947-960.

Huang Yahao, Wang Rujun, Wen Zhigang, Zhang Yintao, Cui Shiti, Li Mengqin, Wang Peng, He Taohua. Hydrocarbon accumulation process of the deep to ultra deep reservoirs in Fuman oilfield,Tarim Basin[J]. Acta Petrolei Sinica, 2024, 45(6): 947-960.

参考文献

[1] 王清华,杨海军,汪如军,等.塔里木盆地超深层走滑断裂断控大油气田的勘探发现与技术创新[J].中国石油勘探,2021,26(4):58-71.
WANG Qinghua,YANG Haijun,WANG Rujun,et al.Discovery and exploration technology of fault-controlled large oil and gas fields of ultra-deep formation in strike slip fault zone in Tarim Basin[J].China Petroleum Exploration,2021,26(4):58-71.
[2] 田军,杨海军,朱永峰,等.塔里木盆地富满油田成藏地质条件及勘探开发关键技术[J].石油学报,2021,42(8):971-985.
TIAN Jun,YANG Haijun,ZHU Yongfeng,et al.Geological conditions for hydrocarbon accumulation and key technologies for exploration and development in Fuman oilfield,Tarim Basin[J].Acta Petrolei Sinica,2021,42(8):971-985.
[3] 李建忠,陶小晚,白斌,等.中国海相超深层油气地质条件、成藏演化及有利勘探方向[J].石油勘探与开发,2021,48(1):52-67.
LI Jianzhong,TAO Xiaowan,BAI Bin,et al.Geological conditions,reservoir evolution and favorable exploration directions of marine ultra-deep oil and gas in China[J].Petroleum Exploration and Development,2021,48(1):52-67.
[4] 焦方正.塔里木盆地深层碳酸盐岩缝洞型油藏体积开发实践与认识[J].石油勘探与开发,2019,46(3):552-558.
JIAO Fangzheng.Practice and knowledge of volumetric development of deep fractured-vuggy carbonate reservoirs in Tarim Basin,NW China[J].Petroleum Exploration and Development,2019,46(3):552-558.
[5] 孔永吉,吴孔友,刘寅.塔里木盆地顺南地区走滑断裂发育特征及演化[J].地质与资源,2020,29(5):446-453.
KONG Yongji,WU Kongyou,LIU Yin.Development characteristics and evolution of the strike-slip faults in Shunnan area,Tarim Basin[J].Geology and Resources,2020,29(5):446-453.
[6] 邓尚,刘雨晴,刘军,等.克拉通盆地内部走滑断裂发育、演化特征及其石油地质意义:以塔里木盆地顺北地区为例[J].大地构造与成矿学,2021,45(6):1111-1126.
DENG Shang,LIU Yuqing,LIU Jun,et al.Structural styles and evolution models of intracratonic strike-slip faults and the implications for reservoir exploration and appraisal:a case study of the Shunbei area,Tarim Basin[J].Geotectonica et Metallogenia,2021,45(6):1111-1126.
[7] 邬光辉,马兵山,韩剑发,等.塔里木克拉通盆地中部走滑断裂形成与发育机制[J].石油勘探与开发,2021,48(3):510-520.
WU Guanghui,MA Bingshan,HAN Jianfa,et al.Origin and growth mechanisms of strike-slip faults in the central Tarim cratonic basin,NW China[J].Petroleum Exploration and Development,2021,48(3):510-520.
[8] 李开开,蔡春芳,蔡镠璐,等.塔河油田下古生界溶洞充填巨晶方解石流体来源分析[J].地质科学,2010,45(2):595-605.
LI Kaikai,CAI Chunfang,CAI Liaolu et al.Fluid origin of cave-filling giant crystalline calcites in the Early Paleozoic in Tahe oilfield,Tarim Basin and the model of the fluid action[J].Chinese Journal of Geology,2010,45(2):595-605.
[9] 刘宝增.塔里木盆地顺北地区油气差异聚集主控因素分析——以顺北1号、顺北5号走滑断裂带为例[J].中国石油勘探,2020,25(3):83-95.
LIU Baozeng.Analysis of main controlling factors of oil and gas differential accumulation in Shunbei area,Tarim Basin-taking Shunbei No.1 and No.5 strike-slip fault zones as examples[J].China Petroleum Exploration,2020,25(3):83-95.
[10] 曹自成,路清华,顾忆,等.塔里木盆地顺北油气田1号和5号断裂带奥陶系油气藏特征[J].石油与天然气地质,2020,41(5):975-984.
CAO Zicheng,LU Qinghua,GU Yi,et al.Characteristics of Ordovician reservoirs in Shunbei 1 and 5 fault zones,Tarim Basin[J].Oil&Gas Geology,2020,41(5):975-984.
[11] 漆立新.塔里木盆地顺北超深断溶体油藏特征与启示[J].中国石油勘探,2020,25(1):102-111.
QI Lixin.Characteristics and inspiration of ultra-deep fault-karst reservoir in the Shunbei area of the Tarim Basin[J].China Petroleum Exploration,2020,25(1):102-111.
[12] 王斌,赵永强,何生,等.塔里木盆地顺北5号断裂带北段奥陶系油气成藏期次及其控制因素[J].石油与天然气地质,2020,41(5):965-974.
WANG Bin,ZHAO Yongqiang,HE Sheng,et al.Hydrocarbon accumulation stages and their controlling factors in the northern Ordovician Shunbei 5 fault zone,Tarim Basin[J].Oil&Gas Geology,2020,41(5):965-974.
[13] 李斌,赵星星,邬光辉,等.塔河南奥陶系多相态油气藏成因及富集模式[J].地球科学,2023,48(2):657-672.
LI Bin,ZHAO Xingxing,WU Guanghui,et al.Study on the origin and accumulation model of ordovician multiphase oil and gas reservoirs in South Tahe Area[J].Earth Science,2023,48(2):657-672.
[14] 杨率,邬光辉,朱永峰,等.塔里木盆地北部地区超深断控油藏关键成藏期[J].石油勘探与开发,2022,49(2):249-261.
YANG Shuai,WU Guanghui,ZHU Yongfeng,et al.Key oil accumulation periods of ultra-deep fault-controlled oil reservoir in northern Tarim Basin,NW China[J].Petroleum Exploration and Development,2022,49(2):249-261.
[15] 王清华,杨海军,张银涛,等.塔里木盆地富满油田富东1井奥陶系重大发现及意义[J].中国石油勘探,2023,28(1):47-58.
WANG Qinghua,YANG Haijun,ZHANG Yintao,et al.Great discovery and its significance in the Ordovician in Well Fudong 1 in Fuman oilfield,Tarim Basin[J].China Petroleum Exploration,2023,28(1):47-58.
[16] 田军,王清华,杨海军,等.塔里木盆地油气勘探历程与启示[J].新疆石油地质,2021,42(3):272-282.
TIAN Jun,WANG Qinghua,YANG Haijun,et al.Petroleum exploration history and enlightenment in Tarim Basin[J].Xinjiang Petroleum Geology,2021,42(3):272-282.
[17] 何登发,贾承造,李德生,等.塔里木多旋回叠合盆地的形成与演化[J].石油与天然气地质,2005,26(1):64-77.
HE Dengfa,JIA Chengzao,LI Desheng,et al.Formation and evolution of polycyclic superimposed Tarim Basin[J].Oil&Gas Geology,2005,26(1):64-77.
[18] 贾承造,魏国齐.塔里木盆地构造特征与含油气性[J].科学通报,2002,47(S1):1-8.
JIA Chengzao,WEI Guoqi.Structural characteristics and petroliferous features of Tarim Basin[J].Chinese Science Bulletin,2002,47(S1):1-11.
[19] 李峰,朱光有,吕修祥,等.塔里木盆地古生界海相油气来源争议与寒武系主力烃源岩的确定[J].石油学报,2021,42(11):1417-1436.
LI Feng,ZHU Guangyou,LÜ Xiuxiang,et al.The disputes on the source of Paleozoic marine oil and gas and the determination of the Cambrian System as the main source rocks in Tarim Basin[J].Acta Petrolei Sinica,2021,42(11):1417-1436.
[20] 朱光有,胡剑风,陈永权,等.塔里木盆地轮探1井下寒武统玉尔吐斯组烃源岩地球化学特征与形成环境[J].地质学报,2022,96(6):2116-2130.
ZHU Guangyou,HU Jianfeng,CHEN Yongquan,et al.Geochemical characteristics and formation environment of source rock of the Lower Cambrian Yuertusi Formation in Well Luntan 1 in Tarim basin[J].Acta Geologica Sinica,2022,96(6):2116-2130.
[21] 闫磊,朱光有,王珊,等.塔里木盆地震旦系-寒武系万米超深层天然气成藏条件与有利区带优选[J].石油学报,2021,42(11):1446-1457.
YAN Lei,ZHU Guangyou,WANG Shan,et al.Accmulation conditions and favorable areas for natural gas accumulation in the 10000 meters ultra-deep Sinian-Cambrian in Tarim Basin[J].Acta Petrolei Sinica,2021,42(11):1446-1457.
[22] 云露,邓尚.塔里木盆地深层走滑断裂差异变形与控储控藏特征——以顺北油气田为例[J].石油学报,2022,43(6):770-787.
YUN Lu,DENG Shang.Structural styles of deep strike-slip faults in Tarim Basin and the characteristics of their control on reservoir formation and hydrocarbon accumulation:a case study of Shunbei oil and gas field[J].Acta Petrolei Sinica,2022,43(6):770-787.
[23] 杨海军,蔡振忠,李勇,等.塔里木盆地富满地区吐木休克组烃源岩有机地球化学特征及其油气勘探意义[J/OL].地质科技通报.(2023-05-30).https://doi.org/10.19509/j.cnki.dzkq.tb20220705.
YANG Haijun,CAI Zhenzhong,LI Yong,et al.Organic geochemical characters of source rock and significance for exploration of the Tumuxiuke Formation in Fuman area,Tarim Basin[J/OL].Bulletin of Geological Science and Technology.(2023-05-30).https://doi.org/10.19509/j.cnki.dzkq.tb20220705.
[24] 冯建伟,郭宏辉,汪如军,等.塔里木盆地塔北地区深层走滑断裂分段性成因机制[J].地球科学,2023,48(7):2506-2519.
FENG Jianwei,GUO Honghui,WANG Rujun,et al.Segmentation genesis mechanism of strike-slip fracture of deep carbonate rocks in Tabei area,Tarim Basin[J].Earth Science,2023,48(7):2506-2519.
[25] 李兵,邓尚,李王鹏,等.塔里木盆地塔河地区走滑断裂体系活动特征与油气地质意义[J].特种油气藏,2019,26(4):45-51.
LI Bing,DENG Shang,LI Wangpeng,et al.Strike-slip fault system activity and hydrocarbon geology understanding in Tahe of Tarim Basin[J].Special Oil and Gas Reservoirs,2019,26(4):45-51.
[26] 赵永强,云露,王斌,等.塔里木盆地塔河油田中西部奥陶系油气成藏主控因素与动态成藏过程[J].石油实验地质,2021,43(5):758-766.
ZHAO Yongqiang,YUN Lu,WANG Bin,et al.Main constrains and dynamic process of Ordovician hydrocarbon accumulation,central and western Tahe oil field,Tarim Basin[J].Petroleum Geology&Experiment,2021,43(5):758-766.
[27] 韩剑发,苏洲,陈利新,等.塔里木盆地台盆区走滑断裂控储控藏作用及勘探潜力[J].石油学报,2019,40(11):1296-1310.
HAN Jianfa,SU Zhou,CHEN Lixin,et al.Reservoir-controlling and accumulation-controlling of strike-slip faults and exploration potential in the platform of Tarim Basin[J].Acta Petrolei Sinica,2019,40(11):1296-1310.
[28] 胡文革.塔里木盆地顺北地区不同断裂带油气充注能力表征研究与实践[J].石油与天然气地质,2022,43(3):528-541.
HU Wenge.Study and practice of characterizing hydrocarbon charging capacity of different fault zones,Shunbei area,Tarim Basin[J].Oil&Gas Geology,2022,43(3):528-541.
[29] 陈家旭,王斌,郭小文,等.应用方解石激光原位U-Pb同位素定年确定多旋回叠合盆地油气成藏绝对时间——以塔里木盆地塔河油田为例[J].石油与天然气地质,2021,6(42):1365-1375.
CHEN Jiaxu,WANG Bin,GUO Xiaowen,et al.Application of laser in-situ U-Pb dating of calcite to determination of the absolute time of hydrocarbon accumulation in polycyclic superimposed basins:a case study on Tahe oilfield,Tarim Basin[J].Oil&Gas Geology,2021,42(6):1365-1375.
[30] 刘恩涛,ZHAO Jianxin,潘松圻,等.盆地流体年代学研究新技术——方解石激光原位U-Pb定年法[J].地球科学,2019,44(3):698-712.
LIU Entao,ZHAO Jianxin,PAN Songqi,et al.A new technology of basin fluid geochronology:in-situ U-Pb dating of calcite[J].Earth Science,2019,44(3):698-712.
[31] PING Hongwei,CHEN Honghan,GEORGE S C,et al.Relationship between the fluorescence color of oil inclusions and thermal maturity in the Dongying depression,Bohai Bay Basin,China:part 1.
Fluorescence evolution of oil in the context of hydrous pyrolysis experiments with increasing maturity[J].Marine and Petroleum Geology,2019,100:1-19.
[32] PING Hongwei,CHEN Honghan,ZHAI Puqiang,et al.Petroleum charge history in the Baiyun depression and Panyu lower uplift in the Pearl River Mouth Basin,northern South China Sea:constraints from integration of organic geochemical and fluid inclusion data[J].AAPG Bulletin,2019,103(6):1401-1442.
[33] 卢焕章,范宏瑞,倪培,等.流体包裹体[M].北京:科学出版社,2004.
LU Huanzhang,FAN Hongrui,NI Pei,et al.Fluid inclusions[M].Beijing:Science Press,2004.
[34] 刘雨晨,邱楠生,常健,等.碳酸盐团簇同位素在沉积盆地热演化中的应用——以塔里木盆地顺托果勒地区为例[J].地球物理学报,2020,63(2):597-611.
LIU Yuchen,QIU Nansheng,CHANG Jian,et al.Application of clumped isotope thermometry to thermal evolution of sedimentary basins:a case study of Shuntuoguole area in Tarim Basin[J].Chinese Journal of Geophysics,2020,63(2):597-611.
[35] 郑见超,李斌,吴海燕,等.基于盆地模拟技术的烃源岩热演化史及油气关系研究——以塔里木盆地玉尔吐斯组为例[J].油气地质与采收率,2018,25(5):39-49.
ZHENG Jianchao,LI Bin,WU Haiyan,et al.Study on the thermal history of the source rock and its relationship with hydrocarbon accumulation based on the basin modeling technology:a case of the Yuertusi Formation of Tarim Basin[J].Petroleum Geology and Recovery Efficiency,2018,25(5):39-49.
[36] 王斌,杨毅,曹自成,等.塔河油田中下奥陶统储层裂缝方解石脉U-Pb同位素年龄及油气地质意义[J].地球科学,2021,46(9):3203-3216.
WANG Bin,YANG Yi,CAO Zicheng,et al.U-Pb dating of calcite veins developed in the Middle-Lower Ordovician reservoirs in Tahe oilfield and its petroleum geologic significance in Tahe oilfield[J].Earth Science,2021,46(9):3203-3216.
[37] 杨毅,王斌,曹自成,等.塔里木盆地顺托果勒低隆起北部中下奥陶统储层方解石脉成因及形成时间[J].地球科学,2021,46(6):2246-2257.
YANG Yi,WANG Bin,CAO Zicheng,et al.Genesis and formation time of calcite veins of Middle-Lower Ordovician reservoirs in northern Shuntuoguole low-uplift,Tarim Basin[J].Earth Science,2021,46(6):2246-2257.
[38] 李慧莉,高键,曹自成,等.塔里木盆地顺托果勒低隆起走滑断裂带流体时空分布及油气成藏意义[J].地学前缘,2023,30(6):316-328.
LI Huili,GAO Jian,CAO Zicheng,et al.Spatial-temporal distribution of fluid activities and its significance for hydrocarbon accumulation in the strike-slip fault zones,Shuntuoguole low-uplift,Tarim Basin[J].Earth Science Frontiers,2023,30(6):316-328.
[39] 徐豪,郭小文,曹自成,等.运用方解石中流体包裹体最小均一温度确定塔河油田奥陶系油气成藏时间:来自激光原位方解石U-Pb年龄的证据[J].地球科学,2021,46(10):3535-3548.
XU Hao,GUO Xiaowen,CAO Zicheng,et al.Application of minimum homogenization temperatures of aqueous inclusions in calcite veins to determine time of hydrocarbon accumulation in Ordovician of Tahe oilfield:evidence from in-situ calcite U-Pb dating by laser ablation[J].Earth Science,2021,46(10):3535-3548.
[40] QIU Nansheng,CHANG Jian,ZHU Chuanqing,et al.Thermal regime of sedimentary basins in the Tarim,Upper Yangtze and North China cratons,China[J].Earth-Science Reviews,2022,224:103884.
[41] 朱光有,李婧菲,张志遥.深层油气相态多样性成因与次生地球化学作用强度评价:以塔里木盆地海相油气为例[J/OL].地球科学,(2021-11-09).http://kns.cnki.net/kcms/detail/42.1874.
P.20211108.1622.004.html.
ZHU Guangyou,LI Jingfei,ZHANG Zhiyao.Origin of deep oil and gas phase state diversity and evaluation of secondary geochemical intensity:a case study of marine oil and gas in Tarim Basin[J/OL].Earth Science.(2021-11-09).http://kns.cnki.net/kcms/detail/42.1874.
P.20211108.1622.004.html.
[42] 赵兴齐,陈践发,石杰,等.塔里木盆地轮南低凸起奥陶系深层天然气地球化学特征及成藏模式.[J].天然气工业,2023,43(9):49-60.
ZHAO Xingqi,CHEN Jianfa,SHI Jie,et al.Geochemical characteristics and accumulation model of Ordovician deep gas in Lunnan low uplift of the Tarim Basin[J].Natural Gas Industry,2023,43(9):49-60.
[43] 李斌,姜潇俊,赵星星,等.塔里木盆地台盆过渡带多相态油气藏成因及差异富集模式——以玉科地区奥陶系为例[J].石油学报,2023,44(5):794-808.
LI Bin,JIANG Xiaojun,ZHAO Xingxing,et al.Genesis and differential enrichment model of multiphase reservoirs in platform-basin transitional zone of Tarim Basin:a case study of the Ordovician in Yuke area[J].Acta Petrolei Sinica,2023,44(5):794-808.
[44] 赵星星,李斌,邬光辉,等.塔里木盆地塔中Ⅲ区奥陶系多相态油气藏成因及富集模式[J].天然气地球科学,2022,33(1):36-48.
Zhao Xingxing,LI Bin,WU Guanghui,et al.Genesis and enrichment model of Ordovician multi-phase oil and gas reservoirs in Tazhong Ⅲ block,Tarim Basin[J].Natural Gas Geoscience,2022,33(1):36-48.

编辑推荐 0

Metrics

阅读次数

全文

870

HTML			PDF

最新录用	在线预览	正式出版	最新录用	在线预览	正式出版
0	0	0	0	0	870

来源	本网站	其他网站

次数	621	249
比例	71%	29%

摘要

557

最新录用	在线预览	正式出版

0	0	557

	来源	本网站

	次数	557
	比例	100%

塔里木盆地富满油田深层—超深层油气成藏过程

Hydrocarbon accumulation process of the deep to ultra deep reservoirs in Fuman oilfield,Tarim Basin

PDF

可视化

摘要/Abstract

引用本文

使用本文

参考文献

相关文章 15

编辑推荐 0

Metrics

本文评价

[1]	鲁雪松, 桂丽黎, 汪泽成, 柳少波, 刘强, 范俊佳, 陈玮岩, 马行陟, 姜华, 付小东, 李文正, 钟源, 李堃宇, 谢武仁. 四川盆地中部走滑断裂活动时间与控藏作用——来自断裂带胶结物U-Pb定年和流体包裹体的证据[J]. 石油学报, 2024, 45(4): 642-658.
[2]	何文渊, 黄先雄, 王红平, 汪望泉, 范国章, 丁梁波, 赵俊峰, 朱晓辉, 张勇刚, 庞旭, 李伟强, 左国平, 杨柳, 王朝锋. 南美桑托斯盆地深水区古拉绍-1井油气勘探发现及意义[J]. 石油学报, 2024, 45(2): 339-347.
[3]	王清华, 徐振平, 张荣虎, 杨海军, 杨宪彰. 塔里木盆地油气勘探新领域、新类型及资源潜力[J]. 石油学报, 2024, 45(1): 15-32.
[4]	刘岩生, 张佳伟, 黄洪春. 中国深层—超深层钻完井关键技术及发展方向[J]. 石油学报, 2024, 45(1): 312-324.
[5]	刘可禹, 刘建良. 盆地沉积充填演化与含油气系统耦合模拟方法在超深层油气成藏模拟中的应用——以四川盆地中部震旦系灯影组为例[J]. 石油学报, 2023, 44(9): 1445-1458.
[6]	郭秋麟, 黄少英, 卢玉红, 王建, 吴晓智, 陈宁生. 塔里木盆地台盆区下古生界油气系统模拟及资源分布预测[J]. 石油学报, 2023, 44(9): 1459-1471.
[7]	陈利新, 贾承造, 姜振学, 苏洲, 杨美纯, 杨博, 邱晨. 塔里木盆地哈拉哈塘地区碳酸盐岩富油模式与主控因素[J]. 石油学报, 2023, 44(6): 948-961.
[8]	孔悦, 高晓鹏, 石开波, 刘波, 姜伟民, 于进鑫, 何卿, 吴淳. 塔北地区奥陶系鹰山组斑状白云岩成因及储层意义[J]. 石油学报, 2023, 44(4): 598-611.
[9]	申威, 唐军, 信毅, 曹磊, 陈文迪, 唐保勇, 何泽, 齐戈为. 塔里木盆地北部潜山岩溶相带定量表征与储层评价[J]. 石油学报, 2023, 44(3): 471-484.
[10]	魏国齐, 贾承造, 杨威. 安岳—奉节地区上震旦统—下寒武统陆架镶边台地地质特征及其对大气田(区)形成的控制作用[J]. 石油学报, 2023, 44(2): 223-240.
[11]	余义常, 郭睿, 林敏捷, 沈毅, 沈博珩, 朱光亚, 李峰峰, 王一帆, 颜元. 中东地区碳酸盐岩储层孔喉结构特征及开发对策 ——以伊拉克X油田M组为例[J]. 石油学报, 2023, 44(2): 369-384.
[12]	刘惠民, 高阳, 秦峰, 杨怀宇. 渤海湾盆地济阳坳陷油气勘探新领域、新类型及资源潜力[J]. 石油学报, 2023, 44(12): 2141-2159.
[13]	曹宏, 常德双, 胡少华, 朱亚东, 王永明, 李鹏. 中国深层油气勘探地球物理技术与展望[J]. 石油学报, 2023, 44(12): 2250-2269.
[14]	熊连桥, 谢晓军, 邓有根, 唐武, 张春宇, 白海强, 刘子玉, 廖计华. 坎波斯盆地南部下白垩统硅化碳酸盐岩储层成因及演化[J]. 石油学报, 2023, 44(10): 1612-1623,1649.
[15]	何东博, 闫海军, 杨长城, 位云生, 张连进, 郭建林, 罗文军, 刘曦翔, 胡碟, 夏钦禹, 朱汉卿, 张岩. 安岳气田灯影组四段气藏特征及开发技术对策[J]. 石油学报, 2022, 43(7): 977-988.