松辽盆地齐家—古龙凹陷青山口组压力场特征和超压成因

doi:10.7623/syxb202412007

石油学报 ›› 2024, Vol. 45 ›› Issue (12): 1800-1817.DOI: 10.7623/syxb202412007

松辽盆地齐家—古龙凹陷青山口组压力场特征和超压成因

黄越^1,2, 常健^1,2, 邱楠生^1,2, 林铁锋^3,4, 付秀丽^3,4, 唐博宁^1,2, 李军辉^3,4

1. 油气资源与工程全国重点实验室, 中国石油大学(北京) 北京 102249;
2. 中国石油大学(北京)地球科学学院北京 102249;
3. 大庆油田有限责任公司勘探开发研究院黑龙江大庆 163712;
4. 黑龙江省陆相页岩油重点实验室黑龙江大庆 163712

收稿日期:2024-03-31 修回日期:2024-10-13 出版日期:2024-11-25 发布日期:2025-01-03
通讯作者: 常健,男,1982年12月生,2013年获中国石油大学(北京)地质学专业博士学位,现为中国石油大学(北京)地球科学学院教授、博士生导师,主要从事沉积盆地温压场和成藏年代学方面的研究。Email:changjian@cup.edu.cn
作者简介:黄越,男,1994年1月生,2021年获中国石油大学(北京)地质资源与地质工程专业硕士学位,现为中国石油大学(北京)地球科学学院博士研究生,主要从事沉积盆地压力场研究。Email:huangyue115@126.com
基金资助:
黑龙江省"揭榜挂帅"科技攻关项目(DQYT-2022-JS-756)和国家重点研发计划项目(2021YFA0716003)资助。

Pressure field characteristics and overpressure geneses of Q ingshankou Formation in Q ijia-Gulong sag,Songliao Basin

Huang Yue^1,2, Chang Jian^1,2, Qiu Nansheng^1,2, Lin Tiefeng^3,4, Fu Xiuli^3,4, Tang Boning^1,2, Li Junhui^3,4

1. State Key Laboratory of Petroleum Resources and Engineering, China University of Petroleum(Beijing), Beijing 102249, China;
2. College of Geosciences, China University of Petroleum(Beijing), Beijing 102249, China;
3. Exploration and Development Research Institute, Daqing Oilfield Limited Company, Heilongjiang Daqing 163712, China;
4. Heilongjiang Provincial Key Laboratory of Continental Shale Oil, Heilongjiang Daqing 163712, China

Received:2024-03-31 Revised:2024-10-13 Online:2024-11-25 Published:2025-01-03

摘要/Abstract

摘要： 松辽盆地北部齐家—古龙凹陷白垩系青山口组油气的产出与地层超压的发育密切相关,但地层压力分布规律和超压成因尚未开展系统研究。基于实测地层压力和利用泥浆密度数据预测的地层压力分析了齐家—古龙凹陷青山口组各段现今的地层压力分布特征,通过地质-测井响应特征分析了地层超压的成因与差异以及超压保存的控制因素,探讨了页岩地层超压与油气成藏的关系。研究结果表明:古龙凹陷、齐家凹陷南部和北部的青山口组在纵向上分别存在弱超压—强超压、常压—弱超压—强超压和常压—弱超压的压力封存箱结构;其对应结构的最大地层压力系数在青山口组一段分别为1.82、1.66和1.38,在青山口组二段＋三段分别为1.79、1.54和1.34。不同区域青山口组超压的成因存在明显差异,古龙凹陷的超压主要由生烃增压作用形成;齐家凹陷南部的超压成因以不均衡压实作用、生烃增压作用和超压传递作用为主;而齐家凹陷北部的超压主要由不均衡压实作用产生。齐家—古龙凹陷由南向北生烃膨胀作用对地层超压的贡献率由97%逐渐降低至3%,生烃膨胀作用导致的"弱超压—强超压"压力封存箱结构是古龙页岩油高产层的标志。青山口组底部断裂的疏密程度对现今地层超压的重新分配影响有限,泥页岩层中的低砂泥比、断层稳定性和页理缝发育为页岩油的滞留提供了良好的保存条件。研究区南、北超压的差异分布与其轻质油带、稀油带及常规黑油带的成藏高度匹配,凸显了判识泥页岩超压成因的重要性。齐家—古龙凹陷青山口组超压的分布及其成因的明确为致密油、页岩油资源预测和成藏机理研究提供了理论依据。

关键词: 超压分布, 超压成因, 生烃增压, 古龙页岩, 青山口组, 齐家—古龙凹陷, 松辽盆地

Abstract: Oil and gas production from Qingshankou Formation in Qijia-Gulong sag of Songliao Basin is closely related to formation overpressure. However, there is a lack of asystematic study for the distribution pattern and genesis of overpressure. Based on the measured formation pressure and that predicted from mud density data, this paper analyzes the pressure distribution characteristics across all the sections of Qingshankou Formation in Qijia-Gulong sag. Based on geological-geophysical log response characteristics, an analysis has been performed on the genesis of overpressure and the factors influencing overpressure preservation, followed by exploring the correlation between overpressure formation and oil accumulation in shale reservoirs. The research results show that Qingshankou Formation in Gulong sag, southern and northern Qijia sag exhibits distinct vertical pressure compartment structures of weak-strong overpressure, normal-weak-strong overpressure, and normal-weak overpressure. The maximum formation pressure coefficients of corresponding structure in the Member 1 of Qingshankou Formation are 1.82, 1.66, and 1.38, while those in the Member 2 and 3 of Qingshankou Formation are 1.79, 1.54, and 1.34, respectively. Different regions show significant differences in overpressure genesis. In Gulong sag, overpressure is as a result of pressurization from hydrocarbon generation. In the southern Qijia sag, overpressure is primarily caused by disequilibrium compaction, pressurization from hydrocarbon generation, and overpressure transfer. In the northern Qijia sag, overpressure is mainly generated from disequilibrium compaction. Further, it is found that the contribution rate of hydrocarbon generation-induced expansion to overpressure in Qijia-Gulong sag from south to north decreases from 97 % to 3 % . Furthermore, the weak-strong overpressure compartment structure formed due to hydrocarbon generation-induced expansion is a mark of high-yield oil layers in Gulong shale. The density of faults at the base of Qingshankou Formation have a limited impact on redistribution of the current formation overpressure. Moreover, low sandstone-to-mudstone ratio, fault stability, as well as development of laminar fractures in the mudstone layers provide good preservation conditions for shale oil retention. The north-south differences in overpressure distribution are highly correlated with the hydrocarbon accumulation of light oil, thin oil and black oil zones, highlighting the importance of understanding the genesis of overpressure in shale. To clarify the distribution and genesis of overpressure in Qingshankou Formation can provide a theoretical support for the prediction of tight oil and shale oil resources and the research of accumulation mechanisms.

Key words: overpressure distribution, overpressure genesis, hydrocarbon generation overpressure, Gulong shale, Qingshankou Formation, Qijia-Gulong sag, Songliao Basin

中图分类号:

TE122.3

黄越, 常健, 邱楠生, 林铁锋, 付秀丽, 唐博宁, 李军辉. 松辽盆地齐家—古龙凹陷青山口组压力场特征和超压成因[J]. 石油学报, 2024, 45(12): 1800-1817.

Huang Yue, Chang Jian, Qiu Nansheng, Lin Tiefeng, Fu Xiuli, Tang Boning, Li Junhui. Pressure field characteristics and overpressure geneses of Q ingshankou Formation in Q ijia-Gulong sag,Songliao Basin[J]. Acta Petrolei Sinica, 2024, 45(12): 1800-1817.

参考文献

[1] 施立志,王卓卓,张革,等. 松辽盆地齐家地区致密油形成条件与分布规律[J].石油勘探与开发,2015,42(1):44-50.
SHI Lizhi,WANG Zhuozhuo,ZHANG Ge,et al.Distribution and formation of tight oil in Qijia area,Songliao Basin,NE China[J].Petroleum Exploration and Development,2015,42(1):44-50.
[2] 何文渊,蒙启安,张金友.松辽盆地古龙页岩油富集主控因素及分类评价[J].大庆石油地质与开发,2021,40(5):1-12.
HE Wenyuan,MENG Qi’an,ZHANG Jinyou.Controlling factors and their classification-evaluation of Gulong shale oil enrichment in Songliao Basin[J].Petroleum Geology & Oilfield Development in Daqing,2021,40(5):1-12.
[3] 张赫,王小军,贾承造,等.松辽盆地北部中浅层全油气系统特征与油气成藏聚集模式[J].石油勘探与开发,2023,50(4):683-694.
ZHANG He,WANG Xiaojun,JIA Chengzao,et al.Total petroleum system and hydrocarbon accumulation model in shallow and medium strata in northern Songliao Basin,NE China[J].Petroleum Exploration and Development,2023,50(4):683-694.
[4] 王文文,卢双舫,陈方文.王府凹陷青山口组地层超压及油气运移深度研究[J].科学技术与工程,2012,12(30):7859-7863.
WANG Wenwen,LU Shuangfang,CHEN Fangwen.Research on overpressure in Qingshankou Formation of Wangfu depression and the depth of hydrocarbon migration[J].Science Technology and Engineering,2012,12(30):7859-7863.
[5] 吴伟涛,赵靖舟,蒙启安,等.松辽盆地齐家地区高台子油层致密砂岩油成藏机理[J].石油与天然气地质,2021,42(6):1376-1388.
WU Weitao,ZHAO Jingzhou,MENG Qi’an,et al.Accumulation mechanism of tight sandstone oil in Gaotaizi reservoir in Qijia area,Songliao Basin[J].Oil & Gas Geology,2021,42(6):1376-1388.
[6] 向才富,冯志强,吴河勇,等.松辽盆地异常压力系统及其形成原因探讨[J].地质学报,2006,80(11):1752-1759.
XIANG Caifu,FENG Zhiqiang,WU Heyong,et al.Three abnormal pressure systems developed in the Songliao Basin,northeast China and their genesis[J].Acta Geologica Sinica,2006,80(11):1752-1759.
[7] 雷振宇,解习农,孟元林,等.松辽盆地齐家古龙-三肇凹陷超压对成岩作用的影响[J].地球科学(中国地质大学学报),2012,37(4): 833-842.
LEI Zhenyu,XIE Xinong,MENG Yuanlin,et al.Effecting of overpressures on diagensis in the Qijiagulong-Sanzhao depression of Songliao Basin[J].Earth Science (Journal of China University of Geosciences),2012,37(4):833-842.
[8] 刘阿男.松辽盆地北部泥岩超压的形成与演化史研究[D].大庆:大庆石油学院,2009.
LIU A’nan.Research on formation and evolution of mudstone overpressure in the north of Songliao Basin[D].Daqing:Daqing Petroleum Institute,2009.
[9] 姜龙,张秀云,马晓红.松辽盆地北部青一段泥岩超压及意义[J].大庆石油地质与开发,2013,32(3):25-28.
JIANG Long,ZHANG Xiuyun,MA Xiaohong.K1QN1 mudstone overpressure in north Songliao Basin and it’s significance[J].Petroleum Geology and Oilfield Development in Daqing,2013,32(3):25-28.
[10] 任丽华,代俊杰,林承焰,等.松辽盆地扶新隆起带南部青山口组超压特征及油气地质意义[J].天然气地球科学,2017,28(7):1020-1030.
REN Lihua,DAI Junjie,LIN Chengyan,et al.Characteristics of overpressure and its geological significance for hydrocarbon of Qingshankou Formation in southern Fuxin uplift,Songliao Basin[J].Natural Gas Geoscience,2017,28(7):1020-1030.
[11] 王永卓,王瑞,代旭,等.松辽盆地古龙页岩油水平井箱体开发设计方法[J].大庆石油地质与开发,2021,40(5):157-169.
WANG Yongzhuo,WANG Rui,DAI Xu,et al.Compartment development design method of horizontal well for Gulong shale oil in Songliao Basin[J].Petroleum Geology & Oilfield Development in Daqing,2021,40(5):157-169.
[12] 申家年,丛永山,毛立全,等.松辽盆地古龙凹陷葡萄花油层超压成因[J].地质科学,2009,44(2):502-512.
SHEN Jianian,CONG Yongshan,MAO Liquan,et al.Mechanism of Putaohua oil layer’s overpressure the Gulong sag,Songliao Basin[J].Chinese Journal of Geology,2009,44(2):502-512.
[13] 赵靖舟,李军,徐泽阳.沉积盆地超压成因研究进展[J].石油学报,2017,38(9):973-998.
ZHAO Jingzhou,LI Jun,XU Zeyang.Advances in the origin of overpressures in sedimentary basins[J].Acta Petrolei Sinica,2017,38(9):973-998.
[14] 徐泽阳,赵靖舟,李军.松辽盆地长垣地区白垩系青山口组一段有机质含量对超压分析的影响及校正方法[J].石油与天然气地质,2019,40(4):938-946.
XU Zeyang,ZHAO Jingzhou,LI Jun.The impact of organic matter content on overpressure analysis and its correction method in the first Member of Cretaceous Qingshankou Formation,Placanticline area,Songliao Basin[J].Oil & Gas Geology,2019,40(4):938-946.
[15] TINGAY M R P,MORLEY C K,LAIRD A,et al.Evidence for overpressure generation by kerogen-to-gas maturation in the northern Malay Basin[J].AAPG Bulletin,2013,97(4):639-672.
[16] 侯志强,张书平,李军,等.西湖凹陷中部西斜坡地区超压成因机制[J].石油学报,2019,40(9):1059-1068.
HOU Zhiqiang,ZHANG Shuping,LI Jun,et al.Genetic mechanism of overpressures in the west slope of central Xihu sag[J].Acta Petrolei Sinica,2019,40(9):1059-1068.
[17] LI Jun,ZHAO Jingzhou,HOU Zhiqiang,et al.Origins of overpressure in the central Xihu depression of the East China Sea shelf basin[J].AAPG Bulletin,2021,105(8):1627-1659.
[18] 张向涛,李军,向绪洪,等.珠江口盆地深水区白云凹陷超压成因机制及其勘探意义[J].石油学报,2022,43(1):41-57.
ZHANG Xiangtao,LI Jun,XIANG Xuhong,et al.Genetic mechanism of overpressure and its significance on petroleum exploration in Baiyun sag in the deep water zone of Pearl River Mouth Basin[J].Acta Petrolei Sinica,2022,43(1):41-57.
[19] KATZ B,LIN Fang.Lacustrine basin unconventional resource plays:key differences[J].Marine & Petroleum Geology,2014,56:255-265.
[20] 孙龙德.古龙页岩油(代序)[J].大庆石油地质与开发,2020,39(3): 1-7.
SUN Longde.Gulong shale oil(preface)[J].Petroleum Geology & Oilfield Development in Daqing,2020,39(3):1-7.
[21] 何文渊,柳波,张金友,等.松辽盆地古龙页岩油地质特征及关键科学问题探索[J].地球科学,2023,48(1):49-62.
HE Wenyuan,LIU Bo,ZHANG Jinyou,et al.Geological characteristics and key scientific and technological problems of Gulong shale oil in Songliao Basin[J].Earth Science,2023,48(1):49-62.
[22] 金之钧,王冠平,刘光祥,等.中国陆相页岩油研究进展与关键科学问题[J].石油学报,2021,42(7):821-835.
JIN Zhijun,WANG Guanping,LIU Guangxiang,et al.Research progress and key scientific issues of continental shale oil in China[J].Acta Petrolei Sinica,2021,42(7):821-835.
[23] 陈方文,卢双舫,丁雪.松辽盆地齐家—古龙凹陷中浅层烃源岩生烃量评价[J].沉积学报,2014,32(6):1181-1187.
CHEN Fangwen,LU Shuangfang,DING Xue.Evaluation on hydrocarbon-generation amount of middle-shallow source rocks of Qijia-Gulong depression in Songliao Basin[J].Acta Sedimentologica Sinica,2014,32(6):1181-1187.
[24] 冯子辉,方伟,李振广,等.松辽盆地陆相大规模优质烃源岩沉积环境的地球化学标志[J].中国科学:地球科学,2011,41(9):1253-1267.
FENG Zihui,FANG Wei,LI Zhenguang,et al.Depositional environment of terrestrial petroleum source rocks and geochemical indicators in the Songliao Basin[J].Science China Earth Sciences,2011,54(9):1304-1317.
[25] 陈彬滔,潘树新,方乐华,等.松辽盆地齐家—古龙凹陷青山口组泥页岩层段储层特征[J].天然气地球科学,2016,27(2):298-308.
CHEN Bintao,PAN Shuxin,FANG Lehua,et al.Reservoir characteristics of mudstone (shale)interval in the Qingshankou Formation,Qijia-Gulong sag,Songliao Basin,Northeast China[J].Natural Gas Geoscience,2016,27(2):298-308.
[26] 邵曌一,吴河勇,梁晓东,等.松辽盆地中浅层幕式排烃与断距增长耦合[J].地球科学,2019,44(2):551-558.
SHAO Zhaoyi,WU Heyong,LIANG Xiaodong,et al.Coupling characteristics between episodic hydrocarbon expulsion and fault throw increase for middle-shallow formations in Songliao Basin[J].Earth Science,2019,44(2):551-558.
[27] EATON B A.The equation for geopressure prediction from well logs[R].SPE 5544,1975.
[28] 杨振平,吴波,王勇.Eaton法预测M油田地层孔隙压力[J].石油天然气学报,2012,34(9):181-182.
YANG Zhenping,WU Bo,WANG Yong.Application of Eaton method in predicting the formation pore pressure of M oilfield[J].Journal of Oil and Gas Technology,2012,34(9):181-182.
[29] 李伟,喻梓靓,王雪柯,等.中国含油气盆地深层、超深层超压盖层成因及其与超大型气田的关系[J].天然气工业,2020,40(2):11-21.
LI Wei,YU Ziliang,WANG Xueke,et al.Formation mechanisms of deep and ultra-deep overpressure cap rocks and their relationships with super large gas fields in the petroliferous basins of China[J].Natural Gas Industry,2020,40(2):11-21.
[30] 鲁雪松,赵孟军,张凤奇,等.准噶尔盆地南缘前陆冲断带超压发育特征、成因及其控藏作用[J].石油勘探与开发,2022,49(5):859-870.
LU Xuesong,ZHAO Mengjun,ZHANG Fengqi,et al.Characteristics,origin and controlling effects on hydrocarbon accumulation of overpressure in foreland thrust belt of southern margin of Junggar Basin,NW China[J].Petroleum Exploration and Development,2022,49(5):859-870.
[31] BOWERS G L.Pore pressure estimation from velocity data:accounting for overpressure mechanisms besides undercompaction[J].SPE Drilling & Completion,1995,10(2):89-95.
[32] BOWERS G L.Determining an appropriate pore-pressure estimation strategy [C]//Offshore Technology Conference.Houston: OTC,2001:1-14.
[33] LI Jun,ZHOU Jingzhou,WEI Xinshan,et al.Origin of abnormal pressure in the Upper Paleozoic shale of the Ordos Basin,China[J].Marine and Petroleum Geology,2019,110:162-177.
[34] LI Chao,LUO Xiaorong,ZHANG Likuan,et al.Overpressure generation mechanisms and its distribution in the Paleocene Shahejie Formation in the Linnan sag,Huimin depression,Eastern China[J].Energies,2019,12(16):3183.
[35] 张凤奇,王震亮,钟红利,等.沉积盆地主要超压成因机制识别模式及贡献[J].天然气地球科学,2013,24(6):1151-1158.
ZHANG Fengqi,WANG Zhenliang,ZHONG Hongli,et al.Recognition model and contribution evaluation of main overpressure formation mechanisms in sedimentary basins[J].Natural Gas Geoscience,2013,24(6):1151-1158.
[36] 王盼,刘挺,唐峰.基于Gardner公式的岩石密度优化算法[J].录井工程,2016,27(4):12-15.
WANG Pan,LIU Ting,TANG Feng.Rock density optimization algorithm based on Gardner formula[J].Mud Logging Engineering,2016,27(4):12-15.
[37] 刘桃,刘景东.欠压实与流体膨胀成因超压的定量评价[J].石油学报,2018,39(9):971-979.
LIU Tao,LIU Jingdong.Quantitative evaluation on overpressure generated from undercompaction and fluid expansion[J].Acta Petrolei Sinica,2018,39(9):971-979.
[38] BURST J F.Diagenesis of gulf coast clayey sediments and its possible relation to petroleum migration[J].AAPG Bulletin,1969,53(1):73-93.
[39] 安天下.松辽盆地梨树断陷白垩系营城组—沙河子组超压特征及其对成岩作用的影响[J].东北石油大学学报,2020,44(1):65-76.
AN Tianxia.Characteristics of overpressure in Cretaceous Yingcheng-Shahezi Formation and its effect on diagenesis in Lishu fault sag,Songliao Basin[J].Journal of Northeast Petroleum University,2020,44(1):65-76.
[40] 蒋有录,王鑫,于倩倩,等.渤海湾盆地含油气凹陷压力场特征及与油气富集关系[J].石油学报,2016,37(11):1361-1369.
JIANG Youlu,WANG Xin,YU Qianqian,et al.Pressure field characteristics of petroliferous depressions and its relationship with hydrocarbon enrichment in Bohai Bay Basin[J].Acta Petrolei Sinica,2016,37(11):1361-1369.
[41] GAO Yuan,IBARRA D E,RUGENSTEIN J K C,et al.Terrestrial climate in mid-latitude East Asia from the latest Cretaceous to the earliest Paleogene:a multiproxy record from the Songliao Basin in northeastern China[J].Earth-Science Reviews,2021,216:103572.
[42] 舒良树,慕玉福,王伯长.松辽盆地含油气地层及其构造特征[J].地层学杂志,2003,27(4):340-347.
SHU Liangshu,MU Yufu,WANG Baichang.The oil-gas-bearing strata and the structural features in the Songliao Basin,NE China[J].Journal of Stratigraphy,2003,27(4):340-347.
[43] 马卫,李剑,王东良,等.烃源岩排烃效率及其影响因素[J].天然气地球科学,2016,27(9):1742-1751.
Ma Wei,LI Jian,WANG Dongliang,et al.Hydrocarbon expulsion efficiency of source rocks and its influencing factors[J].Natural Gas Geoscience,2016,27(9):1742-1751.
[44] 王玉华,梁江平,张金友,等.松辽盆地古龙页岩油资源潜力及勘探方向[J].大庆石油地质与开发,2020,39(3):20-24.
WANG Yuhua,LIANG Jiangping,ZHANG Jinyou,et al.Resource potential and exploration direction of Gulong shale oil in Songliao Basin[J].Petroleum Geology & Oilfield Development in Daqing,2020,39(3):20-24.
[45] 卢双舫,许凤鸣,申家年,等.松辽盆地齐家—古龙凹陷凝析油气藏成因[J].地球科学(中国地质大学学报),2007,32(2):209-212.
LU Shuangfang,XU Fengming,SHEN Jianian,et al.Origin of condensate oil/gas reservoir:a case study in Qijia-Gulong depression of Songliao Basin[J].Earth Science (Journal of China University of Geosciences),2007,32(2):209-212.
[46] 唐博宁,邱楠生,朱传庆,等.松辽盆地岩石热导率柱及古地温场分布特征[J].煤田地质与勘探,2024,52(1):26-35.
TANG Boning,QIU Nansheng,ZHU Chuanqing,et al.Thermal conductivity column of rocks and distribution characteristics of paleo-geothermal field in Songliao Basin[J].Coal Geology & Exploration,2024,52(1):26-35.
[47] 王跃文,陈百军,陈均亮,等.松辽盆地古龙页岩油层顶底板断层封闭性及油气聚集有利区优选[J].大庆石油地质与开发,2022,41(3):53-67.
WANG Yuewen,CHEN Baijun,CHEN Junliang,et al.Roof and floor faults seal of Gulong shale oil reservoir in Songliao Basin and optimization of favorable areas for oil and gas accumulation[J].Petroleum Geology & Oilfield Development in Daqing,2022,41(3):53-67.
[48] 丁文龙,张博闻,李泰明.古龙凹陷泥岩非构造裂缝的形成[J].石油与天然气地质,2003,24(1):50-54.
DING Wenlong,ZHANG Bowen,LI Taiming.Formation of non-tectonic fractures in mudstones in Gulong depression[J].Oil & Gas Geology,2003,24(1):50-54.
[49] 李霞,周灿灿,赵杰,等.泥页岩油藏测井评价新方法——以松辽盆地古龙凹陷青山口组为例[J].中国石油勘探,2014,19(3):57-65.
LI Xia,ZHOU Cancan,ZHAO Jie,et al.New logging evaluation method for shale reservoirs:taking Qingshankou Formation in Gulong sag of Songliao Basin for instance[J].China Petroleum Exploration,2014,19(3):57-65.
[50] 张磊.齐家—古龙凹陷高台子油层致密储层成岩特征及有利勘探区预测[D].大庆:东北石油大学,2019.
ZHANG Lei.Diagenetic characteristics of the tight reservoir and the favorable exploration area forecast of Gaotazi tight oil layer in Qijia-Gulong sag[D].Daqing:Northeast Petroleum University,2019.
[51] 张婧雅.松辽盆地齐家地区高台子致密储层成藏有效性研究[D].北京:中国石油大学,2020.
ZHANG Jingya.Research on effectiveness of oil accumulation in Gaotaizi tight sandstone reservoir in Qijia area,Songliao Basin[D].Beijing:China University of Petroleum,2020.
[52] 蒙启安,白雪峰,张文婧,等.松辽盆地北部西部斜坡石油成藏特征与勘探实践[J].石油勘探与开发,2020,47(2):236-246.
MENG Qi’an,BAI Xuefeng,ZHANG Wenjing,et al.Accumulation and exploration of petroleum reservoirs in west slope of northern Songliao Basin,China[J].Petroleum Exploration and Development,2020,47(2):236-246.
[53] 巨世昌.松辽盆地齐家地区高台子油层致密油成藏动力研究[D].西安:西安石油大学,2015.
JU Shichang.Tioght oil reservoir forming-dynamic of Gaotaizi oil layern Qijia area,the Songliao Basin[D].Xi’an:Xi’an Shiyou University,2015.
[54] 张水昌,张斌,王晓梅,等.松辽盆地古龙页岩油富集机制与常规——非常规油有序分布[J].石油勘探与开发,2023,50(5):911-923.
ZHANG Shuichang,ZHANG Bin,WANG Xiaomei,et al.Gulong shale oil enrichment mechanism and orderly distribution of conventional-unconventional oils in the Cretaceous Qingshankou Formation,Songliao Basin,NE China[J].Petroleum Exploration and Development,2023,50(5):911-923.
[55] 赵文智,卞从胜,李永新,等.陆相页岩油可动烃富集因素与古龙页岩油勘探潜力评价[J].石油勘探与开发,2023,50(3):455-467.
ZHAO Wenzhi,BIAN Congsheng,LI Yongxin,et al.Enrichment factors of movable hydrocarbons in lacustrine shale oil and exploration potential of shale oil in Gulong sag,Songliao Basin,NE China[J].Petroleum Exploration and Development,2023,50(3):455-467.
[56] 蒙启安,林铁锋,张金友,等.页岩油原位成藏过程及油藏特征——以松辽盆地古龙页岩油为例[J].大庆石油地质与开发,2022,41(3):24-37.
MENG Qi'an,LIN Tiefeng,ZHANG Jinyou,et al.In-situ accumulation process and reservoir characteristics of shale oil:a case study of Gulong shale oil in Songliao Basin[J].Petroleum Geology & Oilfield Development in Daqing,2022,41(3):24-37.
[57] 贾承造,庞雄奇,宋岩.论非常规油气成藏机理:油气自封闭作用与分子间作用力[J].石油勘探与开发,2021,48(3):437-452.
JIA Chengzao,PANG Xiongqi,SONG Yan.The mechanism of unconventional hydrocarbon formation:hydrocarbon self-containment and intermolecular forces[J].Petroleum Exploration and Development,2021,48(3):437-452.
[58] 李奎周,陈树民,赵海波,等.松辽盆地青山口组泥页岩孔隙压力预测方法及其应用[J].大庆石油地质与开发,2018,37(6):7-12.
LI Kuizhou,CHEN Shumin,ZHAO Haibo,et al.Predicting method of the pore pressure in Qingshankou-Formation mud shale of Songliao Basin and its application[J].Petroleum Geology & Oilfield Development in Daqing,2018,37(6):7-12.
[59] 付晓飞,石海东,蒙启安,等.构造和沉积对页岩油富集的控制作用——以松辽盆地中央坳陷区青一段为例[J].大庆石油地质与开发,2020,39(3):56-71.
FU Xiaofei,SHI Haidong,MENG Qi’an,et al.Controlling effects of the structure and deposition on the shale oil enrichment:taking Formation Qn₁ in the central depression of Songliao Basin as an instance[J].Petroleum Geology & Oilfield Development in Daqing,2020,39(3):56-71.
[60] 包友书.济阳坳陷超压和应力场对页岩油富集的影响[J].断块油气田2018,25(5):585-588.
BAO Youshu.Influence of overpressure and stress on shale oil enrichment in Jiyang depression[J].Fault-Block Oil & Gas Field,2018,25(5):585-588.
[61] 胡素云,赵文智,候连华,等.中国陆相页岩油发展潜力与技术对策[J].石油勘探与开发,2020,47(4):819-828.
HU Suyun,ZHAO Wenzhi,HOU Lianhua,et al.Development potential and technical strategy of continental shale oil in China[J].Petroleum Exploration and Development,2020,47(4):819-828.
[62] 郑民,李建忠,王文广,等.致密储层石油充注成藏过程分析:以准噶尔盆地吉木萨尔凹陷二叠系芦草沟组为例[J].地球科学,2018,43(10):3719-3732.
ZHENG Min,LI Jianzhong,WANG Wenguang,et al.Analysis of oil charging and accumulation processes in tight reservoir beds:a case study of Lucaogu Formation in Jimsar sag of Junggar Basin,NW China[J].Earth Science,2018,43(10):3719-3732.

松辽盆地齐家—古龙凹陷青山口组压力场特征和超压成因

Pressure field characteristics and overpressure geneses of Q ingshankou Formation in Q ijia-Gulong sag,Songliao Basin

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