Journal of Jilin University(Earth Science Edition) ›› 2019, Vol. 49 ›› Issue (2): 294-309.doi: 10.13278/j.cnki.jjuese.20170274

Previous Articles     Next Articles

Generation of High Quality Near Source Glutenite Reservoir of 2nd Member of Shahejie Formation in Lüda-29 Structure, Liaodong Sag, Bohai Bay Basin

Li Huan, Wang Qingbin, Pang Xiaojun, Feng Chong, Liu Xiaojian   

  1. Research Institute of Bohai Oil Field, CNOOC Tianjin Branch Company, Tianjin 300459, China
  • Received:2017-09-25 Online:2019-03-26 Published:2019-03-28
  • Supported by:
    Supported by National Science and Technology Major Project of China During the "13th Five-Year" Plan Period(2016ZX05024-003)

Abstract: The research on diagenetic evolution and generation of high quality reservoir is of great significance to medium-deep oil & gas exploration. A comprehensive analysis on casting thin section, scanning electron microscope, mud X-ray diffraction (XRD) (clay and total rock), inclusion, conventional logging, nuclear magnetic resonance (NMR) logging and burial history was conducted to find out diagenetic evolution, fracture features and function, generation of high quality reservoir and controlling factors of glutenite in the study area. The results indicated that:1) The generation of high quality reservoir was mainly due to regional dissolution and non-structural fracture development with low compaction, weak cementation and enhanced porosity. 2) Protogenetic and diagenetic fractures are developed in glutenite reservoir. Protogenetic fractures are important storage space, and fractures can improve pore structure and properties of reservoir significantly. 3) The source-sink process controlled the formation of protogenetic fractures. The shrinkage fractures were generated during uplift, which was promoted by combination of mud without K+ and inner-gravel fracture. The rock components, which is lack of ion like Ca2+,Mg2+,Fe2+,Fe3+, reduced cement extent, retained porosity.As a result, it became a low-porosity reservoir earlier than accumulation.

Key words: conglomerate, fracture, high quality reservoir, 2nd Member of Shahejie Formation, Paleogene, Liaodong sag, Bohai Bay basin

CLC Number: 

  • P618.13
[1] 袁静,李春堂,杨学君,等.东营凹陷盐家地区沙四段砂砾岩储层裂缝发育特征[J].中南大学学报(自然科学版),2016,47(5):1649-1659. Yuan Jing,Li Chuntang,Yang Xuejun,et al.Development Characteristics of Glutenite Reservoir Rractures of the Fourth Member of Shahejie Formation in Yanjia Area,Dongying Sag[J].Journal of Central South University(Science and Technology),2016,47(5):1649-1659.
[2] 王德英,于海波,王军,等.秦南凹陷地层岩性油气藏勘探关键技术及其应用成效[J].中国海上油气,2015,27(3):16-24. Wang Deying,Yu Haibo,Wang Jun,et al.Key Exploration Techniques for Stratigraphic Lithologic Reservoirs and Their Application in Qinnan Sag,Bohai Sea[J].China Offshore Oil and Gas,2015,27(3):16-24.
[3] 庞小军,杜晓峰,马正武,等.石臼坨凸起东段沙一、二段沉积时期物源剥蚀量与砂砾岩沉积量关系[J].中国海上油气,2017,29(4):68-75. Pang Xiaojun,Du Xiaofeng,Ma Zhengwu,et al.Study on the Relationship Between Provenance Denudation Quantity and Sandy Conglomerate Volume of the Paleogene Es1-2 in Eastern Shijiutuo Uplift,Bohai Sea[J].China Offshore Oil and Gas,2017,29(4):68-75.
[4] Rogers J P.New Reservoir Model from an Old Oil Field:Garfield Conglomerate Pool,Pawnee County,Kansas[J].AAPG,2007,91(10):1349-1365.
[5] 邹妞妞,张大权,史基安,等.准噶尔西北缘玛北地区扇三角洲砂砾岩岩相分类及储集意义[J].地质学报,2017,91(2):440-452. Zou Niuniu,Zhang Daquan,Shi Ji'an,et al.Lithofacies Classification of Glutenite in Fan Delta of the Mabei Area in the Northwestern Junggar Basin and Its Reservoir Significance[J].Acta Geologica Sinica,2017,91(2):440-452.
[6] 郑丽婧,操应长,姜在兴,等.东营凹陷民丰北带古近系砂砾岩体孔隙度量化表征[J].石油学报,2015,36(5):573-583. Zheng Lijing,Cao Yingchang,Jiang Zaixing,et al.Quantitative Characterization of Porosities of Paleogene Glutenites in the Northern Minfeng Sub-Sag of Dongying Sag[J].Acta Petrolei Sinica,2015,36(5):573-583.
[7] 刘鑫金,冯阵东,李聪,等.近源湖盆砂砾岩储层次生溶孔成因探讨:以查干凹陷祥6井区为例[J].吉林大学学报(地球科学版),2017,47(2):393-404. Liu Xinjin,Feng Zhendong,Li Cong,et al. Discussion of Secondary Dissolved Pore Origin in Near Source Sandy Conglomerate Reservoir:A Case Study of Xiang 6 Well Area in Chagan Depression[J].Journal of Jilin University(Earth Science Edition),2017,47(2):393-404.
[8] Saikia C,Ahmand A H M,Wasim S M.Facies Controlled Diagenetic Evolution of the Delhi Group Sandstones,Bayana Basin,Rajasthan[J].Journal of the Geological Society of India,2011,77(3):261.
[9] 陈波,王子天,康莉,等.准噶尔盆地玛北地区三叠系百口泉组储层成岩作用及孔隙演化[J].吉林大学学报(地球科学版),2016,46(1):23-35. Chen Bo,Wang Zitian,Kang Li,et al.Diagenesis and Pore Evolution of Triassic Baikouquan Formation in Mabei Region,Junggar Basin[J].Journal of Jilin University(Earth Science Edition),2016,46(1):23-35.
[10] 王淑萍.东营凹陷民丰地区古近系深层致密砂砾岩储层成岩演化[C]//2014年中国地球科学联合学术年会专题57:盆地动力学与非常规能源论文集.北京:中国科学院地质与地球物理研究所,2014:2560-2563. Wang Shuping.Diagenetic Evolution of Paleogene Deep Tight Glutenite Reservoir,Minfeng Area of Dongying Sag[C]//Memor of 2014 Annual Meeting of Chinese Geoscience Union,Topic No.57:Basin Dynamics and Unconventional Energy.Beijing:Institute of Geology and Geophysics,Chinese Academy of Sciences,2014:2560-2563.
[11] 王淑萍,徐守余,董春梅,等.东营凹陷北带沙四下亚段深层砂砾岩储层储集空间特征及成因机制[J].天然气地球科学,2014,25(8):1135-1143. Wang Shuping,Xu Shouyu,Dong Chunmei,et al.Reservoir-Space Characteristics and Genetic Mechanism of Deep Glutenite Reservoir of Es4x in the North Zone of the Dongying Depression[J].Natural Gas Geoscience,2014,25(8):1135-1143.
[12] 李桥,王艳忠,操应长,等.东营凹陷盐家地区沙四上亚段砂砾岩储层分类评价方法[J].沉积学报,2017,35(4):812-823. Li Qiao,Wang Yanzhong,Cao Yingchang,et al.Classified Evalution of Sand-Conglomerate Reservoir of the Upper Section of the Fourth Member of Shahejie Formation in Yanjia Area,Dongying Depression[J].Acta Sedimentologica Sinica,2017,35(4):812-823.
[13] 冯子辉,印长海,陆加敏,等.致密砂砾岩气形成主控因素与富集规律:以松辽盆地徐家围子断陷下白垩统营城组为例[J].石油勘探与开发,2013,40(6):650-656. Feng Zihui,Yin Changhai,Lu Jiamin,et al.Formation and Accumulation of Tight Sandy Conglomerate Gas:A Case from the Lower Cretaceous Yingcheng Formation of Xujiaweizi Fault Depression,Songliao Basin[J].Petroleum Exploration and Development,2013,40(6):650-656.
[14] 赵泽辉,徐淑娟,姜晓华,等.松辽盆地深层地质结构及致密砂砾岩气勘探[J].石油勘探与开发,2016,43(1):12-23. Zhao Zehui,Xu Shujuan,Jiang Xiaohua,et al.Deep Strata Geologic Structure and Tight Conglomerate Gas Exploration in Songliao Basin,East China[J].Petroleum Exploration and Development,2016,43(1):12-23.
[15] 马奔奔,操应长,王艳忠,等.东营凹陷盐家地区沙四上亚段砂砾岩储层岩相与物性关系[J].吉林大学学报(地球科学版),2015,45(2):495-506. Ma Benben,Cao Yingchang,Wang Yanzhong,et al.Relationship Between Lithofacies and Physical Properties of Sandy Conglomerate Reservoirs of Es4s in Yanjia Area,Dongying Depression[J].Journal of Jilin University(Earth Science Edition),2015,45(2):495-506.
[16] 李文浩,张枝焕,昝灵,等.渤南洼陷北部陡坡带沙河街组砂砾岩有效储层物性下限及其主控因素[J].石油与天然气地质,2012,33(5):766-777. Li Wenhao,Zhang Zhihuan,Zan Ling,et al.Lower Limits of Physical Properties and Their Controlling Factors of Effective Coarse-Granied Clastic Reservoirs in the Shahejie Formation on Northern Steep Slope of Bonan Subsag,the Bohai Bay Basin[J].Oil & Gas Geology,2012,33(5):766-777.
[17] 巩磊,曾联波,张本健,等.九龙山构造致密砾岩储层裂缝发育的控制因素[J].中国石油大学学报(自然科学版),2012,36(6):6-12. Gong Lei,Zeng Lianbo,Zhang Benjian,et al.Control Factors for Fracture Development in Tight Conglomerate Reservoir of Jiulongshan Structure[J].Journal of China University of Petroleum(Edition of Natural Sciences),2012,36(6):6-12.
[18] 巩磊,曾联波,陈树民,等.致密砾岩储层微观裂缝特征及对储层的贡献[J].大地构造与成矿学,2016,40(1):38-46. Gong Lei,Zeng Lianbo,Chen Shumin,et al.Characteristics of Micro-Fractures and Contribution to the Compact Conglomerate Reservoirs[J].Geotectonica et Metallogenia,2016,40(1):38-46.
[19] 李跃纲,巩磊,曾联波,等.四川盆地九龙山构造致密砾岩储层裂缝特征及其贡献[J].地质与勘探,2012,32(1):22-26. Li Yuegang,Gong Lei,Zeng Lianbo,et al.Fracture Characteristics and Its Contribution of Tight Conglomerate Reservoir in Jiulong Mountain Structure,Sichuan Basin[J].Geology and Exploration,2012,32(1):22-26.
[20] 潘保芝,刘文斌,张丽华,等.一种提高储层裂缝识别准确度的方法[J].吉林大学学报(地球科学版),2018,48(1):298-306. Pan Baozhi,Liu Wenbin,Zhang Lihua,et al.A Method for Improving Accuracy of Reservoir Fracture Identification[J].Journal of Jilin University(Earth Science Edition),2018,48(1):298-306.
[21] Li Lianchong,Meng Qingmin,Wang Shanyong,et al.A Numerical Investigation of the Hydraulic Fracturing Behavior of Conglomerate in Glutenite Formation[J].Acta Geotechnica,2013,8:597-618.
[22] Ma X F,Zou Y S,Li N,et al.Experimental Study on the Mechanism of Hydraulic Fracture Growth in a Glutenite Reservoir[J]. Journal of Structural Geology,2017,97:37-47.
[23] 高辉.特低渗透双重介质砂岩油藏微观孔隙结构定量表征[M].北京:石油工业出版社,2014. Gao Hui.Quantitative Characterization of Microco-smic Pore Structure in Extra-Low Permeability Dual-Porosity Sandstone Reservoirs[M].Beijing:Petroleum Industry Press,2014.
[24] 匡立春,孙中春,毛志强,等.核磁共振测井技术在准噶尔盆地油气勘探开发中的应用[M].北京:石油工业出版社,2015. Kuang Lichun,Sun Zhongchun,Mao Zhiqiang,et al.Application of NMR in Junggar Basin Exploration and Development[M]. Beijing:Petroleum Industry Press,2015.
[25] Timur A.An Investigation of Permeability,Porosity,and Residual Water Saturation Relationship for Sandstone Reservoirs[J]. Log Analyst,1968,9(4):8-17.
[26] Kenyon W E.A Three-Part Study of NMR Longitudinal Relaxation Properties of Water-Saturated Sandstones[J].SPE Formation Evalution,1988,3(3):622-636.
[27] Kenyon W E. Petrophysical Principles of Applications of NMR Logging[J].Log Analyst,1997,38(2):21-40.
[28] SY/T 6285-2011:中华人民共和国石油天然气行业标准油气储层评价方法[S].北京:石油工业出版社,2011. SY/T 6285-2011:China Oil and Gas Industry Standard,Evaluating Methods of Oil and Gas Reservoirs[S].Beijing:Petroleum Industry Press,2011.
[29] Magara K.Compaction and Fluid Migration Pratical Petroleum Geology[M].Amsterdam:Elsevier Scientific Publishing Company,1978:1-139.
[30] Ugwu S A,Nwankwo C N.Integrated Approach to Geopressure Detection in the X-Field,Onshore Niger Delta[J].Journal of Petroleum Exploration and Production Technology,2014,4(3):215-231.
[31] 李超,张立宽,罗晓容,等.泥岩压实研究中有机质导致声波时差异常的定量校正方法[J].中国石油大学学报(自然科学版),2016,40(3):77-87. Li Chao,Zhang Likuan,Luo Xiaorong,et al.A Quantitative Method for Revising Abnormally High Sonic Data in Rich-Organic Rock During Compaction Study[J].Journal of China University of Petroleum(Edition of Natural Sciences),2016,40(3):77-87.
[32] Paul S,Ali M,Chatterjee R.Prediction of Compressional Wave Velocity Using Regression and Neural Network Modeling and Estimation of Stress Orientation in Bokaro Coalfield,India[J/OL].Pure and Applied Geophysics,(2017-09-18).https://doi.org/10.1007/s00024-017-1672-1.
[33] 邹华耀,龚再升,滕长宇,等.渤中坳陷新构造运动断裂活动带PL19-3大型油田晚期快速成藏[J].中国科学:地球科学,2011,41(4):482-492. Zou Huayao,Gong Zaisheng,Teng Changyu,et al.Late-Stage Rapid Accumulation of the PL19-3 Giant Oilfield in an Active Fault Zone During Neotectonism in the Bozhong Depression,Bohai Bay[J].Science China:Earth Science Sci,2014,41(4):482-492.
[34] 孙和风,周心怀,彭文绪,等.渤海南部黄河口凹陷晚期成藏特征及富集模式[J].石油勘探与开发,2011,38(3):307-313. Sun Hefeng,Zhou Xinhuai,Peng Wenxu,et al.Late-Stage Hydrocarbon Accumulation and Enrichment in the Huanghekou Sag,Southern Bohai Sea[J].Petroleum Exploration and Development,2011,38(3):307-313.
[35] 远光辉,操应长,杨田,等.论碎屑岩储层成岩过程中有机酸的溶蚀增孔能力[J].地学前缘,2013,20(5):207-219. Yuan Guanghui,Cao Yingchang,Yang Tian,et al.Porosity Enhancement Potential Through Mineral Dissolution by Organic Acids in the Diagenetic Process of Clastic Reservoir[J].Earth Science Frontiers,2013,20(5):207-219.
[36] Bennett P C.Quartz Dissolution in Organic-Rich Aqueous System[J].Geochimica et Cosmochimica Acta,1991,55:1781-1798.
[37] Blake R E,Walter L M.Kinetics of Feldspar and Quartz Dissolution at 70-80℃ and Near-Neutral pH:Effects of Organic Acids and NaCl[J].Geochimica et Cosmochimica Acta,1999,63(13/14):2043-2059.
[38] 万友利,丁晓琪,白晓亮,等.塔中地区志留系海相碎屑岩储层石英溶蚀成因及影响因素分析[J].沉积学报,2014,32(1):138-147. Wan Youli,Ding Xiaoqi,Bai Xiaoliang,et al.Quartz Dissolution Causes and Influencing Factors in the Silurian Marine Calstic Reservoir Rocks in Central Tarim Basin[J].Acta Sedimentologica Sinica,2014,32(1):138-147.
[39] 曾联波.低渗透砂岩储层裂缝的形成与分布[M].北京:科学出版社,2008. Zeng Lianbo.Formation and Distribution of Fracture in Low-Permeability Sandstone Reservoir[M].Beijing:Science Press,2008.
[40] 王振华,陈刚,李书恒,等.核磁共振岩心实验分析在低孔渗储层评价中的应用[J].石油实验地质,2014,36(6):773-779. Wang Zhenhua,Chen Gang,Li Shuheng,et al.Application of NMRCore Experimental Analysis in Evaluation of Low-Porosity and Low-Permeability Sandstone Reservoirs[J].Petroleum Geology & Experiment,2014,36(6):773-779.
[41] 徐伟,黄晓波,刘睿,等.辽东凹陷南洼斜坡型源-汇系统发育特征及控砂作用[J].中国海上油气:地质,2017,29(4):76-84. Xu Wei,Huang Xiaobo,Liu Rui,et al.Characteristics of Slope Source-to-Sink System and Its Control on Sand Body in Southern Liaodong Sag Bohai Sea[J].China Offshore Oil and Gas:Geology,2017,29(4):76-84.
[42] 李燕,金振奎,金婷,等.岩浆岩砾石磨圆度地质意义的研究[J].沉积学报,2014,32(2):189-197. Li Yan,Jin Zhenkui,Jin Ting,et al.Geological Significance of Magmatic Gravel Roundness[J].Acta Sedimentologica Sinica,2014,32(2):189-197.
[43] 王安东,周瑶琪,张振凯,等.山东灵山岛莱阳群水下非构造缝特征及意义[J].地球学报,2014,35(3):321-328. Wang Andong,Zhou Yaoqi,Zhang Zhenkai,et al.Characteristics and Significance of Underwater Non-Tectonic Cracks in Laiyang Group of Lingshan Island,Shandong Province[J].Acta Geoscientica Sinica,2014,35(3):321-328.
[44] 成玮,周瑶琪,闫华.黄河三角洲现代泥质沉积物非构造裂缝空间展布研究[J].沉积学报,2011,29(2):363-373. Cheng Wei,Zhou Yaoqi,Yan Hua. Spatial Distribution Research on Contemporary Non-Tectonic Cracks in Mud Sediment at Yellow River Delta[J].Acta Sedimentologica Sinica,2011,29(2):363-373.
[45] 王维,杨香华,叶加仁,等.玄武岩发育区砂岩储层特征及控制因素:渤海南部BZ34-9区与KL6区块对比[J].地球科学,2017,42(4):570-586. Wang Wei,Yang Xianghua,Ye Jiaren,et al.Characterization and Controlling Factors of Sandstone Reservoirs in Basalt Development Areas:An Example from Comparison Between BZ34-9 and KL6 Area in South of Bohai Sea[J].Earth Science,2017,42(4):570-586.
[46] 李德江,朱筱敏,董艳蕾,等.辽东湾坳陷古近系沙河街组层序地层分析[J].石油勘探与开发,2007,34(6):669-676. Li Dejiang,Zhu Xiaomin,Dong Yanlei,et al. Sequence Stratigraphy and Depositional System of Paleogene Shahejie Formation in Liaodong Bay Depression[J].Petroleum Exploration and Development,2007,34(6):669-676.
[47] Burst J F. Subaqueously Formed Shrinkage Cracks in Clay[J]. Journal of Sedimentary Research,1965,35(2):348-353.
[48] 卢寿慈,翁达.界面分选原理与应用[M].北京:冶金工业出版社,1992. Lu Shouci,Weng Da.Interface Separation Principle and Application[M].Beijing:Metallurgical Industry Press,1992.
[49] 苏奥,陈红汉,王存武,等.低渗致密砂岩储层的致密化机理与成岩流体演化:以东海西湖凹陷中央背斜带北部花港组为例[J].中国矿业大学学报,2016,45(5):972-981. Su Ao,Chen Honghan,Wang Cunwu,et al. Densification Mechanism and Diagenesis Fluid Evolution of Low-Porosity and Low-Permeability Tight Sandstone Reservoir:An Example from Huagang Formation in the Northern of the Central Anticlinal Zone in Xihu Depression,East China Sea[J].Journal of China University of Mining & Technology,2016,45(5):972-981.
[50] 刘令云.煤泥水中高岭石颗粒表面水化作用机理研究[D].淮南:安徽理工大学,2013. Liu Lingyun.Study on the Hydeation of Coal-Measured Kaolinite Surfaces in Aqueous Solutions[D].Huainan:Anhui University of Science and Technology,2013.
[51] 夏新宇,宋岩.沉降及抬升过程中温度对流体压力的影响[J].石油勘探与开发,2001,28(3):8-11. Xia Xinyu,Song Yan.Temperature Effects on Geopressure During Deposition and Erosion[J].Petroleum Exploration and Development,2001,28(3):8-11.
[1] Yu Cuiling, Li Baogang. Main Factors Controlling Planar Enrichment of Lithologic Reservoirs in Niuzhuang Sub-Sag, Dongying Depression, Bohai Bay Basin [J]. Journal of Jilin University(Earth Science Edition), 2019, 49(1): 240-247.
[2] Wang Zhuwen, Xu Fanghui, Liu Jinghua, Ning Qinqin, Yu Yang. Stoneley Wave Response Characteristics of Gas-Bearing Fractural Volcanic Formation in Liaohe Eastern Depression [J]. Journal of Jilin University(Earth Science Edition), 2018, 48(6): 1876-1888.
[3] Ma Guoqing, Ming Yanbo, Huang Danian. Distribution Characteristics Study of Cenozoic Basement of Lishui-Jiaojiang Sag Based on Gravity and Magnetic Anomalies [J]. Journal of Jilin University(Earth Science Edition), 2018, 48(5): 1493-1500.
[4] Li Zhiyuan, Gong Hailing, Zhang Yonghui, Li Pu. Fracture Development Law and Its Influence on the Stability of Surrounding Rock of a Power Station Underground Plant [J]. Journal of Jilin University(Earth Science Edition), 2018, 48(5): 1574-1580.
[5] Liao Dongliang, Zeng Yijin. Establishment of Formation Shear Fracture Model by Logging Data [J]. Journal of Jilin University(Earth Science Edition), 2018, 48(4): 1268-1276.
[6] Deng Xinhui, Liu Cai, Guo Zhiqi, Liu Xiwu, Liu Yuwei. Full Wave Field Seismic Response Simulation and Analysis of Anisotropic Shale Reservoir in Luojia Area of Jiyang Depression [J]. Journal of Jilin University(Earth Science Edition), 2018, 48(4): 1231-1243.
[7] Zhang Bing, Guo Zhiqi, Xu Cong, Liu Cai, Liu Xiwu, Liu Yuwei. Fracture Properties and Anisotropic Parameters Inversion of Shales Based on Rock Physics Model [J]. Journal of Jilin University(Earth Science Edition), 2018, 48(4): 1244-1252.
[8] Zhu Xiaoying, Yang Hai, Kuang Xingtao, Peng Weiwei, Zhang Hongrui. Characteristics of Fault Structures in East Kunlun-Altyn Tagh Based on High-Precision Aeromagnetic Data [J]. Journal of Jilin University(Earth Science Edition), 2018, 48(2): 461-473.
[9] Pan Baozhi, Liu Wenbin, Zhang Lihua, Guo Yuhang, Aruhan. A Method for Improving Accuracy of Reservoir Fracture Identification [J]. Journal of Jilin University(Earth Science Edition), 2018, 48(1): 298-306.
[10] Zhang Huanxu, Chen Shijia, Lu Jungang, Liu Chaowei, Chen Juan, Li Yong, Xu Kun. Migration of Oil in Tight Sandstones:Discussion from the Dynamics [J]. Journal of Jilin University(Earth Science Edition), 2017, 47(5): 1341-1351.
[11] Li Zhenling, Shen Jinsong, Li Xining, Wang Lei, Dan Weining, Guo Sen, Zhu Zhongmin, Yu Renjiang. Estimating Porosity Spectrum of Fracture and Karst Cave from Conductivity Image by Morphological Filtering [J]. Journal of Jilin University(Earth Science Edition), 2017, 47(4): 1295-1307.
[12] Zhang Bowei, Fu Guang, Zhang Juhe, Hu Ming, Liu Junqiao, Wang Haoran. Fracture Development in Oil-Migrating Fault Transition Zones and Its Control on Hydrocarbon Migration and Accumulation: A Case Study of Es2 Oil Formation of Yilunpu Structure of Wen'an Slope of Jizhong Depression [J]. Journal of Jilin University(Earth Science Edition), 2017, 47(2): 370-381.
[13] Xu Hongjie, Hu Baolin, Zheng Jianbin, Liu Huihu, Zhang Wenyong, Zheng Kaige. Reservoir Characteristics and Their Lithofacies Controlling Effect of Coal-Bearing Mudstone in Huainan Coal Field [J]. Journal of Jilin University(Earth Science Edition), 2017, 47(2): 418-430.
[14] Liu Jingshou, Dai Junsheng, Xu Ke, Zhang Yi, Ding Wenlong. Method for the Characterization of the Evolution of Tectonic Fracture Attitudes and Its Application [J]. Journal of Jilin University(Earth Science Edition), 2017, 47(1): 84-94.
[15] Li Bonan, Liu Cai, Guo Zhiqi. Estimation of Fractured Reservoir Parameters Based on Equivalent Media Model and Frequncy-Dependent AVO Inversion [J]. Journal of Jilin University(Earth Science Edition), 2017, 47(1): 234-244.
Viewed
Full text


Abstract

Cited

  Shared   
  Discussed   
No Suggested Reading articles found!