Advanced Search
Volume 38 Issue 3
Turn off MathJax
Article Contents
Article Navigation >  PETROLEUM GEOLOGY & EXPERIMENT  > 2016  >  38(3): 389-394
Gong Yanjie, Liu Shaobo, Zhao Mengjun, Xie Hongbing, Liu Keyu. Characterization of micro pore throat radius distribution in tight oil reservoirs by NMR and high pressure mercury injection[J]. PETROLEUM GEOLOGY & EXPERIMENT, 2016, 38(3): 389-394. doi: 10.11781/sysydz201603389
Citation: Gong Yanjie, Liu Shaobo, Zhao Mengjun, Xie Hongbing, Liu Keyu. Characterization of micro pore throat radius distribution in tight oil reservoirs by NMR and high pressure mercury injection[J]. PETROLEUM GEOLOGY & EXPERIMENT, 2016, 38(3): 389-394. doi: 10.11781/sysydz201603389
shu

Characterization of micro pore throat radius distribution in tight oil reservoirs by NMR and high pressure mercury injection

doi: 10.11781/sysydz201603389
  • 1.

    Research Institute of Petroleum Exploration and Development, PetroChina, Beijing 100083, China

  • 2. State Key Laboratory of Oil Recovery, Beijing 100083, China

  • 3. CSIRO Earth Science and Resource Engineering, P. O. Box 1130, Bentley WA 6112, Australia

  • Received Date: 2015-05-26
  • Rev Recd Date: 2016-03-02
  • Publish Date: 2016-05-28
    Abstract
  • Through the design of an algorithm, the conversion coefficient of NMR T2 relaxation time and pore throat radius was optimized by using the pore throat distribution data in tight oil reservoirs obtained from mercury injection experiments. The precision of the NMR characterization of pore distribution was improved. Methods were used in the characterization of Cretaceous tight oil pore radius distribution in the southern Songliao Basin. Pore radius of samples with oil saturation less than 10% were concentrated in the 10-300 nm range, while those with oil saturation between 10% and 40% were mainly 20-1 000 nm. Unlike these samples, the pore radius of samples with oil saturation greater than 40% were concentrated in the 20-3 000 nm range.Experimental results showed that the development of different levels of microporosity in tight oil reservoirs controlled the oiliness properties.

     

    • FullText(HTML)
  • loading
    • References(21)
  • [1]
    马洪,李建忠,杨涛,等.中国陆相湖盆致密油成藏主控因素综述[J].石油实验地质,2014,36(6):668-677. Ma Hong,Li Jianzhong,Yang Tao,et al.Main controlling factors for tight oil accumulation in continental lacustrine basins in China[J].Petroleum Geology & Expeiment,2014,36(6):668-677.
    [2]
    袁波,王心强,路俊刚,等.准东北部平地泉组致密油源岩生烃特征[J].石油实验地质,2014,36(6):744-750. Yuan Bo,Wang Xinqiang,Lu Jungang,et al.Hydrocarbon supp-lying characteristics of tight oil source rocks in Pingdiquan Formation,northeastern Junggar Basin[J].Petroleum Geology & Expeiment,2014,36(6):744-750.
    [3]
    王延山,董崟昊,陈乃申,等.陆东凹陷致密油形成条件及资源潜力探讨[J].特种油气藏,2014,21(4):53-57. Wang Yanshan,Dong Yinhao,Chen Naishen,et al.Forming conditions and potential of tight oil in Ludong Sag[J].Special Oil & Gas Reservoirs,2014,21(4):53-57.
    [4]
    邹才能,杨智,陶士振,等.纳米油气与源储共生型油气聚集[J].石油勘探与开发,2012,39(1):13-26. Zou Caineng,Yang Zhi,Tao Shizhen,et al.Nano-hydrocarbon and the accumulation in coexisting source and reservoir[J].Petroleum Exploration and Development,2012,39(1):13-26.
    [5]
    王崇孝,罗群,宋岩,等.纳米石油地质学:非常规油气地质理论与研究方法探讨[J].石油实验地质,2014,36(6):659-667. Wang Chongxiao,Luo Qun,Song Yan,et al.Nano-meter petroleum geology:Discussion about geology theory and research method of unconventional petroleum[J].Petroleum Geology & Expeiment,2014,36(6):659-667.
    [6]
    王磊,李克文,赵楠,等.致密油储层孔隙度测定方法[J].油气地质与采收率,2015,22(4):49-53. Wang Lei,Li Kewen,Zhao Nan,et al.Methods research of porosity determination for tight oil reservoir[J].Petroleum Geology and Recovery Efficiency,2015,22(4):49-53.
    [7]
    罗少成,成志刚,林伟川,等.基于核磁共振测井的致密砂岩储层孔喉空间有效性定量评价[J].油气地质与采收率,2015,22(3):16-21. Luo Shaocheng,Cheng Zhigang,Lin Weichuan,et al.Quantitative evaluation of the effectiveness of pore-throat space in tight sandstone reservoirs based on nuclear magnetic resonance log[J].Petroleum Geology and Recovery Efficiency,2015,22(3):16-21.
    [8]
    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 Shuhen,et al.Application of NMR core experimental analysis in evaluation of low-porosity and low-permeability sandstone reservoirs[J].Petroleum Geology & Experiment,2014,36(6):773-779.
    [9]
    运华云,赵文杰,刘兵开,等.利用T2分布进行岩石孔隙结构研究[J].测井技术,2002,28(1):18-21. Yun Huayun,Zhao Wenjie,Liu Bingkai,et al.Researching rock pore structure with T2 distribution[J].Well Logging Technology,2002,28(1):18-21.
    [10]
    高敏,安秀荣,祗淑华,等.用核磁共振测井资料评价储层的孔隙结构[J].测井技术,2000,26(3):188-193. Gao Min,An Xiurong,Zhi Shuihua,et al.Evaluating porous structure of reservoir with MRIL data[J].Well Logging Technology,2000,26(3):188-193.
    [11]
    李天降,李子丰,赵彦超,等.核磁共振与压汞法的孔隙结构一致性研究[J].天然气工业,2006,26(10):57-59. Li Tianjiang,Li Zifeng,Zhao Yanchao,et al.Consistency study of pore structure of nuclear magnetic resonance and mercury intrusion method[J].Natural Gas Industry,2006,26(10):57-59.
    [12]
    李海波,朱巨义,郭和坤.核磁共振T2谱换算孔隙半径分布方法研究[J].波谱学杂志,2008,25(2):273-278. Li Haibo,Zhu Juyi,Guo Hekun.Methods for calculating pore radius distribution in rock from NMR T2spectra[J].Chinese Journal of Magnetic Resonance,2008,25(2):273-278.
    [13]
    王胜. 用核磁共振分析岩石孔隙结构特征[J]. 新疆石油地质,2009,30(6):768-770. Wang Sheng. Analysis of Rock Pore Structural Characteristic by Nuclear Magnetic Resonance[J]. Xinjiang Petroleum Geology,2009,30(6):768-770.
    [14]
    赵文杰.利用核磁共振测井资料计算平均孔喉半径[J].油气地质与采收率,2009,16(2):43-45. Zhao Wenjie.Calculation of the average pore throat radius using nuclear magnetic resonance logging data[J].Petroleum Geology and Recovery Efficiency,2009,16(2):43-45.
    [15]
    郑可,徐怀民,陈建文,等.低渗储层可动流体核磁共振研究[J].现代地质,2013,27(3):711-718. Zheng Ke,Xu Huaimin,Chen Jianwen,et al.Movable fluid study of low permeability reservoir with nuclear magnetic resonance technology[J].Geoscience,2013,27(3):711-718.
    [16]
    杨峰,宁正福,孔德涛,等.高压压汞法和氮气吸附法分析页岩孔隙结构[J].天然气地球科学,2013,24(3):450-455. Yang Feng,Ning Zhengfu,Kong Detao,et al.Pore structure of shales from high pressure mercury injection and nitrogen adsorption method[J].Natural Gas Geoscience,2013,24(3):450-455.
    [17]
    谢武仁,杨威,杨光,等.川中地区上三叠统须家河组砂岩储层孔隙结构特征[J].天然气地球科学,2010,21(3):435-440. Xie Wuren,Yang Wei,Yang Guang,et al.Pore structure features of sandstone reservoirs in the Upper Triassic Xujiahe Formation in the central part of Sichuan Basin[J].Natural Gas Geoscience,2010,21(3):435-440.
    [18]
    张满郎,李熙喆,谢武仁.鄂尔多斯盆地山2段砂岩储层的孔隙类型与孔隙结构[J].天然气地球科学,2008,19(4):480-486. Zhang Manlang,Li Xizhe,Xie Wuren.Pore types and pore texture of sandstone reservoir of 2nd Member of Shanxi Formation,Ordos Basin[J].Natural Gas Geoscience,2008,19(4):480-486.
    [19]
    赵志魁,张金亮,赵占银.松辽盆地南部坳陷湖盆沉积相和储层研究[M].北京:石油工业出版社,2009. Zhao Zhikui,Zhang Jinliang,Zhao Zhanyin.The lacustrine sedimentary facies and reservoir research of southern Songliao depression Basin[M].Beijing:Petroleum Industry Press,2009.
    [20]
    侯启军.深盆油藏:松辽盆地扶杨油层油藏形成与分布[M].北京:石油工业出版社,2010. Hou Qijun.Formation and distribution of Fuyang deep basin reservoir in Songliao Basin[M].Beijing:Petroleum Industry Press,2010.
    [21]
    宋立忠,李本才,王芳.松辽盆地南部扶余油层低渗透油藏形成机制[J].岩性油气藏,2007,19(2):57-61. Song Lizhong,Li Bencai,Wang Fang.Reservoir-forming mechanism of low-permeability reservoir of Fuyu Formation in southern Song-liao Basin[J].Lithologic Reservoirs,2007,19(2):57-61.
    • Relative Articles
    • Supplements(0)
    • Cited By
  • 加载中

Catalog

    通讯作者: 陈斌, bchen63@163.com
    • 1. 

      沈阳化工大学材料科学与工程学院 沈阳 110142

    1. 本站搜索
    2. 百度学术搜索
    3. 万方数据库搜索
    4. CNKI搜索
    Citation
    XML
    PDF-CN

    Article Metrics

    Article views (1526) PDF downloads(1136) Cited by()
    Proportional views
    Related

    Website Copyright © Wuxi Research Institute of Petroleum Geology, SINOPEC 苏ICP备15009037号 苏公网安备32021102000780号

    Address:No. 2060, Lihu Avenue, Wuxi, Jiangsu   (214126) Tel:0510-68787204,68787203 Fax:0510-68787113 Email:sysydz.syky@sinopec.com

    Supported by: Beijing Renhe Information Technology Co. Ltd  

    /

    DownLoad:  Full-Size Img  PowerPoint
    Return
    Return