Lithologic Reservoirs ›› 2008, Vol. 20 ›› Issue (1): 105-110.doi: 10.3969/j.issn.1673-8926.2008.01.018

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Using NMR T2 spectrum distribution to study fractal nature of pore structure

CHEN Zhenbiao1, ZHANG Chaomo1, ZHANG Zhansong1, LING Husong2, SUN Baodian2   

  1. 1. Key Laboratory of Exploration Technologies for Oil and Gas Resources, Ministry of Education, Yangtze University,Jingzhou 434023, China; 2. Technology Center, Logging Co. Ltd., CNPC, Xi’an 710021, China
  • Online:2008-03-15 Published:2008-03-15

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Abstract:

It is a newmethod to analyze the fractal nature of pore structure and petrophysical property by using NMR T2 spectrum distribution. Based on the former study, the fractal nature of the medium-high porosity and permeability reservoir is analyzed, and then the applicability and reliability of this method are discussed in low porosity and low permeability reservoir, finally, the application effect of this method in medium-high porosity and permeability reservoir is compared with the effect in lowporosity and lowpermeability reservoir. The result shows that it could determine the fractal nature of pore structure exactly and calculate the fractal dimension by using NMR T2 spectrumdistribution. The fractal dimension calculated by this method could characterize the petrophysical property closely and provide reference for reservoir characteristics research and reservoir classification.

Key words: subtle reservoir, lithologic stratigraphic reservoir, structural reservoir, nonstructural reservoir

[ 1] 罗蛰潭, 王允诚.油气储集层的孔隙结构[M] .北京:科学出版社, 1986.
[ 2] 贺承祖, 华明琪.油气藏物理化学[M] . 成都: 电子科技大学出版社,1995.
[ 3] 原海涵.毛管理论在测井解释中的应用[M] .北京:石油工业出版社,1995.
[ 4] 欧阳健.加强岩石物理研究提高油气勘探效益[ J] .石油勘探与开发, 2001, 28( 2) : 1- 5.
[ 5] 张龙海, 周灿灿, 刘国强, 等.孔隙结构对低孔低渗储集层电性及测井解释评价的影响[ J] .石油勘探与开发, 2006, 33( 6) :671- 676.
[ 6] 何宗斌, 倪静, 伍东, 等.根据双TE 测井确定含烃饱和度[ J] .岩性油气藏, 2007, 19( 3) : 89- 92.
[ 7] 肖立志.核磁共振成像测井与岩石核磁共振及其应用[M] .北京: 科学出版社, 1998.
[ 8] 何雨丹, 毛志强, 肖立志, 等.核磁共振T2 分布评价岩石孔径分布的改进方法[ J] .地球物理学报, 2005, 48( 2) : 373- 378.
[ 9] Yakov V,Win L S. A practical approach to obtain primary drainage capillary pressure curves from NMR core and log data[ J] .Petrophysics, 2001, 42( 4) : 334- 343.
[ 10] 运华云, 赵文杰, 周灿灿, 等.利用T2 分布进行岩石孔隙结构研究[ J] .测井技术, 2002, 26( 1) : 18- 21.
[ 11] 刘堂宴, 马在田, 傅容珊.核磁共振谱的岩石孔喉结构分析[ J] .地球物理学进展, 2003,18( 4) : 737- 742.
[ 12] 何雨丹, 毛志强, 肖立志, 等.利用核磁共振T2 分布构造毛管压力曲线的新方法[ J] .吉林大学学报( 地球科学版) ,2005,35( 2) : 177- 181.
[ 13] Pfeifer P, Avnir D. Chemistry in nointegral dimensions between two and three[ J] . J. Chem. Phys., 1983, 79( 7) : 3 369- 3 558.
[ 14] Katz A J, Thompson A H. Fractal sandstone pores: implications for conductivity and formation[ J] . Phys. Rev. Lett., 1985, 54( 3) :1 325- 1 328.
[ 15] Krohn C E. Sandstone fractal and euclidean pore volume distributions[J] . Geophys. Res., 1988, 93(B4) : 3 286- 3 296.
[ 16] Krohn C E. Fractal measurements of sandstone, shales and carbonates[J] . Geophys. Res., 1988, 93(B4) : 3 297- 3 305.
[ 17] Angulo R F, Alvarado V, Gonzalez H. Fractal dimensions form mercury intrusion capillary tests[R] . SPE 23695, 1992.
[ 18] 贾芬淑, 沈平平, 李克文.砂岩孔隙结构的分形特征及应用研究[ J] .断块油气田, 1995, 2( 1) : 16- 21.
[ 19] 贺承祖,华明琪.储层孔隙结构的分形几何描述[ J] .石油与天然气地质, 1998, 19( 1) : 15- 23.
[ 20] 张超谟, 陈振标, 张占松, 等.基于核磁共振T2 谱分布的储层岩石分形结构研究[ J] .石油天然气学报, 2007, 29( 4) : 80- 86.
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