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二维核磁共振测井 被引量:48

Two-dimensional NMR Logging
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摘要 目前的NMR测井都是基于一维核磁共振技术,只测量地层孔隙流体的横向弛豫时间T2信息,测量结果反映孔隙空间的氢核总数,不能区分这些信号是来自油还是来自水。当地层孔隙中油气和水同时存在时,它们的T2谱信号是重叠在一起的,现有的NMR测井技术在识别和定量评价油气水时存在很大的局限性。二维核磁共振测井将孔隙流体中氢核数分布从一维核磁共振的单个T2弛豫变量拓展到二维核磁共振的2个变量,能够充分利用NMR观测的信息,开拓核磁共振测井岩石物理研究的新领域。介绍二维核磁共振测井的基本思想以及实验测量方法。将含有顺磁物质的人造砂岩和天然泥质砂岩饱和水,利用2个窗口改进CPMG脉冲序列,进行2D NMR实验测量。对测量数据进行反演,给出了岩石横向弛豫时间-内部磁场梯度(T2,G)的二维分布图,分析了岩石内部磁场梯度随孔隙大小不同的变化规律,研究结果对分析陆相沉积地层复杂岩性核磁共振测量结果具有重要指导意义。 Nuclear magnetic resonance (NMR) technology has been widely used in well logging for oil exploration and in core analysis for petrophysical studies. It plays an important role in exploring and exploiting oil and gas resources. NMR logging provides rich information including porosity, capillary and clay bound water, moveable fluid, permeability and pore size distribution for formation evalua- tion. However, the current NMR log is basically a one-dimensional technology (1D NMR) which provides only T2 relaxation information. It measures the proton population in the pore fluid without the ability to differentiate the signal from water or oil. When multiple pore fluids, such as oil, gas and water, are present, especially when their T2 signals overlap, the current 1D NMR logging technology has significant limitations to identify and evaluate them. 2D NMR logging adequately makes use of NMR information to open up an unexplored area for petrophysical research, in which 2D NMR broadens the independent variables for proton population function from the 1D of T2 relaxation time to 2D of T2 relaxation time and internal field gradients or diffusion coefficient. 2D NMR logging theory and experimental method were introduced in this paper. Two-window method is used to modify CPMG pulse sequence, 2D NMR experiments on water-saturated man-made sandstone with moderate paramagnetic impurities and shaly sandstone are measured. The inversion results for experimental data give 2D plot of T2 relaxation and internal field gradients (T2 ,G) which displays the signal intensity as a function of T2 relaxation times and internal field gradients. Internal field gradient distributions in rocks as a function of pore size are analyzed. The results may assist us in the NMR logging interpretation of complex lithology in terrestrial formation.
作者 谢然红 肖立志 邓克俊 廖广志 刘天定
机构地区 中国石油大学油气资源与探测实验室
出处 《测井技术》 CAS CSCD 2005年第5期430-434,共5页 Well Logging Technology
基金 中国石油天然气集团公司重点实验室应用基础研究项目资助 编号:03A30302
关键词 核磁共振测井 二维核磁共振 弛豫时间 内部磁场梯度 顺磁物质 NMR logging two-dimensional NMR relaxation time internal field gradient paramagnetie material
分类号 P631.84 [天文地球—地质矿产勘探] TE19 [天文地球—地质学]
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参考文献16

  • 1Coates G R, Xiao L Z, Prammer M G. NMR Logging Principles and Applications[M]. Houston: Gulf Publishing Company, USA, 2000. 被引量:1
  • 2Dunn K-J, Bergman D J and Latorraca G A. Nuclear Magnetic Resonance: Petrophysical and Logging Applications.Handbook of Geophysical Exploration[M]. Pergamon, New York. 2002. 被引量:1
  • 3肖立志著..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,1998:328.
  • 4邵维志.核磁共振测井移谱差谱法影响因素实验分析[J].测井技术,2003,27(6):502-507. 被引量:24
  • 5王忠东,汪浩,向天德.综合利用核磁谱差分与谱位移测井提高油层解释精度[J].测井技术,2001,25(5):365-368. 被引量:23
  • 6AkkurtR, GuilloryAJ, VinegarHJ, Tutunjian PN. NMR Logging of Natural Gas Reservoirs[A]. paper N, 36th Annual SPWLA Logging Symposium Transactions[C]. 1995. 被引量:1
  • 7Moore M A, Akkurt R. Nuclear Magnetic Resonance Applied to Gas Detection in a Highly Laminated Gulf of Mexico Turbidite Invaded with Synthetic Oil Filtrate[A]. 1996, SPE 36521, p. 305-310. 被引量:1
  • 8Mardon D, et al. Characterization of Light Hydrocarbonbearing Reservoirs by Gradient NMR Well Logging-a Gulf of Mexico Case Study[A]. SPE 36520, 1996, p. 295-304. 被引量:1
  • 9Akkurt R, et al. Enhanced Diffusion: Expanding the Range of NMR Direct Hydrocarbon-typing Applications[A]. paper GG, 39th Annual SPWLA Logging Symposium Transactions [C]. 1998. 被引量:1
  • 10Akkurt R, etal. Determination of Residual Oil Saturation Using Enhanced Diffusion[A]. 1998, SPE 49014. 被引量:1

二级参考文献7

  • 1黄隆基.核物理测井[M].北京:石油工业出版社,2000.. 被引量:1
  • 2[1]George R Coates, et al.. NMR Logging Principles and Applications. Halliburton Energy Services, 1999 被引量:1
  • 3Prammer M G, Bouton J, Chandler R N, Drack E D and Miller M N. A New Multiband Generation of NMR Logging Tools. Paper SPE--49011, New Orleans, LA, Sept. 27--30, 1998. 被引量:1
  • 4Prammer M G, Drack E, Goodman G, Masak P, Menger S,Marys M, Zannoni S, Suddarth B and Dudley J. The Magnetic Resonance While-Drilling Tool. Theory and Operation.Paper SPE-62981, Dallas, TX, Oct. 1--4, 2000. 被引量:1
  • 5Horkowitz J, Crary S, Ganesan K, Heidler R, Luong B,Morley J. Applications of A New Magnetic Resonance Logging-While-Drilling Tool in A Gulf of Mexico Deepwater Development Project. SPWLA 43rd Annual Symposium, Paper EEE, June 2-5, 2002. 被引量:1
  • 6Prammer M G, Bouton J and Masak P. The Downhole Fluid Analyzer. SPWLA 42nd Annual Symposium, Paper N,Houston, TX, June 17-20, 2001. 被引量:1
  • 7李剑浩.非线性理论与局域化测量[J].测井技术,1998,22(6):456-457. 被引量:4

共引文献69

同被引文献476

引证文献48

二级引证文献414

测井技术
2005年 第5期

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