期刊文献+

多极子随钻声波测井波场模拟与采集模式分析 被引量:31

Wave field simulation and data acquisition scheme analysis for LWD acoustic tool
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摘要 应用三维非均匀交错网格有限差分程序模拟了多极子随钻声波测井的波场,考察了硬地层中单极子随钻声波测井响应及软地层中声源频率对多极子随钻声波测井的影响;计算了接收阵列波形的时域相干谱及频散特征,结果表明随钻测井仪器居中时,在硬地层中可以直接利用单极子声系得到地层横波速度,但地层纵波受到钻铤波的极大干扰.而在软地层中可以利用单极子声系直接测得地层纵波速度,但地层横波速度则需要使用工作在较低频率下的四极子随钻声波仪来测得,此时测井频段又会落入钻井噪声频带而受到影响.为此本文提出数值模拟手段结合物理实验的方法得到钻铤波的影响,在实际测井中通过信号处理方法而不是用在仪器本体上刻槽的方式来更完全地消除钻铤的影响.为了避免钻井噪声的影响,本文提出六极子随钻声波仪更适合软地层的横波测量.本文用数值实验结果来说明这些方法的可行性. We have studied propagating wave fields of multipole acoustic LWD tool with a 3D finite difference simulator of non-uniform stagger grid. We examined monopole system response to hard formations and multipole system responses to soft formations and calculated the semblance spectra in time domain and the dispersion characteristics of these signals of array receivers. These analyses have demonstrated that, when the LWD tool is centralized properly, a monopole system can measure formation S wave velocity in hard formations while the formation P wave measurements may severely be interfered by the waves from drill collar. A quadrupole system at lower frequencies may be employed for the measurements of formation S wave velocity in soft formations. However these working frequencies for quadrupole system fall into the frequency band of drilling noise. Based on these numerical simulations, this paper proposes a numerical method for obtaining drill collar waves in conjunction with minor physical lab calibration to completely eliminate the interferences due to drilling collar during the signal processing procedure rather than making insulators of ring slots on the drill collar and on the tool. To avoid interferences of drilling noise on the quadrupole measurements for S wave velocity in soft formations, a hexpole system is proposed to replace the quadrupole system. The numerical experiments are presented to illustrate the feasibility of these proposed schemes for LWD acoustic measurements.
出处 《地球物理学报》 SCIE EI CAS CSCD 北大核心 2009年第9期2402-2409,共8页 Chinese Journal of Geophysics
基金 国家自然科学基金项目(60674098) 国家重点基础研究发展计划项目(2007cB209601) 国家863计划项目(2006AA06Z207)资助
关键词 三维非均匀交错网格 钻铤波 有限差分 频散分析 地层横波 六极子 3D non-uniform stagger grid Drill collar wave Finite difference Dispersion analysis Formation shear wave Hexpole
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参考文献16

  • 1时鹏程.随钻测井技术在我国石油勘探开发中的应用[J].测井技术,2002,26(6):441-445. 被引量:57
  • 2Tang X M,Wang T,Patterson D.Multipole acoustic logging while drilling.SEG 72nd.Expanded Abstracts,2002.364-368.
  • 3Tang X M,Dubinsky V,Wang T,et al.Shear-velocity measurement in the logging while drilling environment:modeling and field evaluations.SPWLA 43rd Annual Logging Symposium,Oiso,Japan,2002,6:2-5,paper RR.
  • 4Huang X J.Effects of tool position on borehole acoustic measurements:a stretched grid finite difference approach[Ph.D.thesis].Cambridge,MA:Massachusetts Institute of Technology,2003.
  • 5Tao Guo,He Feng-Jiang,Wang Bing,Wang Hua.Study on 3D simulation of wave fields in acoustic reflection image logging.Sci China D-Earth,51(SII):186-194.
  • 6何峰江,陶果,王锡莉.贴井壁声波测井仪的有限差分模拟研究[J].地球物理学报,2006,49(3):923-928. 被引量:23
  • 7陶果,邹辉.现代阵列声波测井数据处理和解释方法研究[J].石油勘探与开发,2000,27(2):76-78. 被引量:25
  • 8Rao R,Toks(o)z M N.Dispersive wave analysis-Method and applications.Consortium reports of Earth Resources Laboratory Department in Massachusetts Institute of Technology,Cambridge,MA USA,2005.
  • 9Aron J,Chang S K,Dworak R,et al.Sonic compressional measurements while drilling.SPWLA 35th Annual Logging Symposium,Tulsa,Oklahoma,United States,1994,6:19-22,paper SS.
  • 10Minear J W,Birchak R,Robbins C,et al.Compressional wave slowness measurement while drilling.SPWLA 36th Annual Logging Symposium,Paris,France,1995,6:26-29,paper VV.

二级参考文献18

  • 1周远田.用ARMA模型恢复薄层测井值[J].测井技术,1994,18(2):87-93. 被引量:2
  • 2汪宏年,李舟波,常明澈.地球物理测井综合高分辨率处理系统及其应用[J].测井技术,1996,20(6):441-448. 被引量:11
  • 3时鹏程,许磊编译.地质导向技术的应用原则.中国改革开放的理论与实践.中国文联出版社,2000
  • 4Charles E. Jacson Herbert M. J. illfelder Randall Porche. Improve Payzone Steering of Horizontal Wells Using Resistivity Forward Modeling. 7th Annual International Conference on Horizontal Well Technology and Application. November 1995,6~8
  • 5江法国,测井信息技术,1994年,7卷,2期
  • 6Tal-Ezer H.Spectral methods in time for hyperbolic problems.SIAM J.Numer.Anal.,1986,23:12~26
  • 7Chew W C,Liu Q H.Perfectly matched layers for elasto dynamics:A new absorbing boundary condition.J.Comp.Acoust.,1996,4 (4):72 ~ 79
  • 8Xinmin T,Aart B,Milind G,et al.Intel OpenMp C + +/Fortran Compiler for hyper-threading technology:Implementation and performance.Intel Technology Journal (Q1),2002,6(1):1 ~ 10
  • 9Komatitsch D,Vilotte J P.The spectral element method:an efficient tool to simulate the seismic response of 2-D and 3-D geological structures.Bull.Soc.Am.,1998,88:368~392
  • 10Ozdenvar T,McMeehan A.Algorithms for staggered-grid computations for poroelastic,elastic,acoustic and scalar wave equations.Geophysical Prospecting,1997,45(4):403 ~ 420

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