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随钻方位电磁波电阻率成像模拟及应用 被引量:19

Numerical Simulation and Application of Azimuthal Propagation Resistivity Imaging While Drilling
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摘要 随钻方位电磁波电阻率成像资料在地质导向中起着至关重要的作用。利用三维有限差分数值模拟方法计算随钻电阻率仪器激发的电磁场随仪器方位变化的规律,分析实现方位电阻率测量以及成像的原理及方法。数值模拟结果表明:在常规随钻电磁波仪器的基础上,增加倾斜或横向接收(发射)天线,可以实现地层方位的预测和判断,同时方位电磁波电阻率成像结果受相对井斜角、地层电导率对比以及地层地质构造的影响;利用方位电阻率成像以及定向信号成像结果可以预测和判断层界面、地层方位特征以及各向异性地层走向;幅度比电阻率成像效果优于相位差电阻率成像;在均匀各向异性介质中,线圈距和工作频率越大,视电阻率受垂向电阻率影响越大;线圈距越大,定向幅度信号越强,能预测的层界面的距离越大。 Azimuthal propagation resistivity while drilling imaging data plays important role in geosteering. The electromagnetic field of different tool face has been simulated by three-dimensional finite difference method; the azimuthal resist analyzed. The numerical results show that a ivity measurement principle and imaging method is then dding tilt or transverse antenna to conventional logging while drilling (LWD) resistivity tools could get azimuth of formation. The imaging is influenced by relative deviation angles, resistivity contrast and geological structure. The imaging data can be used to forecast and determine formation boundaries, azimuth and anisotropic formation strikes. The amplitude ratio resistivity imaging is better than phase shift resistivity. In homogenous anisotropic medium, the larger coils spacing and higher frequency, the greater the influence of vertical resistivity to apparent resistivity. The bigger coil spacing, the stronger directional amplitude signals and the farther prediction distance to formation boundaries.
作者 杨震 杨锦舟 韩来聚
机构地区 中石化胜利油田博士后科研工作站 中石化胜利石油工程有限公司钻井工艺研究院
出处 《吉林大学学报(地球科学版)》 EI CAS CSCD 北大核心 2013年第6期2035-2043,共9页 Journal of Jilin University:Earth Science Edition
基金 国家科技重大专项(2011ZX05022-003)
关键词 随钻方位电阻率 成像 倾斜或横向天线 地质导向 : azimuthal resistivity while drilling imaging tilted or transverse antenna geosteering
分类号 P631.811 [天文地球—地质矿产勘探]
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参考文献15

  • 1Kennedy W D, Corley B, Painchaud S, et al. Geo steering Using Deep Resistivity Images from Azimuthal and Multiple Propagation Resistivity[C]// SPWLA50th Annual Logging Symposium. Houston: Society of Petrophysicists and Well. Log Analysts, 2009 : ZZ.
  • 2Li Q, Omeragic D, Chou L, et al. New Directional Electromagnetic Tool for Proactive Geosteering and Accurate Formation Evaluation While Drilling[C]// SPWLA 46th Annual Logging Symposium. Houston.. Society of Petrophysicists and Well Log Analysts, 2005 : UU.
  • 3Bittar M S, Klein J, Beste R,et al. A New Azimuthal Deep Reading Resistivity Tool. for Geosteering and Advanced Formation Evaluation [ C ]./SPE Annual Technical Conference and Exhibition Transactions. Dallas: Society of Petroleum Engineers, 2007, SPE 109971.
  • 4Zhang Z Y, Gonguet C, Rajan V, et al. Directional LWD Resistivity Tools and Their Business Impacts [C]//SPWI.A 49th Annual Logging Symposium. Houston: Society of Petrophysicists and Well Log Analysts, 2008 : FFFF.
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  • 7梁灿彬,秦光戎,梁竹健.电磁学[M1.北京:高等教育出版社,1985.
  • 8杨震,范宜仁,文艺,邓少贵.三维频率域随钻电磁波测井数值模拟[J].地球物理学进展,2009,24(5):1833-1838. 被引量:14
  • 9陈华,范宜仁,邓少贵,李智强,杨震.水平井中随钻电阻率实时确定地层界面方法[J].吉林大学学报(地球科学版),2011,41(5):1623-1629. 被引量:16
  • 10Wang T. Method of Generating a Deep Resistivity Image in LWD Measurements: US, 7483793B2[J]. 2009 - 1 - 27.

二级参考文献39

共引文献63

同被引文献147

引证文献19

二级引证文献131

吉林大学学报(地球科学版)
2013年 第6期

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