地质学
随钻测井
反演(地质)
方位角
各向异性
电阻率和电导率
储层建模
钻探
随钻测量
反变换采样
地球物理成像
井筒
地球物理学
地震学
几何学
石油工程
计算机科学
光学
材料科学
电信
冶金
工程类
构造学
物理
数学
表面波
电气工程
作者
Michael Thiel,Dževat Omeragić
出处
期刊:Geophysics
[Society of Exploration Geophysicists]
日期:2019-08-30
卷期号:84 (6): D217-D230
被引量:17
标识
DOI:10.1190/geo2018-0752.1
摘要
Deep-directional electromagnetic (EM) logging-while-drilling technology can map reservoir boundaries and fluid contacts for strategic geosteering, reservoir navigation, and more recently, for reservoir characterization. The inversion-based resistivity mapping is used to make real-time geosteering decisions and to refine and update the reservoir model during and after drilling. Traditional 1D and 2D inversion approaches ignore the lateral changes of the reservoir, which are contained in the azimuthally sensitive measurements and only provide a longitudinal 2D representation of the 3D reservoir structure around the well. A new 2D lateral imaging inversion uses the full azimuthal sensitivity of the measurements to map the vertical and lateral resistivity heterogeneities around the wellbore. A 2.5D EM solver is run in a Gauss-Newton optimization to reconstruct the measurements in complex scenarios and determine the 2D anisotropic resistivity distribution in an imaging plane along with the orientation of the formation invariant direction with respect to the wellbore. Continuous 2D imaging along the well path generates a 3D reservoir resistivity map in the proximity of the wellbore.
科研通智能强力驱动
Strongly Powered by AbleSci AI