Author_Institution :
Dept. of Electr. & Comput. Eng., Duke Univ., Durham, NC, USA
Abstract :
Summary form only given. During the past two decades there has been increasing interest in the cross well imaging of the subsurface for oil exploration applications. As more and more deviated and horizontal wells are drilled in an attempt to increase the oil production, the azimuthal symmetry no longer holds. Up to present, many numerical methods have been developed for the forward modeling of 3-D cross well logging, including the finite element method (C. Li, B. Xiong, and Y. Lv, Geophysical and Geochemical Exploration, 36, 585-590, 2012), stabilized biconjugate gradient fast Fourier transform method (BCGS-FFT) (Z. Q. Zhang, and Q. H. Liu, Trans. Geosci. and Remote Sens., 41, 998-1104, 2003) and extended Born approximation (H. Tseng and K. Lee, Twenty-Ninth Workshop on Geothermal Reservoir Engineering, 2004).
Keywords :
computational electromagnetics; conjugate gradient methods; electromagnetic fields; fast Fourier transforms; finite element analysis; nanoparticles; oil technology; well logging; 3D cross well logging; BCGS-FFT; azimuthal symmetry; cross well subsurface imaging; electromagnetic fields enhancement; extended Born approximation; finite element method; horizontal wells; nanoparticles; oil exploration; stabilized biconjugate gradient fast Fourier transform method; Computational modeling; Conductivity; Electromagnetic fields; Nanoparticles; Permeability; Reservoirs; Solid modeling;
