Modeling low-frequency electrode-type resistivity tools in 2-D formations

Author

Liu, Qing-Huo ; Anderson, Barbara ; Cho Chew, Weng

Author_Institution

Schlumberger-Doll Res., Ridgefield, CT, USA

fYear

1993

fDate

18-21 Aug 1993

Firstpage

273

Abstract

Derives the low-frequency approximation of the Maxwell´s equations to obtain the partial differential equation for the potential field. The authors then formulate and implement a numerical mode-matching (NMM) method to solve this two-dimensional potential field in order to model electrode-type resistivity tools in invaded thin beds. The new NMM program is validated by comparing the numerical results with those obtained from other DC programs. It is found that this new program is much faster than the program using the finite-element method (FEM), and hence is useful for routine interpretation of resistivity logs. The authors illustrate one application of the NMM program with an inversion of multiple field logs

Keywords

electromagnetic induction; geophysical equipment; geophysical prospecting; geophysical techniques; inverse problems; terrestrial electricity; EM method; Maxwell´s equations; NMM program; borehole method; electrical resistivity method; equipment; geology; geophysical measurement technique; interpretation; low frequency electrode type resistivity tool; low-frequency approximation; multiple field log; numerical mode matching; partial differential equation; potential field; prospecting; resistivity log; thin bed; two dimensional; well logging; Conductivity; Dielectric constant; Electromagnetic measurements; Finite element methods; Frequency; Integral equations; Maxwell equations; Nonhomogeneous media; Probes; Well logging;

fLanguage

English

Publisher

ieee

Conference_Titel

Geoscience and Remote Sensing Symposium, 1993. IGARSS '93. Better Understanding of Earth Environment., International

Conference_Location

Tokyo

Print_ISBN

0-7803-1240-6

Type

conf

DOI

10.1109/IGARSS.1993.322548

Filename

322548