A Numerical 1.5D Method for the Rapid Simulation of Geophysical Resistivity Measurements

Mostafa Shahriari; Sergio Rojas; David Pardo; Angel Rodríguez-Rozas; Shaaban  A. Bakr; Victor  M. Calo; Ignacio Muga

doi:10.3390/geosciences8060225

Geosciences (Jun 2018)

A Numerical 1.5D Method for the Rapid Simulation of Geophysical Resistivity Measurements

Mostafa Shahriari,
Sergio Rojas,
David Pardo,
Angel Rodríguez-Rozas,
Shaaban A. Bakr,
Victor M. Calo,
Ignacio Muga

Affiliations

Mostafa Shahriari: Basque Center for Applied Mathematics (BCAM), Mazarredo 14, E48009 Bilbao, Spain
Sergio Rojas: Applied Geology, Western Australian School of Mines, Faculty of Science and Engineering, Curtin University, Perth, WA 6845, Australia
David Pardo: Basque Center for Applied Mathematics (BCAM), Mazarredo 14, E48009 Bilbao, Spain
Angel Rodríguez-Rozas: Basque Center for Applied Mathematics (BCAM), Mazarredo 14, E48009 Bilbao, Spain
Shaaban A. Bakr: Basque Center for Applied Mathematics (BCAM), Mazarredo 14, E48009 Bilbao, Spain
Victor M. Calo: Applied Geology, Western Australian School of Mines, Faculty of Science and Engineering, Curtin University, Perth, WA 6845, Australia
Ignacio Muga: Instituto de Matemáticas, Pontificia Universidad Católica de Chile, Valparaíso 2350026, Chile

DOI: https://doi.org/10.3390/geosciences8060225
Journal volume & issue: Vol. 8, no. 6
p. 225

Abstract

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In some geological formations, borehole resistivity measurements can be simulated using a sequence of 1D models. By considering a 1D layered media, we can reduce the dimensionality of the problem from 3D to 1.5D via a Hankel transform. The resulting formulation is often solved via a semi-analytic method, mainly due to its high performance. However, semi-analytic methods have important limitations such as, for example, their inability to model piecewise linear variations on the resistivity. Herein, we develop a multi-scale finite element method (FEM) to solve the secondary field formulation. This numerical scheme overcomes the limitations of semi-analytic methods while still delivering high performance. We illustrate the performance of the method with numerical synthetic examples based on two symmetric logging-while-drilling (LWD) induction devices operating at 2 MHz and 500 KHz, respectively.

Published in Geosciences

ISSN: 2076-3263 (Online)
Publisher: MDPI AG
Country of publisher: Switzerland
LCC subjects: Science: Geology
Website: https://www.mdpi.com/journal/geosciences

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