Quantitative Two‐Layer Conductivity Inversion of Multi‐Configuration Electromagnetic Induction Measurements

Autor: Achim Mester, Jan van derKruk, Egon Zimmermann, Harry Vereecken
Jazyk: angličtina
Rok vydání: 2011
Předmět:
Zdroj: Vadose Zone Journal, Vol 10, Iss 4, Pp 1319-1330 (2011)
Druh dokumentu: article
ISSN: 1539-1663
DOI: 10.2136/vzj2011.0035
Popis: Electromagnetic induction (EMI) measurements return an apparent electrical conductivity that represents a weighted average of the electrical conductivity distribution over a certain depth range. Different sensing depths are obtained for different orientations, different coil offsets, and different frequencies, which, in principle, can be used for a multi‐layer inversion. However, instrumental shifts, which often occur in EMI data, prevent the use of quantitative multi‐layer inversion. Recently, a new calibration method was developed that uses electrical resistivity tomography (ERT) inversion results and returns quantitative apparent conductivity values. Here, we introduce an inversion scheme that uses calibrated EMI data and inverts for a two‐layer earth. The inversion minimizes the misfit between the measured and modeled magnetic field by a combined global and local search and does not use any smoothing parameter. Application of this new scheme to synthetic data demonstrates its efficacy in providing the required physical property information. Inversion of calibrated experimental EMI data using horizontal coplanar (HCP) and vertical coplanar (VCP) loop configurations, coil offsets of 1 and 1.22 m, and frequencies of 8 and 15 kHz provides lateral and vertical conductivity variations very similar to those observed in an elaborate ERT experiment. The inversion is verified using synthetic EMI data calculated from ERT data. Inverting quantitative EMI data using this two‐layer inversion enables the quantitative mapping of lateral and vertical electrical conductivity variations over large areas.
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