Time-lapse ERT interpretation methodology for leachate injection monitoring based on multiple inversions and a clustering strategy (MICS)

Leachate recirculation is a key process in municipal waste landfills functioning as bioreactors. To quantify the water content and to assess the leachate injection system, in-situ methods are required to obtain spatially distributed information, usually electrical resistivity tomography (ERT). This...

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Bibliographic Details
Published in:Journal of applied geophysics 2014-12, Vol.111, p.320-333
Main Authors: Audebert, M., Clément, R., Touze-Foltz, N., Günther, T., Moreau, S., Duquennoi, C.
Format: Article
Language:English
Subjects:
Clustering
Electrical resistivity
Electrical resistivity tomography
Environmental Sciences
Hydrodynamics
Infiltration
Inversions
Leachate
Leachates
Mathematical models
Methodology
Strategy
Time-lapse inversion
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Summary:Leachate recirculation is a key process in municipal waste landfills functioning as bioreactors. To quantify the water content and to assess the leachate injection system, in-situ methods are required to obtain spatially distributed information, usually electrical resistivity tomography (ERT). This geophysical method is based on the inversion process, which presents two major problems in terms of delimiting the infiltration area. First, it is difficult for ERT users to choose an appropriate inversion parameter set. Indeed, it might not be sufficient to interpret only the optimum model (i.e. the model with the chosen regularisation strength) because it is not necessarily the model which best represents the physical process studied. Second, it is difficult to delineate the infiltration front based on resistivity models because of the smoothness of the inversion results. This paper proposes a new methodology called MICS (multiple inversions and clustering strategy), which allows ERT users to improve the delimitation of the infiltration area in leachate injection monitoring. The MICS methodology is based on (i) a multiple inversion step by varying the inversion parameter values to take a wide range of resistivity models into account and (ii) a clustering strategy to improve the delineation of the infiltration front. In this paper, MICS was assessed on two types of data. First, a numerical assessment allows us to optimise and test MICS for different infiltration area sizes, contrasts and shapes. Second, MICS was applied to a field data set gathered during leachate recirculation on a bioreactor. •This study presents the new MICS methodology for ERT time-lapse monitoring.•MICS is based on a multiple inversion step and a clustering strategy.•MICS allows ERT users to improve the delimitation of the infiltration area.•This paper focuses on the MICS application for leachate infiltration monitoring.•MICS was assessed on numerical and field data sets (gathered on a bioreactor).
ISSN:0926-9851
1879-1859
DOI:10.1016/j.jappgeo.2014.09.024