Resolution of electrical imaging of fluid movement in landfills
Resolution of electrical imaging of fluid movement in landfills
This paper investigates the efficacy of time-lapse electrical imaging using surface electrodes to monitor the movement of leachate within a landfill. A laboratory-based study allowed direct comparison between observed physical dewatering and time-lapse electrical imaging data. In combination with a forward modelling study this demonstrated the limitations and advantages of this geophysical technique in terms of its applicability, resolution and complementarity to conventional dewatering monitoring techniques. It also confirmed the nature, likely magnitude and impact of artefacts created by the resistivity inversion process and highlighted the potential for misinterpretation of results. An 18-month study provided field results comparing hydrogeological and imaging data during the dewatering of a real landfill system. Insights gained from the laboratory study and forward modelling exercise greatly enhanced the interpretation of the field data, enabling the method to be applied with greater confidence in the future. The need to combine a forward modelling exercise with any interpretation of resistivity data is clearly demonstrated
79-96
Jolly, J.M.
ca46e7c7-173c-4660-906e-ff76d7673be5
Beaven, R.P.
5893d749-f03c-4c55-b9c9-e90f00a32b57
Barker, R.D.
e948e1ac-208f-4c06-830d-a65e5f538184
May 2011
Jolly, J.M.
ca46e7c7-173c-4660-906e-ff76d7673be5
Beaven, R.P.
5893d749-f03c-4c55-b9c9-e90f00a32b57
Barker, R.D.
e948e1ac-208f-4c06-830d-a65e5f538184
Jolly, J.M., Beaven, R.P. and Barker, R.D.
(2011)
Resolution of electrical imaging of fluid movement in landfills.
Proceedings of the Institution of Civil Engineers - Waste and Resource Management, 164 (2), .
(doi:10.1680/warm.2011.164.2.79).
Abstract
This paper investigates the efficacy of time-lapse electrical imaging using surface electrodes to monitor the movement of leachate within a landfill. A laboratory-based study allowed direct comparison between observed physical dewatering and time-lapse electrical imaging data. In combination with a forward modelling study this demonstrated the limitations and advantages of this geophysical technique in terms of its applicability, resolution and complementarity to conventional dewatering monitoring techniques. It also confirmed the nature, likely magnitude and impact of artefacts created by the resistivity inversion process and highlighted the potential for misinterpretation of results. An 18-month study provided field results comparing hydrogeological and imaging data during the dewatering of a real landfill system. Insights gained from the laboratory study and forward modelling exercise greatly enhanced the interpretation of the field data, enabling the method to be applied with greater confidence in the future. The need to combine a forward modelling exercise with any interpretation of resistivity data is clearly demonstrated
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Jolly_Beaven_et_al_2011.pdf
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Published date: May 2011
Organisations:
Civil Engineering & the Environment
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Local EPrints ID: 186875
URI: http://eprints.soton.ac.uk/id/eprint/186875
ISSN: 1747-6526
PURE UUID: d4f0d48c-87d1-4131-880b-795932a36296
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Date deposited: 16 May 2011 10:30
Last modified: 15 Mar 2024 02:53
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Author:
J.M. Jolly
Author:
R.D. Barker
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