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Article Dans Une Revue Journal of Contaminant Hydrology Année : 2009

Ionic contribution to the self-potential signals associated with a redox front

Résumé

In contaminant plumes or in the case of ore bodies, a source current density is produced at depth in response to the presence of a gradient of the redox potential. Two charge carriers can exist in such a medium: electrons and ions. Two contributions to the source current density are associated with these charge carriers (i) the gradient of the chemical potential of the ionic species and (ii) the gradient of the chemical potential of the electrons (i.e., the gradient of the redox potential). We ran a set of experiments in which a geobattery is generated using electrolysis reactions of a pore water solution containing iron. A DC power supply is used to impose a difference of electrical potential of 3 V between a working platinum electrode (anode) and an auxiliary platinum electrode (cathode). Both electrodes inserted into a tank filled with a well-calibrated sand infiltrated by a (0.01 mol L−1 KCl+0.0035 mol L−1 FeSO4) solution. After the direct current is turned off, we follow the pH, the redox potential, and the self-potential at several time intervals. The self-potential anomalies amount to a few tens of millivolts after the current is turned off and decreases over time. After several days, all the redox-active compounds produced initially by the electrolysis reactions are consumed through chemical reactions and the self-potential anomalies fall to zero. The resulting self-potential anomalies are shown to be much weaker than the self-potential anomalies observed in the presence of an electronic conductor in the laboratory or in the field. In the presence of a biotic or an abiotic electronic conductor, the self-potential anomalies can amount to a few hundred millivolts. These observations point out indirectly the potential role of bacteria forming biofilms in the transfer of electrons through sharp redox potential gradient in contaminant plumes that are rich in organic matter
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Dates et versions

hal-00440289 , version 1 (26-09-2017)

Identifiants

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A. Revil, F. Trolard, J. Castermant, Abderrahim Jardani, C.A. Mendonça. Ionic contribution to the self-potential signals associated with a redox front. Journal of Contaminant Hydrology, 2009, 109, pp.27-39. ⟨10.1016/j.jconhyd.2009.07.008⟩. ⟨hal-00440289⟩
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