Combining Electrical Resistivity, Induced Polarization, and Self-Potential for a Better Detection of Ore Bodies - Archive ouverte HAL
Article Dans Une Revue Minerals Année : 2023

Combining Electrical Resistivity, Induced Polarization, and Self-Potential for a Better Detection of Ore Bodies

Zhaoyang Su
Ahmad Ghorbani
Xiang Zhao
Jessy Richard
  • Fonction : Auteur

Résumé

Electrical resistivity (ER), induced polarization (IP), and self-potential (SP) are three geophysical methods that have been broadly used in the realm of mineral exploration. These geophysical methods provide complementary information, each exhibiting a distinct sensitivity to various types of mineral deposits. Considering the relationship among these three methods, we propose an integrated approach that merges their respective information to offer an improved localization technique for ore bodies. First, we invert the electrical conductivity distribution through electrical resistance tomography (ERT). Then, we use the inverted conductivity distribution to invert the IP and SP data in terms of chargeability and source current density distributions. Then, we normalize the inverted chargeability and source current density distributions and we combine them to obtain an ore body index (ORI) χ used to delineate the potential locations of ore deposits. We design this index to be sensitive to the presence of ore bodies, which are reflected by either strong and localized source current density (SP) and/or strong chargeability values (IP). The proposed method is first validated using a synthetic model with two distinct anomalies characterized by different properties. The results show the limitation of individual inversion, as each method exclusively detects one of these anomalies. The combined approach allows a better characterization of the target. Then, the approach is applied to a sandbox experiment in which two metallic bodies are buried in water-saturated sand used as the background. Again, the proposed methodology is successfully applied to the detection of the metallic targets, improving their localization compared with individual methods.
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Dates et versions

hal-04424735 , version 1 (29-01-2024)

Identifiants

Citer

Zhaoyang Su, André Revil, Ahmad Ghorbani, Xin Zhang, Xiang Zhao, et al.. Combining Electrical Resistivity, Induced Polarization, and Self-Potential for a Better Detection of Ore Bodies. Minerals, 2023, 14, ⟨10.3390/min14010012⟩. ⟨hal-04424735⟩

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