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New technique of electrical soundings: theoretical modeling and experimental application in study of state of the soil dam

New technique of electrical soundings: theoretical modeling and experimental application in study... The results of mathematical modeling of electrical soundings with the AMNB (Schlumberger, Wenner) arrays and the proposed combined AMN + NMA array above horizontally layered medium and including a ball medium are presented. It is shown that the combined array has two main advantages: the current penetration depth is greater at the same position of outer electrodes of the considered arrays; edge effects are smaller due to bilateral measurements with respect to the central receiving electrode; a geoelectric inhomogeneity is delineated at the pseudosections of the apparent resistivity. The quantitative interpretation of the sounding curves obtained with the AMN + NMA array can be carried out by an existing software for inversing of data of the symmetric Wenner (AMNB) array with electrode spacing equal to 1/3 of supplying dipole. The results of application of the new technique of electrical soundings by the combined array in the study of state of the dam on sedimentation tank of liquid chemicals are presented. On the geoelectric sections and the pseudosections of the apparent resistivity, areas of increased electrical conductivity in body and base of the dam are detected. Filtration of water from the reservoir occurs through these areas. Soundings with the AMN + NMA array are expedient for studying of a geological medium at small depths where the medium is horizontally-heterogeneous, and also for solving of engineering-geological problems. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png "Acta Geodaetica et Geophysica" Springer Journals

New technique of electrical soundings: theoretical modeling and experimental application in study of state of the soil dam

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Publisher
Springer Journals
Copyright
Copyright © Akadémiai Kiadó 2019
Subject
Earth Sciences; Geophysics/Geodesy
ISSN
2213-5812
eISSN
2213-5820
DOI
10.1007/s40328-019-00277-1
Publisher site
See Article on Publisher Site

Abstract

The results of mathematical modeling of electrical soundings with the AMNB (Schlumberger, Wenner) arrays and the proposed combined AMN + NMA array above horizontally layered medium and including a ball medium are presented. It is shown that the combined array has two main advantages: the current penetration depth is greater at the same position of outer electrodes of the considered arrays; edge effects are smaller due to bilateral measurements with respect to the central receiving electrode; a geoelectric inhomogeneity is delineated at the pseudosections of the apparent resistivity. The quantitative interpretation of the sounding curves obtained with the AMN + NMA array can be carried out by an existing software for inversing of data of the symmetric Wenner (AMNB) array with electrode spacing equal to 1/3 of supplying dipole. The results of application of the new technique of electrical soundings by the combined array in the study of state of the dam on sedimentation tank of liquid chemicals are presented. On the geoelectric sections and the pseudosections of the apparent resistivity, areas of increased electrical conductivity in body and base of the dam are detected. Filtration of water from the reservoir occurs through these areas. Soundings with the AMN + NMA array are expedient for studying of a geological medium at small depths where the medium is horizontally-heterogeneous, and also for solving of engineering-geological problems.

Journal

"Acta Geodaetica et Geophysica"Springer Journals

Published: Mar 25, 2020

References

  • Tectonic evolution and hydrogeological characteristics of the Khanaser valley, northern Syria, derived from the interpretation of vertical electrical soundings
    Asfahani, J
  • New approaches to electrical soundings of horizontally inhomogeneous media
    Bobachev, AA; Marchenko, MN; Modin, IN; Pervago, EV; Urusova, AV; Shevnin, VA
  • Detecting small-scale targets by the 2D inversion of two-sided three-electrode data: application to an archaeological survey
    Candansayar, ME; Basokur, T
  • A modified Wenner array for efficient use of eight-channel resistivity meters
    Cubbage, B; Noonan, GE; Rucker, DF
  • New method of electrical soundings with three-electrode planting
    Fedorova, OI
  • Modeling of electrical soundings with planting AMNB and combined planting AMN + NMA above local inhomogeneities
    Fedorova, OI
  • Geoelectric resistivity sounding for delineating salt water intrusion in the Abu Zenima area, west Sinai, Egypt
    Khalil, MH
  • 2D and 3D resistivity inversion of Schlumberger vertical electrical soundings in Wadi El Natrum, Egypt: a case study
    Khalil, MA; Santos, FAM
  • Geoelectrical characterization with 1D VES/TDEM joint inversion in Urupes-SP region, Parana Basin: application to hydrogeology
    Leite, DN; Bortolozo, CA; Porsani, JL; Couto, MA; Campaña, JDR
  • Rapid least-squares inversion of apparent resistivity pseudosection by a quasi-Newton method
    Loke, MH; Barker, RD
  • Standard, random and optimum array conversions from two-pole resistance data
    Rucker, DF; Glaser, DR
  • On the 3-D inversion vertical of vertical electrical soundings: application to the South Ismailia area—Cairo Desert Roud, Cairo, Egypt
    Santos, FAM; Sultan, AS
  • Use of vertical electrical soundings to delineate seawater intrusion in coastal area of Byunsan, Korea
    Song, SH; Lee, JY; Park, N
  • Estimation of groundwater levels with vertical electrical soundings in the semiarid area of South Keerqin sandy aquifer, China
    Song, L; Zhu, JJ; Qiaoling, Y; Hongzhang, K