Dependence of borehole shear-horizontal-wave seismoelectric response on soil textures

Weihao Wang, Zhiwen Cui, Jinxia Liu, Tribikram Kundu

Research output: Contribution to journalArticlepeer-review

Abstract

The phenomenon of acoustic waves inducing electric fields in porous media is called the seismoelectric effect. Earlier investigators proposed the usage of seismoelectric effect for well logging. Soil texture has a strong influence on the coupled wave fields during shallow surface explorations. In this article, we study the borehole pure shear-horizontal wave and the coupling transverse-electric field (acoustic–electrical coupling wave fields) in the partially saturated soil. Combined with related theories, we expand the formation parameters to partially saturated forms and discuss the influence of soil texture conditions on the seismoelectric wave fields. The results show that the elastic and electrical properties of porous media are sensitive to water saturation. The compositions of the acoustic and electric fields for different soil textures do not change, but the waveforms differ. We also use the secant integral method to simulate the interface-converted electromagnetic waves. The results show that interface response strength is greatly influenced by soil texture. In addition, considering the sensitivity of the inducing electric field to fluid salinity, we also simulate the time-domain waveforms of electric field for different pore fluid salinity levels. The results show that as the salinity increases, the electric field amplitude decreases monotonically. The above conclusions have certain significance for the application of borehole shear wave and its coupled electric fields for resource exploration, saturation assessment and groundwater pollution monitoring.

Original languageEnglish (US)
Pages (from-to)250-266
Number of pages17
JournalGeophysical Prospecting
Volume69
Issue number1
DOIs
StatePublished - Jan 2021

Keywords

  • Borehole geophysics
  • Electromagnetic
  • Numerical study
  • Reservoir geophysics

ASJC Scopus subject areas

  • Geophysics
  • Geochemistry and Petrology

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