Using borehole electroseismic measurements to detect and characterize fractured (permeable) zones
TLDR
In this article, the authors measured Stoneley wave induced electrical fields in an uncased water well drilled in fractured granite and diorite near Hamilton, Massachusetts, and confirmed that they were induced by fluid flow in the fractured formation.Abstract:
In 1996, we measured Stoneley‐wave‐induced electrical fields in an uncased water well drilled in fractured granite and diorite near Hamilton, Massachusetts. Stoneley waves generated by sledgehammer blows to the surface casing produced a flow of pore fluid in permeable zones intersected by the borehole. In turn, this flow induced a streaming electrical field. Even though these electrical signals were very small (tens of microvolts), we were able to detect them using electrodes placed in the borehole, after power line and telluric signals were canceled by remote referencing and notch‐filtering. Amplitude analysis of the electrical fields confirmed that they were induced by fluid flow in the fractured formation. The normalized amplitudes of these electrical fields correlate with the fracture density log and agree with the theoretical model for this electroseismic phenomenon. Our Biot‐theory‐based model predicts that borehole electroseismic measurements can be used to characterize permeable zones. According t...read more
Citations
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Seismoelectric wave conversions in porous media: Field measurements and transfer function analysis
TL;DR: In this paper, a series of field experiments showing the transient electric fields generated by a seismic excitation of the subsurface were conducted, and it was shown that the electric field accompanying the compressional waves is approximately proportional to the grain acceleration.
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Full waveform numerical simulations of seismoelectromagnetic wave conversions in fluid‐saturated stratified porous media
TL;DR: In this paper, a full-waveform modeling technique of coupled seismoelectromagnetic wave propagation in fluid-saturated stratified porous media is presented, where the coupling mechanism is explained by electrokinetic effects taking place at the pore level.
Book
The Self-Potential Method: Theory and Applications in Environmental Geosciences
André Revil,Abderrahim Jardani +1 more
TL;DR: This paper presents a simple model of the Stern layer and the u-p formulation of poroelasticity, and discusses the applications to water resources, geohazards, and hydrothermal systems.
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Seismoelectric response of heavy oil reservoirs: theory and numerical modelling
André Revil,Abderrahim Jardani +1 more
TL;DR: In this article, the authors considered a linear poroelastic material filled with a linear viscoelastic solvent like wet heavy oils (oil as opposed to water or brines is wetting the surfaces of the pores).
Journal ArticleDOI
Stochastic joint inversion of 2D seismic and seismoelectric signals in linear poroelastic materials: A numerical investigation
TL;DR: In this article, a stochastic joint inversion of the seismic and seismoelectrical data based on the adaptive Metropolis algorithm is presented to obtain the posterior probability density functions of the material properties of each geologic unit.
References
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Experimental and theoretical basis of electrokinetic phenomena in rock‐water systems and its applications to geophysics
Tsuneo Ishido,Hitoshi Mizutani +1 more
TL;DR: In this article, the authors measured the ζ potentials and the streaming potential coefficients of silicate mineral-water and rock-water systems for purposes of estimating the magnitude of electrokinetic effects induced by water diffusion in the earth's interior.
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Velocities of seismic waves in porous rocks
TL;DR: In this article, the effect of confining pressure on velocities of seismic compressional and shear waves in porous rocks under different saturation conditions are calculated theoretically and compared with laboratory data.