Evidence of Nonlinear Seismic Effects in the Earth from Downhole Distributed Acoustic Sensors

Author:

Yurikov Alexey,Gurevich BorisORCID,Tertyshnikov Konstantin,Lebedev Maxim,Isaenkov RomanORCID,Sidenko EvgeniiORCID,Yavuz SinemORCID,Glubokovskikh Stanislav,Shulakova Valeriya,Freifeld Barry,Correa Julia,Wood Todd J.,Beresnev Igor A.,Pevzner RomanORCID

Abstract

Seismic velocities and elastic moduli of rocks are known to vary significantly with applied stress, which indicates that these materials exhibit nonlinear elasticity. Monochromatic waves in nonlinear elastic media are known to generate higher harmonics and combinational frequencies. Such effects have the potential to be used for broadening the frequency band of seismic sources, characterization of the subsurface, and safety monitoring of civil engineering infrastructure. However, knowledge on nonlinear seismic effects is still scarce, which impedes the development of their practical applications. To explore the potential of nonlinear seismology, we performed three experiments: two in the field and one in the laboratory. The first field experiment used two vibroseis sources generating signals with two different monochromatic frequencies. The second field experiment used a surface orbital vibrator with two eccentric motors working at different frequencies. In both experiments, the generated wavefield was recorded in a borehole using a fiber-optic distributed acoustic sensing cable. Both experiments showed combinational frequencies, harmonics, and other intermodulation products of the fundamental frequencies both on the surface and at depth. Laboratory experiments replicated the setup of the field test with vibroseis sources and showed similar nonlinear combinations of fundamental frequencies. Amplitudes of the nonlinear signals observed in the laboratory showed variation with the saturating fluid. These results confirm that nonlinear components of the wavefield propagate as body waves, are likely to generate within rock formations, and can be potentially used for reservoir fluid characterization.

Funder

Department of Industry Innovation and Science

Publisher

MDPI AG

Subject

Electrical and Electronic Engineering,Biochemistry,Instrumentation,Atomic and Molecular Physics, and Optics,Analytical Chemistry

Reference39 articles.

1. Bourbie, T., Coussy, O., and Zinszner, B. (1987). Acoustics of Porous Media, Editions TECHNIP.

2. The effect of cracks on the compressibility of rock;Walsh;J. Geophys. Res. (1896–1977),1965

3. Experimental investigations of nonlinear seismic effects;Beresnev;Phys. Earth Planet. Inter.,1988

4. A model for nonlinear seismic waves in a medium with instability;Beresnev;Phys. D Nonlinear Phenom.,1993

5. Solid earth tide and observed change in the in situ seismic velocity;Aki;J. Geophys. Res. (1896–1977),1973

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