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Imaging the Deep Structures of Los Humeros Geothermal Field, Mexico, Using Three‐Component Seismic Noise Beamforming

 
: Löer, K.; Toledo, T.; Norini, G.; Zhang, X.; Curtis, A.; Saenger, E.H.

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Seismological research letters 91 (2020), No.6, pp.3269-3277
ISSN: 0895-0695 (Print)
ISSN: 1938-2057 (Online)
English
Journal Article
Fraunhofer IEG ()

Abstract
We present a 1D shear‐velocity model for Los Humeros geothermal field (Mexico) obtained from three‐component beamforming of ambient seismic noise, imaging for the first time the bottom of the sedimentary basement ∼5  km below the volcanic caldera, as well as the brittle‐ductile transition at ∼10  km depth. Rayleigh‐wave dispersion curves are extracted from ambient seismic noise measurements and inverted using a Markov chain Monte Carlo scheme. The resulting probability density function provides the shear‐velocity distribution down to 15 km depth, hence, much deeper than other techniques applied in the area. In the upper 4 km, our model conforms to a profile from local seismicity analysis and matches geological structure inferred from well logs, which validates the methodology. Complementing information from well logs and outcrops at the near surface, discontinuities in the seismic profile can be linked to geological transitions allowing us to infer structural information of the deeper subsurface. By constraining the extent of rocks with brittle behavior and permeability conditions at greater depths, our results are of paramount importance for the future exploitation of the reservoir and provide a basis for the geological and thermodynamic modeling of active superhot geothermal systems, in general.

: http://publica.fraunhofer.de/documents/N-621373.html