Relation between seismic source parameters and mechanical properties of rocks: A case study |
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Authors: | Bruno Feignier Jean-Robert Grasso |
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Affiliation: | (1) Observatoire de Grenoble, Laboratoire de Geophysique Interne et Tectonophysique, IRIGM, BP 53X, 38041 Grenoble Cedex, France;(2) Present address: Engineering Seismology Laboratory, Department of Geological Sciences, Queen's University, K7L3N6 Kingston, Ont., Canada |
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Abstract: | This study attempts to determine the relation between source parameters and mechanical properties of the rock matrix in which the microseismic events occur. For this purpose, accurate geological, mechanical and seismological data were acquired on a gas field experiencing induced seismicity due to its reservoir pressure drop. More than 30 deep boreholes (depth greater than 4 km) are concentrated in a 10×10×5 km volume, providing core samples for both geological and mechanical assessment. In this study, we focus on induced seismic events recorded by the local seismic network, over a three-year-long period. Characteristics of the seismic sources were obtained using spectral analysis and a dynamic model of failure. Results point out correlation between physical parameters of the seismic sources and the geomechanical properties of the rocks involved. Maximal static stress drops are found to be associated with the mechanical strength of the geological strata where the rupture occurs. The fracture size, using a circular model of failure, is also found to be dependent on the geomechanical setting. It is found that the size of the seismic fractures is dependent on the layer thickness and the prefracturation of the medium, both factors influencing the extension of preexisting discontinuities. The parameters of the seismic sources also show important changes when the gas reservoir is reached. The reservoir unit experienced a 45 MPa pore fluid pressure drop over a period of 20 years. |
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Keywords: | Induced seismicity source parameters stress drops rock mechanics strength |
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