Near-Surface Geophysics 2005
DOI: 10.1190/1.9781560801719.ch14
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14. Laboratory Measurements of Velocity and Attenuation in Sediments

Abstract: Laboratory measurements are required to establish relationships between the physical properties of unconsolidated sediments and P-and S-wave propagation through them. Previous work has either focused on measurements of compressional wave properties at depths greater than 500 m for oil industry applications or on measurements of dynamic shear properties at pressures corresponding to depths of less than 50 m for geotechnical applications. Therefore, the effects of lithology, fluid saturation, and compaction on i… Show more

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Cited by 22 publications
(26 citation statements)
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“…Assuming the same physical properties for both main aquifers (layers 2 and 4; Table 1), theoretical velocities versus pore pressure has been computed in order to verify the possibility to detect overpressures through seismic data analysis. Laboratory measurements indicate the following relationship between compressional ( V P ) and shear ( V S ) velocities and effective pressure p e, which is the confining pressure reduced by the pore pressure (Prasad et al 2004): where the coefficients a i and b i are obtained by fitting the model parameters to the V P and V S values reported in Table 1 and c 1 was fixed equal to the value proposed by Prasad et al (2004). The values of a 1 and b 1 obtained from the fit are 973.4 and 985.2 respectively, while a 2 and b 2 are equal to 662.6 and 0.349 respectively.…”
Section: Preliminary Modellingmentioning
confidence: 99%
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“…Assuming the same physical properties for both main aquifers (layers 2 and 4; Table 1), theoretical velocities versus pore pressure has been computed in order to verify the possibility to detect overpressures through seismic data analysis. Laboratory measurements indicate the following relationship between compressional ( V P ) and shear ( V S ) velocities and effective pressure p e, which is the confining pressure reduced by the pore pressure (Prasad et al 2004): where the coefficients a i and b i are obtained by fitting the model parameters to the V P and V S values reported in Table 1 and c 1 was fixed equal to the value proposed by Prasad et al (2004). The values of a 1 and b 1 obtained from the fit are 973.4 and 985.2 respectively, while a 2 and b 2 are equal to 662.6 and 0.349 respectively.…”
Section: Preliminary Modellingmentioning
confidence: 99%
“…Assuming the same physical properties for both main aquifers (layers 2 and 4; Table 1), theoretical velocities versus pore pressure has been computed in order to verify the possibility to detect overpressures through seismic data analysis. Laboratory measurements indicate the following relationship between compressional (V P ) and shear (V S ) velocities and effective pressure p e, which is the confining pressure reduced by the pore pressure (Prasad et al 2004):…”
Section: Figurementioning
confidence: 99%
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“…1776-1781, doi: 10.1190 surface velocity models, such as P-wave tomography, can perform poorly on loose granular formations, due to their low quality factor, which causes high attenuation (Prasad et al, 2004;Carpentier et al, 2012). The poor quality factor of soft, uncompacted granular media affects indeed the propagation of SWs as well.…”
Section: Introductionmentioning
confidence: 98%
“…Other authors found similar high values of Poisson's ratio for dry glass beads and sands (Prasad and Meissner 1992;Jia and Mills 2001;Kuwano and Jardine 2002). In the figure, we plot upper and lower bounds for Poisson's ratio suggested by Prasad et al (2004) as reference for dry granular systems. The majority of the data presented here lay inside this range.…”
Section: T E S T O F T H E M O D I F I E D G R a I N C O N T A C T T mentioning
confidence: 77%