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Joint elastic‐electrical properties of reservoir sandstones and their relationships with petrophysical parameters
Authors:Angus I. Best  Jeremy Sothcott  Lucy M. MacGregor
Affiliation:1. National Oceanography Centre, Southampton, University of Southampton Waterfront Campus, European Way, Southampton, SO14 3ZH, UK;2. OHM Ltd, The Technology Centre Offshore Technology Park, Claymore Drive, Bridge of Don, Aberdeen, AB23 8GD, UK
Abstract:We measured in the laboratory ultrasonic compressional and shear‐wave velocity and attenuation (0.7–1.0 MHz) and low‐frequency (2 Hz) electrical resistivity on 63 sandstone samples with a wide range of petrophysical properties to study the influence of reservoir porosity, permeability and clay content on the joint elastic‐electrical properties of reservoir sandstones. P‐ and S‐wave velocities were found to be linearly correlated with apparent electrical formation factor on a semi‐logarithmic scale for both clean and clay‐rich sandstones; P‐ and S‐wave attenuations showed a bell‐shaped correlation (partial for S‐waves) with apparent electrical formation factor. The joint elastic‐electrical properties provide a way to discriminate between sandstones with similar porosities but with different clay contents. The laboratory results can be used to estimate sandstone reservoir permeability from seismic velocity and apparent formation factor obtained from co‐located seismic and controlled source electromagnetic surveys.
Keywords:Joint elastic‐electrical properties  Petrophysical properties  Reservoir sandstones
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