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Rapid non-contacting resistivity logging of core
Jackson, P.D.; Lovell, M.A.; Roberts, J.A.; Schultheiss, P.J.; Gunn, D.; Flint, R.C.; Wood, A.; Holmes, R.; Frederichs, T. (2006). Rapid non-contacting resistivity logging of core, in: Rothwell, R.G. (Ed.) New techniques in sediment core analysis. Geological Society Special Publication, 267: pp. 209-217
In: Rothwell, R.G. (Ed.) (2006). New techniques in sediment core analysis. Geological Society Special Publication, 267. Geological Society: London. ISBN 1-86239-210-2. 266 pp. https://dx.doi.org/10.1144/GSL.SP.2006.267, more
In: Hartley, A.J. et al. (Ed.) Geological Society Special Publication. Geological Society of London: Oxford; London; Edinburgh; Boston, Mass.; Carlton, Vic.. ISSN 0305-8719; e-ISSN 2041-4927, more

Keyword
    Marine/Coastal

Authors  Top 
  • Jackson, P.D.
  • Lovell, M.A.
  • Roberts, J.A.
  • Schultheiss, P.J.
  • Gunn, D.
  • Flint, R.C.
  • Wood, A.
  • Holmes, R.
  • Frederichs, T.

Abstract
    We demonstrate a non-contact approach to whole-core and split-core resistivity measurements, imaging a 15 mm-thick, dipping, conductive layer, producing a continuous log of the whole core and enabling the development of a framework to allow representative plugs to be taken, for example. Applications include mapping subtle changes in grain fabric (e.g. grain shape) caused by variable sedimentation rates, for example, as well as the well-known dependencies on porosity and water saturation. The method operates at relatively low frequencies (i.e. low induction numbers), needing highly sensitive coil pairs to provide resistivity measurements at the desired resolution. A four-coil arrangement of two pairs of transmitter and receiver coils is used to stabilize the measurement. One 'coil pair' acts as a control, enabling the effects of local environmental variations, which can be considerable, to be removed from the measurement at source. Comparing our non-contact approach and independent traditional 'galvanic' resistivity measurements indicates that the non-contact measurements are directly proportional to the reciprocal of the sample resistivity (i.e. conductivity). The depth of investigation is discussed in terms of both theory and practical measurements, and the response of the technique to a variety of synthetic 'structures' is presented. We demonstrate the potential of the technique for rapid electrical imaging of core and present a whole-core image of a dipping layer with azimuthal discrimination at a resolution of the order of 10 mm. Consequently, the technique could be used to investigate different depths within the core, in agreement with theoretical predictions.

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