1996
DOI: 10.1029/96gl00776
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Transport in sandstone: A study based on three dimensional microtomography

Abstract: High resolution imaging of the microstructure of Fontainebleau sandstone allows a direct comparison between theoretical calculations and laboratory measurements. While porosity, pore-volume-to-surface ratio, permeability, and end point relative permeability are well predicted by our calculations, we find that electrical resistivity and wetting phase residual saturation are both overestimated. Introduction Transport in porous media is of importance in biology, chemical engineering, earth and environmental scien… Show more

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Cited by 219 publications
(97 citation statements)
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“…[5] X-ray computed microtomography (X-CMT) performed at a synchrotron research center provides the ability to obtain three-dimensional, in situ observations of the internal structure of materials with micron-scale resolution [Auzerais et al, 1996;Flannery et al, 1987;Li et al, 2006;Spanne et al, 1994;Wildenschild et al, 2005]. The distributions of individual elements can be determined by performing difference tomography, where the X-rays used to image the sample are selected to be just below and above the absorption edge of the element of interest.…”
Section: X-ray Difference Microtomographymentioning
confidence: 99%
“…[5] X-ray computed microtomography (X-CMT) performed at a synchrotron research center provides the ability to obtain three-dimensional, in situ observations of the internal structure of materials with micron-scale resolution [Auzerais et al, 1996;Flannery et al, 1987;Li et al, 2006;Spanne et al, 1994;Wildenschild et al, 2005]. The distributions of individual elements can be determined by performing difference tomography, where the X-rays used to image the sample are selected to be just below and above the absorption edge of the element of interest.…”
Section: X-ray Difference Microtomographymentioning
confidence: 99%
“…8 The complex 3D pores are represented as coupled cluster of micron length scale cubes in which a large number of random walkers (typically 10 4 − 10 5 in numbers) are deployed to simulate a variety of MR measurements. For M α , we obtain the internal field by numerically evaluating dipole contributions from all surrounding chambers.…”
Section: Applicationmentioning
confidence: 99%
“…Several recent studies (see for example Auzerais et al 1996;Coles et al 1998;Schaap et al 2007;Sukop et al 2008) compared their numerical calculations with digital images of natural samples obtained by X-ray tomography and found a good agreement at both the microscale (location of the fluid phases) and the macroscale (capillary pressure-saturation conditions).…”
Section: Lb Scheme For Immiscible Fluid Flows In Porous Mediamentioning
confidence: 99%