X-ray imaging and analysis techniques for quantifying pore-scale structure and processes in subsurface porous medium systems

Dorthe Wildenschild; Adrian P. Sheppard

doi:10.1016/j.advwatres.2012.07.018

X-ray imaging and analysis techniques for quantifying pore-scale structure and processes in subsurface porous medium systems

Dorthe Wildenschild^*, Adrian P. Sheppard

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

1047 Citations (Scopus)

Abstract

We report here on recent developments and advances in pore-scale X-ray tomographic imaging of subsurface porous media. Our particular focus is on immiscible multi-phase fluid flow, i.e., the displacement of one immiscible fluid by another inside a porous material, which is of central importance to many natural and engineered processes. Multiphase flow and displacement can pose a rather difficult problem, both because the underlying physics is complex, and also because standard laboratory investigation reveals little about the mechanisms that control micro-scale processes. X-ray microtomographic imaging is a non-destructive technique for quantifying these processes in three dimensions within individual pores, and as we report here, with rapidly increasing spatial and temporal resolution.

Original language	English
Pages (from-to)	217-246
Number of pages	30
Journal	Advances in Water Resources
Volume	51
DOIs	https://doi.org/10.1016/j.advwatres.2012.07.018
Publication status	Published - Jan 2013

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10.1016/j.advwatres.2012.07.018

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title = "X-ray imaging and analysis techniques for quantifying pore-scale structure and processes in subsurface porous medium systems",

abstract = "We report here on recent developments and advances in pore-scale X-ray tomographic imaging of subsurface porous media. Our particular focus is on immiscible multi-phase fluid flow, i.e., the displacement of one immiscible fluid by another inside a porous material, which is of central importance to many natural and engineered processes. Multiphase flow and displacement can pose a rather difficult problem, both because the underlying physics is complex, and also because standard laboratory investigation reveals little about the mechanisms that control micro-scale processes. X-ray microtomographic imaging is a non-destructive technique for quantifying these processes in three dimensions within individual pores, and as we report here, with rapidly increasing spatial and temporal resolution.",

keywords = "Image analysis and quantification, Multi-phase flow, Porous media characterization, X-ray tomography",

author = "Dorthe Wildenschild and Sheppard, {Adrian P.}",

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language = "English",

volume = "51",

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journal = "Advances in Water Resources",

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AU - Wildenschild, Dorthe

AU - Sheppard, Adrian P.

PY - 2013/1

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N2 - We report here on recent developments and advances in pore-scale X-ray tomographic imaging of subsurface porous media. Our particular focus is on immiscible multi-phase fluid flow, i.e., the displacement of one immiscible fluid by another inside a porous material, which is of central importance to many natural and engineered processes. Multiphase flow and displacement can pose a rather difficult problem, both because the underlying physics is complex, and also because standard laboratory investigation reveals little about the mechanisms that control micro-scale processes. X-ray microtomographic imaging is a non-destructive technique for quantifying these processes in three dimensions within individual pores, and as we report here, with rapidly increasing spatial and temporal resolution.

AB - We report here on recent developments and advances in pore-scale X-ray tomographic imaging of subsurface porous media. Our particular focus is on immiscible multi-phase fluid flow, i.e., the displacement of one immiscible fluid by another inside a porous material, which is of central importance to many natural and engineered processes. Multiphase flow and displacement can pose a rather difficult problem, both because the underlying physics is complex, and also because standard laboratory investigation reveals little about the mechanisms that control micro-scale processes. X-ray microtomographic imaging is a non-destructive technique for quantifying these processes in three dimensions within individual pores, and as we report here, with rapidly increasing spatial and temporal resolution.

KW - Image analysis and quantification

KW - Multi-phase flow

KW - Porous media characterization

KW - X-ray tomography

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DO - 10.1016/j.advwatres.2012.07.018

M3 - Article

SN - 0309-1708

VL - 51

SP - 217

EP - 246

JO - Advances in Water Resources

JF - Advances in Water Resources

ER -

X-ray imaging and analysis techniques for quantifying pore-scale structure and processes in subsurface porous medium systems

Abstract

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