Virtual core laboratory: Properties of reservoir rock derived from X-ray CT images

Christoph H. Arns; Arthur Sakellariou; Tim J. Senden; Adrian P. Sheppard; Robert M. Sok; Mark A. Knackstedt; W. Val Pinczewski; Graham F. Bunn

Virtual core laboratory: Properties of reservoir rock derived from X-ray CT images

Christoph H. Arns, Arthur Sakellariou, Tim J. Senden, Adrian P. Sheppard, Robert M. Sok, Mark A. Knackstedt, W. Val Pinczewski, Graham F. Bunn

Research output: Contribution to conference › Paper › peer-review

Abstract

We demonstrate that accurate predictions of petrophysical properties can be made directly from digitized tomographic images. Computations of both transport (formation factor and permeability) and elastic properties from micro-tomographic images of a suite of Fontainebleau sandstone are shown to be in excellent agreement with experimental measurements over a wide range of porosities (5% < φ < 25%). Four small (5 mm i.d.) plugs from a producing gas field have also been analysed. Unlike Fontainebleau, these four cores exhibit a broad range of pore and grain sizes, porosity and mineralogy. Computations of permeability and capillary pressure are made directly on the digitized tomographic images and compared to laboratory core measurements. The results are in excellent agreement. The very small sample size required for imaging may allow representative petrophysical data to be obtained from sidewall cores and drill cuttings.

Original language	English
Publication status	Published - 2003
Event	2003 Society of Exploration Geophysicists Annual Meeting, SEG 2003 - Dallas, United States Duration: 26 Oct 2003 → 31 Oct 2003

Conference

Conference	2003 Society of Exploration Geophysicists Annual Meeting, SEG 2003
Country/Territory	United States
City	Dallas
Period	26/10/03 → 31/10/03

Cite this

@conference{1d6eb9940a624e40844fa116cc608f9c,

title = "Virtual core laboratory: Properties of reservoir rock derived from X-ray CT images",

abstract = "We demonstrate that accurate predictions of petrophysical properties can be made directly from digitized tomographic images. Computations of both transport (formation factor and permeability) and elastic properties from micro-tomographic images of a suite of Fontainebleau sandstone are shown to be in excellent agreement with experimental measurements over a wide range of porosities (5% < φ < 25%). Four small (5 mm i.d.) plugs from a producing gas field have also been analysed. Unlike Fontainebleau, these four cores exhibit a broad range of pore and grain sizes, porosity and mineralogy. Computations of permeability and capillary pressure are made directly on the digitized tomographic images and compared to laboratory core measurements. The results are in excellent agreement. The very small sample size required for imaging may allow representative petrophysical data to be obtained from sidewall cores and drill cuttings.",

author = "Arns, {Christoph H.} and Arthur Sakellariou and Senden, {Tim J.} and Sheppard, {Adrian P.} and Sok, {Robert M.} and Knackstedt, {Mark A.} and {Val Pinczewski}, W. and Bunn, {Graham F.}",

note = "Publisher Copyright: {\textcopyright} 2003 SEG Annual Meeting. All rights reserved.; 2003 Society of Exploration Geophysicists Annual Meeting, SEG 2003 ; Conference date: 26-10-2003 Through 31-10-2003",

year = "2003",

language = "English",

}

TY - CONF

T1 - Virtual core laboratory

T2 - 2003 Society of Exploration Geophysicists Annual Meeting, SEG 2003

AU - Arns, Christoph H.

AU - Sakellariou, Arthur

AU - Senden, Tim J.

AU - Sheppard, Adrian P.

AU - Sok, Robert M.

AU - Knackstedt, Mark A.

AU - Val Pinczewski, W.

AU - Bunn, Graham F.

PY - 2003

Y1 - 2003

N2 - We demonstrate that accurate predictions of petrophysical properties can be made directly from digitized tomographic images. Computations of both transport (formation factor and permeability) and elastic properties from micro-tomographic images of a suite of Fontainebleau sandstone are shown to be in excellent agreement with experimental measurements over a wide range of porosities (5% < φ < 25%). Four small (5 mm i.d.) plugs from a producing gas field have also been analysed. Unlike Fontainebleau, these four cores exhibit a broad range of pore and grain sizes, porosity and mineralogy. Computations of permeability and capillary pressure are made directly on the digitized tomographic images and compared to laboratory core measurements. The results are in excellent agreement. The very small sample size required for imaging may allow representative petrophysical data to be obtained from sidewall cores and drill cuttings.

AB - We demonstrate that accurate predictions of petrophysical properties can be made directly from digitized tomographic images. Computations of both transport (formation factor and permeability) and elastic properties from micro-tomographic images of a suite of Fontainebleau sandstone are shown to be in excellent agreement with experimental measurements over a wide range of porosities (5% < φ < 25%). Four small (5 mm i.d.) plugs from a producing gas field have also been analysed. Unlike Fontainebleau, these four cores exhibit a broad range of pore and grain sizes, porosity and mineralogy. Computations of permeability and capillary pressure are made directly on the digitized tomographic images and compared to laboratory core measurements. The results are in excellent agreement. The very small sample size required for imaging may allow representative petrophysical data to be obtained from sidewall cores and drill cuttings.

UR - http://www.scopus.com/inward/record.url?scp=85056120375&partnerID=8YFLogxK

M3 - Paper

AN - SCOPUS:85056120375

Y2 - 26 October 2003 through 31 October 2003

ER -

Virtual core laboratory: Properties of reservoir rock derived from X-ray CT images

Abstract

Conference

Other files and links

Fingerprint

Cite this