Micro-Petrophysical Experiments Via Tomography and Simulation: Micro-Petrophysical experiments

M. Kumar; E. Lebedeva; Y. Melean; M. Madadi; A. P. Sheppard; T. K. Varslot; A. M. Kingston; S. J. Latham; R. M. Sok; A. Sakellariou; C. H. Arns; T. J. Senden; M. A. Knackstedt

doi:10.1002/9781118557723.ch29

Micro-Petrophysical Experiments Via Tomography and Simulation: Micro-Petrophysical experiments

M. Kumar^*, E. Lebedeva, Y. Melean, M. Madadi, A. P. Sheppard, T. K. Varslot, A. M. Kingston, S. J. Latham, R. M. Sok, A. Sakellariou, C. H. Arns, T. J. Senden, M. A. Knackstedt

^*Corresponding author for this work

Research output: Chapter in Book/Report/Conference proceeding › Chapter › peer-review

6 Citations (SciVal)

Abstract

Increasingly, x-ray micro-tomography is being used in the observation and prediction of petrophysical properties. To support this field there is a vital need to have well integrated and parallel research programs in hardware development, structural description and physical property modeling. There is a constant need to validate simulation with physical measurement, and vice versa. Greatly assisting these demands is the ability to perform direct image-based registration in which the tomograms of successively disturbed (dissolved, fractured, cleaned, etc) specimens can be correlated to an original undisturbed state in 3D. In addition, 2D microscopy of prepared sections tie chemical analysis back to the 3D datasets giving a multimodal assessment.

Original language	English
Title of host publication	Advances in Computed Tomography for Geomaterials
Subtitle of host publication	GeoX 2010
Publisher	John Wiley and Sons
Pages	238-253
Number of pages	16
ISBN (Print)	9781848211797
DOIs	https://doi.org/10.1002/9781118557723.ch29
Publication status	Published - 21 Jan 2013

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Kumar, M., Lebedeva, E., Melean, Y., Madadi, M., Sheppard, A. P., Varslot, T. K., Kingston, A. M., Latham, S. J., Sok, R. M., Sakellariou, A., Arns, C. H., Senden, T. J., & Knackstedt, M. A. (2013). Micro-Petrophysical Experiments Via Tomography and Simulation: Micro-Petrophysical experiments. In Advances in Computed Tomography for Geomaterials: GeoX 2010 (pp. 238-253). John Wiley and Sons. https://doi.org/10.1002/9781118557723.ch29

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abstract = "Increasingly, x-ray micro-tomography is being used in the observation and prediction of petrophysical properties. To support this field there is a vital need to have well integrated and parallel research programs in hardware development, structural description and physical property modeling. There is a constant need to validate simulation with physical measurement, and vice versa. Greatly assisting these demands is the ability to perform direct image-based registration in which the tomograms of successively disturbed (dissolved, fractured, cleaned, etc) specimens can be correlated to an original undisturbed state in 3D. In addition, 2D microscopy of prepared sections tie chemical analysis back to the 3D datasets giving a multimodal assessment.",

keywords = "Micro-tomography, Petrophysics, Quantitative analysis, Visualization",

author = "M. Kumar and E. Lebedeva and Y. Melean and M. Madadi and Sheppard, \{A. P.\} and Varslot, \{T. K.\} and Kingston, \{A. M.\} and Latham, \{S. J.\} and Sok, \{R. M.\} and A. Sakellariou and Arns, \{C. H.\} and Senden, \{T. J.\} and Knackstedt, \{M. A.\}",

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doi = "10.1002/9781118557723.ch29",

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Kumar, M, Lebedeva, E, Melean, Y, Madadi, M , Sheppard, AP, Varslot, TK, Kingston, AM , Latham, SJ, Sok, RM, Sakellariou, A, Arns, CH, Senden, TJ & Knackstedt, MA 2013, Micro-Petrophysical Experiments Via Tomography and Simulation: Micro-Petrophysical experiments. in Advances in Computed Tomography for Geomaterials: GeoX 2010. John Wiley and Sons, pp. 238-253. https://doi.org/10.1002/9781118557723.ch29

TY - CHAP

T1 - Micro-Petrophysical Experiments Via Tomography and Simulation

T2 - Micro-Petrophysical experiments

AU - Kumar, M.

AU - Lebedeva, E.

AU - Melean, Y.

AU - Madadi, M.

AU - Sheppard, A. P.

AU - Varslot, T. K.

AU - Kingston, A. M.

AU - Latham, S. J.

AU - Sok, R. M.

AU - Sakellariou, A.

AU - Arns, C. H.

AU - Senden, T. J.

AU - Knackstedt, M. A.

PY - 2013/1/21

Y1 - 2013/1/21

N2 - Increasingly, x-ray micro-tomography is being used in the observation and prediction of petrophysical properties. To support this field there is a vital need to have well integrated and parallel research programs in hardware development, structural description and physical property modeling. There is a constant need to validate simulation with physical measurement, and vice versa. Greatly assisting these demands is the ability to perform direct image-based registration in which the tomograms of successively disturbed (dissolved, fractured, cleaned, etc) specimens can be correlated to an original undisturbed state in 3D. In addition, 2D microscopy of prepared sections tie chemical analysis back to the 3D datasets giving a multimodal assessment.

AB - Increasingly, x-ray micro-tomography is being used in the observation and prediction of petrophysical properties. To support this field there is a vital need to have well integrated and parallel research programs in hardware development, structural description and physical property modeling. There is a constant need to validate simulation with physical measurement, and vice versa. Greatly assisting these demands is the ability to perform direct image-based registration in which the tomograms of successively disturbed (dissolved, fractured, cleaned, etc) specimens can be correlated to an original undisturbed state in 3D. In addition, 2D microscopy of prepared sections tie chemical analysis back to the 3D datasets giving a multimodal assessment.

KW - Micro-tomography

KW - Petrophysics

KW - Quantitative analysis

KW - Visualization

UR - https://www.scopus.com/pages/publications/84886536775

U2 - 10.1002/9781118557723.ch29

DO - 10.1002/9781118557723.ch29

M3 - Chapter

AN - SCOPUS:84886536775

SN - 9781848211797

SP - 238

EP - 253

BT - Advances in Computed Tomography for Geomaterials

PB - John Wiley and Sons

ER -

Micro-Petrophysical Experiments Via Tomography and Simulation: Micro-Petrophysical experiments

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