Complete gas-brine imbibition relative permeability curves increase confidence in gas field performance

M. Ben Clennell; Cameron White; Ausama Giwelli; Matt Myers

doi:10.1080/22020586.2019.12073189

2nd Australasian Exploration Geoscience Conference: Data to Discovery

ISSN: 2202-0586
E-ISSN:

oa Complete gas-brine imbibition relative permeability curves increase confidence in gas field performance
Authors M. Ben Clennell^a, Cameron White^b, Ausama Giwelli^c and Matt Myers^d
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^a CSIRO Energy Kensington, , WA, [email protected] ^b CSIRO Energy Kensington, , WA, [email protected] ^c CSIRO Energy Kensington, , WA, [email protected] ^d CSIRO Energy Kensington, , WA, [email protected]
Publisher: Australian Society of Exploration Geophysicists
Source: ASEG Extended Abstracts, Volume 2019, Issue 2nd Australasian Exploration Geoscience Conference: Data to Discovery, Dec 2019, p. 1 - 3
DOI: https://doi.org/10.1080/22020586.2019.12073189
- Published online: 01 Dec 2019

Abstract

Summary

The standard methods used for measuring gas relative permeability during brine imbibition have been found to be inadequate as the resulting curves are incomplete and may include invalid points. CSIRO, together with an industry partner, developed new methods to improve on existing special core analysis, and generate substantially more complete gas relative permeability curves for samples from a NW Shelf gas field and also a Berea sandstone sample considered as a laboratory standard.

The true relative permeability curve is typically ‘S’ shaped or has a rolling over, convex-up shape that is completely different from the concave-up shape of the Corey relperm curve usually fitted to SCAL test data and also assumed in reservoir simulations models as the default.

Using the complete and more accurate relative permeability curves can give reservoir engineers more confidence in field development planning, and along the life of the field should result in better history matching. There may also be an economic upside if the reservoir produces gas at a high rate for longer than was originally predicted based on the old relperm curves.

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2026-01-17

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References

Cense, A., Reed, J., Egermann, 2016. SCAL for gas reservoirs: a contribution for better experiments. Society of Core Analysts Annual Symposium, Paper SCA2016-023.
Corey, A.T. 1954. The interrelation between gas and oil relative permeabilities. Producers Monthly, 19, 38-41.
Lomeland, F., Ebeltoft, E. and Thomas, W.H. 2005. A new versatile relative permeability correlation. SCA 2005-32. Society of Core Analysts.
Maloney, D., Doggett, K. and Gilliland, R. 1994. New procedure and apparatus for combined reservoir condition gas-brine relative permeability, capillary pressure and electrical property measurements. Society of Core Analysts Annual Symposium, Paper SCA-9427.
McPhee, C., Reed, J. and Zubizarreta, I., 2015. Core Analysis: A Best Practice Guide. Elsevier.

/content/journals/10.1080/22020586.2019.12073189

Article Type: Research Article

Keyword(s): gas reservoir engineering; permeability; Petrophysics; reservoir characterization

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oa Complete gas-brine imbibition relative permeability curves increase confidence in gas field performance

Abstract

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