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Australian Energy Producers Journal Australian Energy Producers Journal Society
Journal of Australian Energy Producers
RESEARCH ARTICLE (Non peer reviewed)

Sweet-spot mapping of the Goldwyer Formation through formation evaluation and property modelling in the Canning Basin, Barbwire Terrace case study

Munther Alshakhs A B and Reza Rezaee A
+ Author Affiliations
- Author Affiliations

A Curtin University, Department of Petroleum Engineering, 26 Dick Perry Avenue, Kensington, WA 6152, Australia.

B Corresponding author. Email: munther.alshakhs@postgrad.curtin.edu.au

The APPEA Journal 57(2) 692-697 https://doi.org/10.1071/AJ16045
Accepted: 28 February 2017   Published: 29 May 2017

Abstract

The Goldwyer Formation of the Canning Basin has been regarded as a highly prospective shale petroleum play. This study assesses the potential prospectivity of this source rock as an unconventional hydrocarbon resource via property modelling. Considering the sparsity of wells penetrating the Middle Ordovician Goldwyer across the vast under-explored area of the Canning Basin, a basin-wide study of the source rock is not justified. Due to a higher well density, assessment of the Goldwyer Formation within the Barbwire Terrace, a sub-division of the Canning Basin, is carried out instead.

This assessment includes the estimation of key shale play properties, such as, total organic carbon, total porosity, water saturation, and brittleness. Each property was estimated from available well wireline log data by testing multiple estimation methods. Total organic carbon values were derived from multiple regressions of different well data. A simplified Archie’s equation was used to estimate water saturation. Density porosity method was used for total porosity estimations. Sonic data along with density were utilised to estimate the brittleness index.

Each property was then modelled across the Barbwire Terrace, which provided geostatistical estimates on the propagation of each parameter. In order to generate sweet spot maps, averaged maps of the properties were combined in a weighted manner.

In the model, the Goldwyer Formation was divided into three layers based on dominant lithology. The uppermost shale dominated layer was predicted by the model to be the most prospective stratigraphic zone. The sweet spot maps highlight the southern flanks of the northern and western part of the Barbwire Terrace as the highest prospective geographic locations. This approach attempts to simplify the complexity of unconventional resource assessment, and has provided a single product evaluating the prospectivity of the Goldwyer as a hydrocarbon resource.

Munther Alshakhs has a BSc in Geophysics from the University of Leeds, UK. He has 7 years of experience in the oil and gas industry. For the last four years, his work has focussed on shale gas exploration and he is currently doing his MPhil in Petroleum Engineering at Curtin University.

Professor Reza Rezaee of Curtin’s Department of Petroleum Engineering has a PhD in Reservoir Characterisation. He has over 25 years’ experience in academia. He has supervised over 70 MSc and PhD students during his university career to date. He has published more than 130 peer-reviewed journal and conference papers and is the author of four books on petroleum geology, logging and log interpretation, and gas shale reservoirs. His research has focussed on integrated solutions for reservoir characterisation, formation evaluation, and petrophysics. Currently, he is focussed on unconventional gas including shale gas and tight gas sand studies. He established Curtin University’s Unconventional Gas Research Group in 2010. He is the winner of an Australian gas innovation award for his innovation on tight gas sand treatment for gas production enhancement.


References

Archie, G.E. (1942). The electrical resistivity log as an aid in determining some reservoir characteristics. Transactions of the AIME 146, 54–62.

Grieser, W. V., and Bray, J.M. (2007). Identification of production potential in unconventional reservoirs. SPE 106623. In ‘Production and Operations Symposium’, 31 March–3 April 2007, Oklahoma City, OK.

Haines, P.W. (2004). Depositional facies and regional correlations of the Ordovician Goldwyer and Nita Formations Canning Basin, Western Australia with implications for petroleum exploration. Western Australia Geological Survey record 2004/7. Department of Minerals and Energy, East Perth.

Luffel, D.L., and Guidry, F.K. (1992). New core analysis methods for measuring reservoir rock properties of Devonian Shale. Journal of Petroleum Technology 44, 1184–1190.
New core analysis methods for measuring reservoir rock properties of Devonian Shale.Crossref | GoogleScholarGoogle Scholar |

Rezaee R. (2015). Fundamentals of gas shale reservoirs. (John Wiley & Sons: Hoboken, NJ.)

Rickman, R., Mullen, M., Petre, E., Grieser, B., and Kundert, D. (2008). A practical use of shale petrophysics for stimulation design optimization: all shale plays are not clones of the Barnett Shale. SPE 115258. In ‘SPE Annual Technical Conference and Exhibition’, 21–24 September 2008, Denver, CO.

Triche, N. E., and Bahar, M. (2013). Shale gas volumetrics of unconventional resource plays in the Canning Basin, Western Australia. SPE 167078. Presented at the ‘SPE Unconventional Resources Conference and Exhibition – Asia Pacific’, 11–13 November 2013, Qld.

Department of Mines and Petroleum (2017). WA Petroleum & Geothermal Information Management System (WAPIMS). Available at https://wapims.dmp.wa.gov.au/WAPIMS/ [Verified 2 March 2017].