Results of hydraulic fracturing design improvements and changes in execution strategies for unconventional tight gas targets in the Cooper Basin, Australia
Raymond JohnsonA School of Chemical Engineering, The University of Queensland, Brisbane, Qld 4072, Australia.
B Real Energy Corporation Limited, Level 3, 32 Walker Street, North Sydney, NSW 2060, Australia.
C Corresponding author. Email: r.johnsonjr@uq.edu.au
The APPEA Journal 59(1) 244-259 https://doi.org/10.1071/AJ18185
Submitted: 6 December 2018 Accepted: 22 February 2019 Published: 17 June 2019
Abstract
Tight gas stimulations in the Cooper Basin have been challenged by strike–slip to reverse stress regimes, adversely affecting the hydraulic fracturing treatment. These stress conditions increase borehole breakout and affect log and cement quality, create more tortuous pathways and near-wellbore pressure loss, and reduce fracture containment. These factors result in stimulation of lower permeability, low modulus intervals (e.g. carbonaceous shales and interbedded coals) versus targeted tight gas sands. In the Windorah Trough of the Cooper Basin, several steps have been employed in an ongoing experiment to improve hydraulic fracturing results. First, the wellbore was deviated in the maximum horizontal stress direction and perforations shot 0 to 180° phased to better align the resulting hydraulic fractures. Next, existing drilling and logging-while-drilling data were used to train a machine learning model to improve reservoir characterisation in sections with missing or poor log data. Finally, diagnostic fracture injection tests in non-pay and pay sections were targeted to specifically inform the machine learning model and better constrain permeability and stress profiles. It is envisaged that the improved well and perforation alignment and better targeting of intervals for the fracturing treatment will result in lowered tortuosity, better fracture containment, and higher concentrations of localised proppant, thereby improving conductivity and targeting of desired intervals. The authors report the process and results of their experimentation, and the results relative to the offsetting vertical well where a typical five-stage treatment was employed.
Keywords: completion optimisation, machine learning, strike–slip stress regime, synthetic logs.
Raymond (Ray) L. Johnson, Jr is presently Professor of Well Engineering and Production Technology at the University of Queensland, School of Chemical Engineering, and serves as Adjunct Associate Professor at the University of Adelaide. He has a PhD in Mining Engineering, an MSc in Petroleum Engineering, a Graduate Diploma in Information Technology, and a BA in Chemistry. Ray has been active in the Society of Petroleum Engineers (SPE), past chair of the SPE Queensland Section, 2013 and 2015 co-Chair of the SPE Unconventional Reservoir Conference and Exhibition Asia Pacific, and Technical Award Recipient of SPE Regional Awards in 2011 and 2017. He has been actively involved as an author and researcher in the areas of reservoir geomechanics, hydraulic fracture design execution and evaluation, and unconventional resource development. |
Ruizhi Zhong is a postdoctoral research fellow in the School of Chemical Engineering at the University of Queensland. His research interests include drilling engineering, machine learning, hydraulic fracturing, and geomechanics. His recent work involves the application of machine learning for drilling applications. He holds a PhD in Petroleum Engineering from the University of Tulsa and an MSc degree in Petroleum and Natural Gas Engineering from West Virginia University. He is a member of SPE. |
Mr Lan Nguyen is the co-founder and Chairman of Real Energy Corporation Ltd. He holds a BSc (Mining Engineer-Geologist) degree majoring in petroleum exploration from the Institute of Oil and Chemistry, Baku, Azerbaijan, and a MSc in Petroleum Geology from the University of New England, Australia. He is currently a member of the Petroleum Exploration Society of Australia (PESA), the American Association of Petroleum Geologists (AAPG) and the SPE. Mr Nguyen is credited with the discovery and development of many oil and gas fields in the Surat-Bowen Basins through his innovative introduction of various exploration, drilling, and completion technologies to Queensland and Australia. |
References
Abass, H. H., Hedayati, S., and Meadows, D. L. (1996). Nonplanar fracture propagation from a horizontal wellbore: experimental study. SPE Production & Facilities 11, 133–137.| Nonplanar fracture propagation from a horizontal wellbore: experimental study.Crossref | GoogleScholarGoogle Scholar |
Barree, R. D. (1983). A practical numerical simulator for three-dimensional fracture propagation in heterogeneous media. In ‘SPE Reservoir Simulation Symposium, San Francisco, CA, 15–18 November 1983.’ (Society of Petroleum Engineers)
Bentley, P. J. D., Megorden, M. P., and Jiang, H. (2013). Improving hydraulic fracture geometry by directional drilling in coal seam gas formation. In ‘SPE Unconventional Resources Conference and Exhibition-Asia Pacific, Brisbane, 11–13 November 2013.’ (Society of Petroleum Engineers)
Bocking, M. (2018). Evidence for glacial and polar impacts in the Permian coal measures of the Sydney Basin. ASEG Extended Abstracts 2018, 1–8.
| Evidence for glacial and polar impacts in the Permian coal measures of the Sydney Basin.Crossref | GoogleScholarGoogle Scholar |
Chen, T., and Guestrin, C. (2016). XGBoost: a scalable tree boosting system. In ‘KDD16. Proceedings of the 22nd ACM SIGKDD International Conference on Knowledge Discovery and Data Mining, San Francisco, CA, 13–17 August 2016.’ pp. 785–794. (ACM: New York)
Gilbert, J. V., Greenstreet, C. W., and Bainbrigge, P. R. (2005). Application of pinpoint fracturing in the Cooper Basin, Australia. In ‘SPE Annual Technical Conference and Exhibition, Dallas, TX, 9–12 October 2015.’ (Society of Petroleum Engineers)
Heidbach, O., Rajabi, M., Reiter, K., Ziegler, M. and WSM Team (2016): World Stress Map Database Release 2016. GFZ Data Services. http://doi.org/10.5880/WSM.2016.001
Hossain, M. M., Rahman, M. K., and Rahman, S. S. (2000). Hydraulic fracture initiation and propagation: roles of wellbore trajectory, perforation and stress regimes. Journal of Petroleum Science Engineering 27, 129–149.
| Hydraulic fracture initiation and propagation: roles of wellbore trajectory, perforation and stress regimes.Crossref | GoogleScholarGoogle Scholar |
Johnson, R. L., Jr., Aw, K. P., Ball, D., and Willis, M. (2002). Completion, Perforating and hydraulic fracturing design changes yield success in an area of problematic frac placement - the Cooper Basin, Australia. In ‘SPE Asia Pacific Oil and Gas Conference and Exhibition, Melbourne, 8–10 October 2002.’ (Society of Petroleum Engineers)
Johnson, R. L., Jr. 2016 Improving diagnostic fracture injection testing for in situ stress profiling, reservoir characterisation and well optimisation in unconventional gas reservoirs. In ‘IC3G 2016, International Conference on Geomechanics, Geo‐energy and Geo‐resources, Melbourne, Vic., Australia.’ (IC3G: Melbourne.)
Johnson, R. L., Jr, and Greenstreet, C. W. (2003). Managing uncertainty related to hydraulic fracturing modeling in complex stress environments with pressure-dependent leakoff. In ‘SPE Annual Technical Conference and Exhibition, Denver, CO, 5–8 October 2003.’ (Society of Petroleum Engineers)
Johnson, R. L. J., Nguyen, L., and Russel, T. (2016). Next steps to crack the code on tight Permian Toolachee and Patchawarra sandstones of the Cooper Basin, Southwest Queensland. The APPEA Journal 56, 533.
| Next steps to crack the code on tight Permian Toolachee and Patchawarra sandstones of the Cooper Basin, Southwest Queensland.Crossref | GoogleScholarGoogle Scholar |
McGowen, J. M., Gilbert, J. V., and Samari, E. (2007). Hydraulic fracturing down under. In ‘SPE Hydraulic Fracturing Technology Conference, College Station, TX, 29–31 January 2007.’ (Society of Petroleum Engineers.)
Mullen, M., Roundtree, R., and Barree, R. D. (2007). A composite determination of mechanical rock properties for stimulation design (what to do when you don’t have a sonic log). In ‘Rocky Mountain Oil & Gas Technology Symposium, Denver, CO, 16–18 April 2007.’ (Society of Petroleum Engineers)
Pitkin, M. C., Wadham, T. H., McGowen, J. M., and Thom, W. W. (2012). Taking the first steps: stimulating the Nappamerri Trough resource play. In ‘SPE Asia Pacific Oil and Gas Conference and Exhibition, Perth, 22–24 October 2012.’ (Society of Petroleum Engineers)
Reynolds, S. D., Mildren, S. D., Hillis, R. R., Meyer, J. J., and Flottmann, T. (2005). Maximum horizontal stress orientations in the Cooper Basin, Australia: implications for plate-scale tectonics and local stress sources. Geophysical Journal International 160, 331–343.
Reynolds, S. D., Mildren, S. D., Hillis, R. R., and Meyer, J. J. (2006). Constraining stress magnitudes using petroleum exploration data in the Cooper–Eromanga Basins, Australia. Tectonophysics 415, 123–140.
| Constraining stress magnitudes using petroleum exploration data in the Cooper–Eromanga Basins, Australia.Crossref | GoogleScholarGoogle Scholar |
Roberts, G. A., Chipperfield, S. T., and Miller, W. K. (2000). The evolution of a high near-wellbore pressure-loss-treatment strategy. In ‘SPE Annual Technical Conference and Exhibition, Dallas, TX, 1–4 October 2000’. (Society of Petroleum Engineers).
Scott, M. P., Durant, R., Woodroof, R. A., Stephens, T., Thom, W., and McGowen, J. M. (2013). Investigating hydraulic fracturing in tight gas sand and shale gas reservoirs in the Cooper Basin. In ‘SPE Unconventional Resources Conference and Exhibition-Asia Pacific, Brisbane, 11–13 November 2013.’ (Society of Petroleum Engineers: Brisbane, Australia.)
Sethi, D. K. (1981). Well log applications in rock mechanics. In ‘SPE/DOE Low Permeability Gas Reservoirs Symposium, Denver CO, 27–29 May 1981.’ (Society of Petroleum Engineers: Denver, CO, USA.)
Soliman, M. Y., East, L. E., and Adams, D. (2004). Geomechanics aspects of multiple fracturing of horizontal and vertical wells. Spe-86992-Ms. In ‘SPE International Thermal Operations and Heavy Oil Symposium and Western Regional Meeting’. (Society of Petroleum Engineers: Bakersfield, CA, USA.)
Soliman, M. Y., East, L. E., and Adams, D. (2008). Geomechanics aspects of multiple fracturing of horizontal and vertical wells. SPE Drilling & Completion 23, 217–228.
| Geomechanics aspects of multiple fracturing of horizontal and vertical wells.Crossref | GoogleScholarGoogle Scholar |