Abstract
ABSTRACTThe onshore Georgina Basin in northern Australia is prospective for unconventional hydrocarbons; however, like many frontier basins, it is underexplored. A well-connected hydraulic fracture network has been shown to be essential for the extraction of resources from the tight reservoirs that categorise unconventional plays, as they allow for economic flows of fluid from the reservoir to the well. One of the fundamental scientific questions regarding hydraulic stimulation within the sub-surface of sedimentary basins is the degree to which local and regional tectonic stresses act as a primary control on fracture propagation. As such, an understanding of present-day stresses has become increasingly important to modern petroleum exploration and production, particularly when considering unconventional hydrocarbon reservoirs. This study characterises the regional stress regime in the Georgina Basin using existing well data. Wellbore geophysical logs, including electrical resistivity image logs, and well tests from 31 petroleum and stratigraphic wells have been used to derive stress magnitudes and constrain horizontal stress orientations. Borehole failure features interpreted from wellbore image and caliper logs yield a maximum horizontal stress orientation of 044°N. Integration of density log data results in a vertical stress gradient of 24.6 MPa km–1. Leak-off and mini-fracture tests suggest that this is the minimum principal stress, as leak-off values are generally shown to be at or above the magnitude of vertical stress. The maximum horizontal stress gradient is calculated to be in the range of 31.3–53.9 MPa km–1. As such, a compressional stress regime favouring reverse/reverse–strike-slip faulting is interpreted for the Georgina Basin.
Highlights
The Australian continent hosts a highly variable stress field (Hillis & Reynolds, 2003; Rajabi, Tingay, King, & Heidbach, 2016a; Rajabi, Tingay, & Heidbach, 2016b) where stress patterns are not oriented sub-parallel to absolute plate motion as they are in many other continents (Rajabi et al, 2016b)
Data were sourced from open-file well-completion reports [formation integrity tests (FITs), leak-off tests (LOTs), drill stem tests (DSTs), mini-fracture tests] and associated well-log data
Analysis of stress magnitudes derived from LOTs presented in this study reveals no distinct correlation between lithology and either high or low values for leak-off, so we suggest that the anomalously low LOT values observed are due to LOTs having been performed in the presence of pre-existing fractures as described above (Couzens-Schulz & Chan, 2010)
Summary
The Australian continent hosts a highly variable stress field (Hillis & Reynolds, 2003; Rajabi, Tingay, King, & Heidbach, 2016a; Rajabi, Tingay, & Heidbach, 2016b) where stress patterns are not oriented sub-parallel to absolute plate motion as they are in many other continents (Rajabi et al, 2016b). Data from some locations, including the Georgina Basin in northern Australia, have not yet been analysed and/or incorporated into the most recent version of the Australian Stress Map (Hillis & Reynolds, 2003; Rajabi et al, 2016a) (Figure 1). The Georgina Basin is an onshore Australian basin considered to be prospective for conventional and unconventional oil and gas (Ambrose, Kruse, & Putnam, 2001; Munson, 2014). Recent exploration has primarily targeted source rocks in the Arthur Creek Formation and Thorntonia Limestone in the southern Georgina Basin for unconventional oil and gas
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