Abstract
New interest in the potential for shale gas in the United Kingdom (UK) has led to renewed exploration for hydrocarbons in the Carboniferous age Bowland–Hodder shales under Central and Northern England. Following an incidence of induced seismicity from hydraulic fracturing during 2010 at Preese Hall, Lancashire, the publically available databases quantifying the in-situ stress orientation of the United Kingdom have shown to be inadequate for safe planning and regulation of hydraulic fracturing. This paper therefore reappraises the in-situ stress orientation for central and northern England based wholly on new interpretations of high-resolution borehole imaging for stress indicators including borehole breakouts and drilling-induced tensile fractures. These analyses confirm the expected north northwest – south southeast orientation of maximum horizontal in-situ stress identified from previous studies (e.g. Evans and Brereton, 1990). The dual-caliper data generated by Evans and Brereton (1990) yields a mean SHmax orientation of 149.87° with a circular standard deviation of 66.9°. However the use of borehole imaging without incorporation of results from older dual-caliper logging tools very significantly decreases the associated uncertainty with a mean SHmax orientation of 150.9° with a circular standard deviation of 13.1°.The use of high-resolution borehole imaging is thus shown to produce a more reliable assessment of in-situ stress orientation. The authors therefore recommend that the higher resolution of such imaging tools should therefore be treated as a de-facto standard for assessment of in-situ stress orientation prior to rock testing. Use of borehole imaging should be formally instituted into best practice or future regulations for assessment of in-situ stress orientation prior to any hydraulic fracturing operations in the UK.
Highlights
The research reported in this paper is a direct response to that recommendation and is intended to establish best practice for future acquisition of data to fully understand in-situ stress orientations in the United Kingdom (UK)
Previous work on the in-situ stress orientation of the UK was hampered by a paucity of data of sufficient quality to undertake a robust analysis
The results show clearly that while the use of borehole image logs have not significantly altered the current state of understanding regarding the in-situ stress orientations in the region, the associated uncertainties inherent in the other datasets have been significantly reduced
Summary
Induced seismicity was experienced following hydraulic fracturing, culminating in a magnitude 2.3 ML earthquake (Green et al, 2012) Following this event, the UK government imposed a temporary suspension of the use of hydraulic fracturing whilst a review of safety and best practice was undertaken. A key conclusion of this review was that “the British Geological Survey should implement national surveys to characterise in-situ stresses and to identify faults affecting prospective UK shale plays”. This statement recognised the poor state of knowledge of the in-situ stress in the UK, and identified the requirement for the review of data from which detailed information may be derived.
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