The Role and Value of Biosteering in Hydrocarbon Reservoir Exploitation
By
R. W. Jones1, S. Lowe1, P. Milner2, P. Heavey2, S. N. J. Payne3, D. F. Ewen3
(1) BP, Sunbury-on-Thames, Middlesex, United Kingdom (2) BP Norge, Stavanger, Norway (3) BP, Aberdeen, United Kingdom
Of all the recent developments in the role of production biostratigraphy, none has had a more immediate and perceptible impact than biosteering. Driven by the need for reservoir-scale stratigraphic control during the drilling of high angle and horizontal wells, biosteering has rapidly become a fundamental and cost-effective part of the geosteering tool-kit. The resultant aid to the optimisation of well-path has provided substantial savings in drilling costs, boosted reserves and well productivity.
Production biostratigraphy entails high resolution
reservoir subdivision into
discrete, correlatable time-slices, using field-specific microfossil bioevents.
This frequently provides greater precision than seismic and greater
discrimination than wireline logs. Biosteering enables this subdivision to be
defined whilst drilling, providing a real-time monitoring of well-path relative
to reservoir. This allows reservoir penetration to be maximised by
discriminating between non-pay above, below and within the reservoir, and
defining unpredicted exits due to sub-seismic faults. Through the use of
biosteering well trajectory can be redirected back into reservoir. Furthermore,
in the supra-reservoir interval, well angle-build can be calibrated to optimise
reservoir entry, using ongoing comparison with offset data to predict proximity
to top reservoir, and TD can be called with the assurance that all pay intervals
have been penetrated. Of substantial benefit to high
resolution
biostratigraphy
in high angle wells is the oblique cutting of stratigraphy, giving a greater
long-hole penetration of individual time slices, allowing an enhanced
resolution
relative to
vertical
offsets.
Case histories using different microfossil groups are described from a range of clastic and carbonate facies from the North Sea, Colombia and Sharjah.