Schlumberger announced today the introduction of the BroadBand
Sequence* fracturing technique, which enables sequential stimulation of
perforation clusters in wells drilled in unconventional reservoirs. This
new technique sequentially isolates fractures at the wellbore to ensure
every cluster in each zone is fractured resulting in greater production
and completion efficiency compared to conventional methods.
Developed using a composite fluid comprising a proprietary blend of
degradable fibers and multimodal particles, the BroadBand Sequence
technique is suited for use in new wells and in recompletions. This
technique is particularly suitable for re-fracturing operations, given
its ability to promote temporary cluster isolation without the aid of
mechanical devices such as bridge plugs.
“Optimizing the stimulation of wellbore perforation clusters in
unconventional reservoirs is a significant challenge for our industry,”
said Amerino Gatti, president, Well Services, Schlumberger. “The
BroadBand Sequence technique addresses this challenge and increases our
customers’ well production by enhancing stimulation contact in every
zone in the reservoir.”
This fracturing technique has delivered robust and consistent
performance in more than 500 operations conducted to date in several
unconventional plays including the Eagle Ford, Haynesville, Woodford,
Spraberry and Bakken shales.
The BroadBand Sequence fracturing technique has enabled customers in South Texas to increase production
from new completions in unconventional reservoirs by more than 20%. It
has also reduced well completion time by up to 46% in plug-and-perf
operations by stimulating longer intervals compared with conventional
methods. In addition, this technology was applied to a well in South
Texas for a refracturing operation, which resulted in double the
production with a fourfold increase in flowing pressure.
BroadBand Sequence is the first release of a family of BroadBand
completion technologies aimed at maximizing well productivity in
unconventional reservoirs.
For more information about the BroadBand Sequence fracturing technique, visitwww.slb.com/BroadBand
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