GRUBE, J.P., CROCKETT,J.E., HUFF, B.G., LEETARU, H.E., MORSE, D.G., SEYLER, B. and UDEGBUNAM, E.O., Illinois State Geological Survey, Champaign, IL
A research project jointly sponsored by the U.S. Department of Energy
and the Illinois State Geological Survey focused on the Cypress and Aux
Vases Formations (Mississippian), major clastic reservoirs in the Illinois
Basin. Results from the research showed that understanding the nature and
distribution of reservoir compartments, and using effective reservoir management
strategies, can significantly improve recovery efficiencies from oil fields
in this mature basin. Compartments can be most effectively drained where
they are geologically well defined and reservoir management practices are
coordinated through unified, compartment-wide, development programs.
Our studies showed that the Cypress and Aux Vases reservoirs contain
lateral and vertical permeability barriers forming compartments that range
in size from isolated, interlaminated sandstone and shale beds to sandstone
bodies tens of feet in thickness and more than a mile in length. Stacked
or shingled, genetically similar sandstone bodies are commonly separated
by thin impermeable intervals that can be difficult to distinguish on logs
and can, therefore, cause correlation problems, even between wells drilled
on spacing of less than ten acres. Lateral separation of sandstone bodies
causes similar problems. Reservoir compartmentalization reduces primary
and particularly secondary recovery by trapping pockets of by-passed or
banked oil. Compartments can be detected by comparing recovery factors
of genetically similar sandstone bodies within a field; using packers to
separate commingled intervals and analyzing fluid recoveries and pressures;
making detailed core-to-log calibrations that identify compartment boundaries;
and analyzing pressure data from waterflood programs.
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