FUGITT, DAVID S., Chevron North America E&P Co., Lafayette, LA; CHARLES E. STELTING, Chevron Production Technology Co., New Orleans, LA; WILLIAM J. SCHWELLER, Chevron petroleum Technology Co., La Habra, CA, JAMES E. FLORSTEDT, GARY J., HERRICKS and MICHAEL R. WISE, Chevron North America E&P Co., Lafayette, LA
Abstract: Production Characteristics of Sheet and Channelized Turbidite Reservoirs, Garden Banks 191, Gulf of Mexico, USA
Garden Banks 191 is 160 mi from Lafayette, Louisiana in 700 ft of water. Block 191 has produced over 210 BCF dry gas from Pleistocene reservoirs since 1993. This paper will address the production characteristics of turbidite sheet (4500' Sand) and channel (8500' Sand) sand reservoirs. Understanding the distribution of shale breaks within both reservoir types is critical because the shales compartmentalize gas production and control water encroachment.
The 4500' Sand reservoir is composed of 1000 ft of interbedded sands and shales typical of amalgamated and layered sheet sands. The sand is subdivided into four production members (designated 1-4) by shale breaks that extend across the reservoir interval. The reservoir has exhibited a good water drive. Water encroachment occurs individually within each member.
The 8500' Sand is an approximately 900 ft. thick
"fining-upward" channel succession that was deposited in a slope minibasin
formed by salt withdrawal. Shale breaks in this stacked channel succession
do not extend across the reservoir, but they do control water encroachment
in individual wells. The sand is informally divided into five members based
on shale breaks and perched water contacts. Members 3, 4 and 5 are connected,
based on RFT pressures. The 8500' Sand has produced from a combination
pressure depletion/limited water drive mechanism resulting in excellent
reservoirs.
AAPG Search and Discovery Article #90924©1999 GCAGS Annual Meeting Lafayette, Louisiana