Putnam Filed Presentation
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![Page 1: Putnam Filed Presentation](https://reader033.fdocuments.net/reader033/viewer/2022051515/5515c2664979591b1e8b4f13/html5/thumbnails/1.jpg)
Controls on Hydrocarbon Entrapment and Reservoir Distribution: the Pennsylvanian Big
Lime and Oswego Limestone in the Putnam Field Area, Anadarko Basin, Oklahoma
James R. GearyHess Corporation
February 25, 2008 – HGS North American Dinner Meeting
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ACKNOWLEDGMENTS• Baylor University
– Dr. Stacy Atchley• Apache Corporation
– Brad Johnson• Spartan Resources, LLC
– Tim Munson• Duncan Oil Properties
– Brian Branesky• Oklahoma Geological Survey• Riley Electric Log• Hess Corporation
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Abstract Putnam Field, located along the northern margin of the Anadarko Basin and extending through Custer and Dewey counties in western Oklahoma, USA, has produced over 400 BCF and 13 MMBO from the Pennsylvanian (Desmoinesian) Oswego Limestone and Big Lime. Hydrocarbons are stratigraphically trapped within phylloid algal mound complexes that are isolated within shallowing-upward parasequence sets; mound complexes generally trend west-east across the study area parallel to the northern structural margin of the Anadarko Basin. Reservoir quality within phylloid algal mounds is controlled by variations in the abundance of moldic, vuggy, and fracture pore types (average porosity = 2%, median permeability = 0.2 md). Eleven parasequence sets occur within the study interval and from the section base to top stack progradationally within the Oswego Limestone, and aggradationally to retrogradationally within the overlying Big Lime. The change from progradational to retrogradational stacking of parasequence sets most likely reflects an accelerating rate of subsidence during deposition that was induced by thrust-loading along the Ouachita foldbelt. Furthermore, retrogradational stacking within the Big Lime suggests that undiscovered hydrocarbon reserves may exist updip (northward) of the Putnam Trend in slightly younger deposits. Detailed maps of structure, facies, gross pay, and pore volume were generated for each parasequence set, and compared with the spatial distribution of producing wells and their associated drainage radii. From these attributes, a geologic risk assessment was completed across the Putnam Trend to determine the most prospective areas for future step-out development.
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Determine the development potential within the Pennsylvanian Big Lime and Oswego Limestone of Dewey County, Oklahoma.
PURPOSE
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KEY QUESTIONS
• What is the depositional model and controls on reservoir quality?
• How are reservoir quality facies distributed within a three-dimensional framework?
• What are the most favorable geographic location(s) for future development potential?
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(after Michlik, 1984)
A
A`
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SEALEVEL
20,000
40,000
A A`HOLLIS BASIN
WICHITA MOUNTAINSANADARKO BASIN NORTHERN SHELF
STUDY AREA
(modified from Johnson, 1989)
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• 1523 feet of core from 22 wells
• Analyzed 100 wellsCORE ANALYSIS DATA CORED WELL
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CORE ANALYSIS DATA CORED WELL
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(modified from Derstine, 1989)
Study Interval
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(modified from IHS Energy, 2008)
PRO
DU
CT
ION
RA
TE
S
TIME
~ 700 wells in study area~ 200 Big Lime and Oswego producers
Cumulative production exceeds 400 BCF & 14 MMBO
DISCOVERY WELLSinclair O&G #1 Kunc 11-17N-18W
Completed in January 1957, TD 14,467 ft.IP: 182 BOPD and 1650 MCFGD
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Discovery Information Parameters Reservoir Characteristics Parameters ParametersProduction Information
Year discovered 1957
Initial producer 1650 MCFD, 182 BOD
Average elevation 1901 feet
O il gravity 43o
Gas gravity 0.7
Drive mechanism Gravity
Reservoir Pressure 4500 psi
Reservoir T emperature 160 oF
Trap Stratigraphic
D epth to reservoir 8120-9926 feet
A verage gross interval 123 feet
A verage porosity range 1-10%
A verage perm eability range 0.01-10 mD
A verage Sw 30%
Study area 201600 acres, 315 mi2
Estimated w ell count 575
Form ation value factor 1.697
Recovery factor (gas) 0.88
Expansion factor 0.0038
Cumulative production (as of 5/02)Big LimeOswego
239 MBO, 12 Bcf13MMBO, 395 Bcf
(Brown, 1963; Swanson, 1967;Zagaar, 1965; and IHS Energy)
700
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KEY QUESTIONS
• What is the depositional model and controls on reservoir quality?
• How are reservoir quality facies distributed within a three-dimensional framework?
• What are the most favorable geographic location(s) for future development potential?
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(modified from Derstine, 1989)
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BLACK LAMINATED MUDSTONE OPEN/RESTRICTED
• Dark gray to black laminated mudstone
• Open to restricted basinal environment, low energy
• “Poker chip”
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INTERMEDIATE DEEP
• Gray to black wackestone to mudstone
• Low energy, open marine environment
• Minor amounts of:– Phylloid algae– Crinoid fragments– Rugose coral– Skeletal fragments
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RUGOSE CORAL FLOATSTONE
• Dark gray to black rugose coral floatstone
• Associated within intermediate facies
• Low energy, open marine environment
• Crinoid fragments
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INTERMEDIATE SHALLOW
• Light to dark gray wackestone to packstone
• Low to moderate energy open-marine platform
• Moldic and fracture pore types• Structures include:
– Organic binding– Stylolites
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ENCRUSTING ALGAL BINDSTONE
• Moderate energy, open-marine platform
• Structures include:– Stylolites– Geopetals– Organic sediment binding
• Moldic and fracture pore types
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PHYLLOID ALGAL FLOATSTONE / BAFFLESTONE
• Moderate energy, open-marine platform mound
• Structures include:– Organic sediment binding– Geopetals– Stylolites
• Moldic and fracture pore types
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PELOID PACKSTONE
• Low to moderate energy, shallow subtidal to intertidal environment
• Fracture porosity• Structures include:
– Stylolites– Root traces– Laminae
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KEY QUESTIONS
• What is the depositional model and controls on reservoir quality?
• How are reservoir quality facies distributed within a three-dimensional framework?
• What are the most favorable geographic location(s) for future development potential?
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DE
PTH
DE
PTH
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NORTHEAST SOUTHWEST
PELOID PACKSTONE
PHYLLOID ALGAL/ENCRUSTING ALGAL BINDSTONE
PHYLLOID ALGAL FLOATSTONE-BAFFLESTONE/INTERMEDIATE SHALLOW
PHYLLOID ALGAL FLOATSTONE-BAFFLESTONE
ENCRUSTING ALGAL BINDSTONE
ENCRUSTING ALGAL BINDSTONE/INTERMEDIATE SHALLOW
INTERMEDIATE SHALLOW
RUGOSE CORAL FLOATSTONE
INTERMEDIATE DEEP
BLACK LAMINATED MUDSTONE OPEN
BLACK LAMINATED MUDSTONE OPEN
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Progradational stacking of parasequence sets is characteristic of the platform adjacent the basin axis, and reflects subsidence rates exceeded by sedimentation
PELOID PACKSTONE
PHYLLOID ALGAL/ENCRUSTING ALGAL BINDSTONE
PHYLLOID ALGAL FLOATSTONE-BAFFLESTONE/INTERMEDIATE SHALLOW
PHYLLOID ALGAL FLOATSTONE-BAFFLESTONE
ENCRUSTING ALGAL BINDSTONE
ENCRUSTING ALGAL BINDSTONE/INTERMEDIATE SHALLOW
INTERMEDIATE SHALLOW
RUGOSE CORAL FLOATSTONE
INTERMEDIATE DEEP
BLACK LAMINATED MUDSTONE OPEN
BLACK LAMINATED MUDSTONE OPEN
500`
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PELOID PACKSTONE
PHYLLOID ALGAL/ENCRUSTING ALGAL BINDSTONE
PHYLLOID ALGAL FLOATSTONE-BAFFLESTONE/INTERMEDIATE SHALLOW
PHYLLOID ALGAL FLOATSTONE-BAFFLESTONE
ENCRUSTING ALGAL BINDSTONE
ENCRUSTING ALGAL BINDSTONE/INTERMEDIATE SHALLOW
INTERMEDIATE SHALLOW
RUGOSE CORAL FLOATSTONE
INTERMEDIATE DEEP
BLACK LAMINATED MUDSTONE OPEN
BLACK LAMINATED MUDSTONE OPEN
NORTHEAST SOUTHWEST
1000
`
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Retrogradational stacking patterns common toward the basin axis and reflect subsidence rates exceeding sedimentation
PELOID PACKSTONE
PHYLLOID ALGAL/ENCRUSTING ALGAL BINDSTONE
PHYLLOID ALGAL FLOATSTONE-BAFFLESTONE/INTERMEDIATE SHALLOW
PHYLLOID ALGAL FLOATSTONE-BAFFLESTONE
ENCRUSTING ALGAL BINDSTONE
ENCRUSTING ALGAL BINDSTONE/INTERMEDIATE SHALLOW
INTERMEDIATE SHALLOW
RUGOSE CORAL FLOATSTONE
INTERMEDIATE DEEP
BLACK LAMINATED MUDSTONE OPEN
BLACK LAMINATED MUDSTONE OPEN
500`
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3
PELOID PACKSTONE
PHYLLOID ALGAL/ENCRUSTING ALGAL BINDSTONE
PHYLLOID ALGAL FLOATSTONE-BAFFLESTONE/INTERMEDIATE SHALLOW
PHYLLOID ALGAL FLOATSTONE-BAFFLESTONE
ENCRUSTING ALGAL BINDSTONE
ENCRUSTING ALGAL BINDSTONE/INTERMEDIATE SHALLOW
INTERMEDIATE SHALLOW
RUGOSE CORAL FLOATSTONE
INTERMEDIATE DEEP
BLACK LAMINATED MUDSTONE OPEN
BLACK LAMINATED MUDSTONE OPEN
1000
`
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3
10
PELOID PACKSTONE
PHYLLOID ALGAL/ENCRUSTING ALGAL BINDSTONE
PHYLLOID ALGAL FLOATSTONE-BAFFLESTONE/INTERMEDIATE SHALLOW
PHYLLOID ALGAL FLOATSTONE-BAFFLESTONE
ENCRUSTING ALGAL BINDSTONE
ENCRUSTING ALGAL BINDSTONE/INTERMEDIATE SHALLOW
INTERMEDIATE SHALLOW
RUGOSE CORAL FLOATSTONE
INTERMEDIATE DEEP
BLACK LAMINATED MUDSTONE OPEN
BLACK LAMINATED MUDSTONE OPEN
1000
`
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KEY QUESTIONS
• What is the depositional model and controls on reservoir quality?
• How are reservoir quality facies distributed within a three-dimensional framework?
• What are the most favorable geographic location(s) for future development potential?
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FUTURE EXPLORATION AND DEVELOPMENT
• The occurrence of reservoir-prone phylloid algal facies within a retrogradational succession across the study area does not exclude the possibility that undiscovered gas reserves may still exist updip of the Putnam trend.
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AGGRADATIONAL/
RETROGRADATIONAL
PROGRADATIONAL
RETROGRADATIONAL
PROGRADATIONAL
PROGRADATIONAL?
DE
PTH
DE
PTH
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CHESAPEAKE
COMMANCHE EXPL LLC
SUNDOWN ENERGY INC
OTHERS
IHS Energy, 2008
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CONCLUSIONS
• Twelve depositional facies were recognized.
• Accumulated within basinal and platform interior environments (subtidal, intertidal and mound). Reservoir quality is preferentially associated within algal mound facies.
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CONCLUSIONS
• Facies were partitioned within eleven parasequence sets. Parasequence set stacking controls the spatial distribution of reservoir facies and hydrocarbon distribution.
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