Pilot shale awaits oil exploration in Great Basin

Nov. 7, 2011
The organic rich, thermally mature, oil-prospective Pilot shale, age equivalent of the Bakken formation in the Williston basin, underlies a large part of the eastern Great Basin in Nevada and Utah.

Alan Chamberlain
Cedar Strat Corp.
Las Vegas

S.K. Bhattacharjee
Sita Oil Exploration
Houston

The organic rich, thermally mature, oil-prospective Pilot shale, age equivalent of the Bakken formation in the Williston basin, underlies a large part of the eastern Great Basin in Nevada and Utah.

An isopach map constructed by the authors indicates that the Pilot shale is at least 140 ft thick under 45 million acres of the 71 million acres of the eastern Great Basin (Fig. 1). Moreover, the Pilot shale is at least twice as thick as the Bakken under 17.2 million acres and 800 ft thick or more under 1.3 million acres.

Integration of extensive surface mapping, measured sections, well studies, and recent gravity data acquisition suggests that these shales are stacked in laterally extensive and coherent thrust sheets at relatively shallow (~7,000 ft) to relatively deep (18,000 ft) depths.

Both the Pilot and the Bakken lie between Devonian and Mississippian carbonates (Fig. 2).

Proprietary geological survey

Though the Great Basin, with its sparse and sporadic exploration history, has had commercial oil production since the 1950s, federal and state agencies have made no effort to conduct a systematic and accurate geological survey.

At the request of several major oil companies, a privately funded proprietary geological survey has been under way for 3 decades to fill the exploration gap.

The proprietary geological survey began by improving and expanding the Great Basin stratigraphic framework of one of the major oil companies in order to identify mappable stratigraphic sequences and collect samples for source, reservoir, and biostratigraphic analyses.

Compiling publicly available geologic maps into a single map and then correcting and improving the map with more than 55,000 precisely located structural attitudes and lithologic descriptions allows for the creation of an accurate master geologic map of these mappable stratigraphic sequences.

The stratigraphic framework and new geologic map provides the foundation for structural and basin modeling that provide exploration leads and the basis for appraising prospects.

Oil-prone Pilot shale

The new Great Basin geological survey indicates that the Pilot shale occurs at relatively shallow depths in extensive, lateral cohesive thrust sheets.

Measured sections with surface gamma ray logs greatly supplement the paucity of the approximately 20 wells that have penetrated the Pilot shale and helps reduce confusing stratigraphic nomenclature of the region (Fig. 3). Also, surface gamma-ray logs combined with lithologic descriptions help identify stratigraphic sequences that can then be correlated between thrust sheets (Fig. 4).

Colorado River drainage basin headward erosion exposes the Cordillera thrust belt in the Timpahute Range, Lincoln County, Nev., about 100 miles north of Las Vegas. Correlation of exposed Devonian sequences between thrust sheets facilitates structural modeling and thrust fault restoration.

Combining measured section data with well data provides a clear understanding of lateral distribution of exploration targets in this promising and yet unexplored subbasin.

The authors combined conodont analysis with palynomorph analyses of thousands of outcrop samples and well cuttings to obtain accurate information on age, maturity, depositional environment, kerogen type, and richness of the shales. These fossil data indicate that the marine Pilot shales are oil-prone, thermally mature, and organically rich in contrast with the gas prone overlying Mississippian Chainman shales containing terrestrial plant bearing regressive sequences. Descriptions of measured sections and outcrop samples show that the Pilot has better or at least similar potential reservoir lithofacies as the Bakken. The argillaceous siltstone to very fine-grained sandstone lithofacies in the middle Pilot shale offers an attractive potential reservoir target.

The surface gamma-ray log, a field technique pioneered by the authors, allows identification of strata with the highest organic content. X-ray fluorescence (XRF) analysis of surface samples and cuttings provides another tool for correlating surface and subsurface sections and correlation between source shales and oil.

For example, oil from Blackburn field in Pine Valley contains elevated concentrations of vanadium. XRF analyses of Pilot shale samples from the adjacent Pinon Range and from the Fish Creek Range, on strike to the south, also show elevated concentrations of vanadium.

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