Smackover Lithium Brine Basin Report | SLB

Smackover Play

Lithium brine basin resource report

Smackover Play lithium brine basin report
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3D basin model report for the Smackover Play

The 3D basin model report for the Smackover Play in Southwest Arkansas and Texas provides a static model of the estimated lithium resources in place to help identify the sweet spots containing the highest lithium metric tons per acre. This accelerates the exploration, extraction, and production of lithium.

SLB reviewed more than 6,800 wells in the Smackover trend, alongside a comprehensive understanding of the burial history. This facilitated the construction of a 3D lithium brine resource model. Additionally, well logs, wireline porosity logs, temperature data, geochemical data, lithium concentration measurements, and historical basin evolution information were incorporated into the assessment. SLB analyzed numerous data sources, extracting and sanitizing data for the 3D basin model. These data sources included various federal and state organizations, regulatory bodies, university databases, as well as scientific and company publications.

  • Regional-level basin screening as a first step to detailed subsurface modeling
  • Quick identification of high lithium potential acreage positions 
  • Ability to high-grade prospects with lithium sweet-spot mapping on the entire study region
  • Analysis for a 27,080-mi2 (17-million acre) area across Arkansas and Texas
  • Stratigraphic understanding of structures in the Smackover Play
  • Porosity-to-depth curves using PetroMod™ basin modeling software
  • Effective porosity map for entire Smackover brine play
  • In-place lithium resource for Smackover brine play of 9,304 mi2 (6 million acres), including sensitivities
  • Regional hydrodynamic flow path pattern for Smackover brine play for initial well placement concept

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Lithium, Clayton Valley, Nevada, Pilot Plant

This report is available for purchase.


For further refinement, higher resolution, or dynamic versions of this model—or to build your own lithium-resource-in-place models using your proprietary data—contact one of our subsurface experts.

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