Hydrogen storage potential of Salado Formation in the Permian Basin of West Texas, United States

Hydrogen (H₂) has the potential to become a cleaner fuel alternative to increase energy mix versatility as part of a low-carbon economy. Geological H₂ storage represents a key component of the emerging H₂ value chain since large-scale energy generation linked to energy generation and large-scale industrial applications will require significant upscaling of geological storage. Geological H₂ storage can take place in both salt domes and bedded salt formations. Bedded salt formations offer a significant advantage for H₂ storage over salt domes because of their widespread availability. This research focuses on evaluating the H₂ storage potential of the Salado Formation, a bedded salt deposit in the Permian Basin of West Texas in the United States. Using data from 3268 well logs, this study analyzes an area of 136100 km² to identify suitable depth and net halite thickness for H₂ storage in salt caverns. In addition, this work applies a novel geostatistical workflow to quantify the uncertainty in the formation's storage potential. The H₂ working gas potential of the Salado Formation ranges from 0.62 to 17.53 Tsm³ (1.75–49.68 PWh of stored energy) across low-risk to high-risk scenarios, with a median potential of 1.19 Tsm³ (3.37 PWh). The counties with the largest storage potential are: Lea in New Mexico, and Gaines and Andrews in Texas. These three counties account for more than 75 % of the formation's total storage potential. This is the first study to quantify uncertainty in H₂ storage estimates for a bedded salt formation while providing a detailed breakdown of results by county and 1 km² grid sections. The findings of this work offer critical insights for developing H₂ infrastructure in the Permian Basin. The Permian Basin of West Texas has the potential to become an important hub for H₂ production from both natural gas and/or renewable energy. Estimating H₂ storage potential is an important contribution to assess the feasibility of the entire H₂ value chain in Texas. An interactive map accompanies this work, allowing the readers to explore the results visually.