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About Jeff Kirch

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So far Jeff Kirch has created 31 blog entries.

Underground hydrogen storage resource assessment for the Cook Inlet, Alaska

Leon Hibbard, Joshua A. White, David G. Clarke, Simon Harrison, Richard A. Schultz, Franek Hasiuk, Angela Goodman, Nicolas Huerta, Underground hydrogen storage resource assessment for the Cook Inlet, Alaska, Applied Energy, Volume 377, Part B, 2025, 124135, ISSN 0306-2619, https://doi.org/10.1016/j.apenergy.2024.124135.

Underground hydrogen storage resource assessment for the Cook Inlet, Alaska2025-05-08T16:59:25+00:00

MR13A-3183: Microbial and Geochemical Characterization of Groundwater: Implications for Underground Hydrogen Storage Leakage

Clark, Allison, Pathak, Arkajyoti, Tinker, Kara, Gulliver, Djuna, & Sharma, Shikha (2024). MR13A-3183: Microbial and Geochemical Characterization of Groundwater: Implications for Underground Hydrogen Storage Leakage. https://doi.org/10.2172/2496267

MR13A-3183: Microbial and Geochemical Characterization of Groundwater: Implications for Underground Hydrogen Storage Leakage2025-05-08T17:00:47+00:00

Hydrogen, Methane, Brine Flow Behavior, and Saturation in Sandstone Cores During H2 and CH4 Injection and Displacement

Zhong, L., Baek, S., Guo, M., Bagwell, C., & Huerta, N. (2024). Hydrogen, Methane, Brine Flow Behavior, and Saturation in Sandstone Cores During H2 and CH4 Injection and Displacement. Energies, 17(22), 5800. https://www.mdpi.com/1996-1073/17/22/5800

Hydrogen, Methane, Brine Flow Behavior, and Saturation in Sandstone Cores During H2 and CH4 Injection and Displacement2025-05-08T17:03:22+00:00

Which factors dominate the levelized costs of subsurface hydrogen storage in Pennsylvania, United States

Shruti Khadka Mishra, Gerad M. Freeman, Sumitrra Ganguli, Nicolas J. Huerta, Which factors dominate the levelized costs of subsurface hydrogen storage in Pennsylvania, United States, International Journal of Hydrogen Energy, Volume 91, 2024, Pages 814-821, ISSN 0360-3199, https://doi.org/10.1016/j.ijhydene.2024.10.189.

Which factors dominate the levelized costs of subsurface hydrogen storage in Pennsylvania, United States2025-05-08T17:04:24+00:00

Utilizing baseline geochemistry and microbiology from four different hydrogen storage target reservoirs for predicting the impacts of subsurface storage

Gulliver, Djuna, Tinker, Kara, McDermott, Sierra, Bagwell, Christopher, Davis, Ryan, Smallwood, Charles, & Anthony, Winston (2024). Utilizing baseline geochemistry and microbiology from four different hydrogen storage target reservoirs for predicting the impacts of subsurface storage.
https://www.osti.gov/biblio/2329452.

Utilizing baseline geochemistry and microbiology from four different hydrogen storage target reservoirs for predicting the impacts of subsurface storage2025-05-08T17:05:55+00:00

SHASTA Sensor Development for Subsurface Hydrogen Storage Monitoring: Technology Maturation and Commercialization Plan 2024

This report provides the summary of NETL sensor development and test results under the SHASTA program to meet the subsurface application requirements and proposed technology maturation and deployment plan, and commercialization potential.
Download: OSTINETL

SHASTA Sensor Development for Subsurface Hydrogen Storage Monitoring: Technology Maturation and Commercialization Plan 20242025-05-08T17:07:03+00:00

Initial Laboratory Measurements Probing Hydrogen Interactions with Eagle Ford Shale and Pyrite: Potential Implications for Subsurface Hydrogen

Deborah Kim, Samantha Townsley, Barbara Kutchko, Deepak Tapriyal, Meghan Brandi, Vicki H. Grassian, and Angela Goodman. 2024. J. Phys. Chem. C 2024, American Chemical Society. https://pubs.acs.org/doi/10.1021/acs.jpcc.4c03066.

Initial Laboratory Measurements Probing Hydrogen Interactions with Eagle Ford Shale and Pyrite: Potential Implications for Subsurface Hydrogen2025-05-09T14:53:04+00:00

Calcined polyethyleneimine-coated optical fibers for distributed pH monitoring at high pressures and temperatures

Alexander ShumskiNathan Diemler, and Ruishu Wright “Calcined polyethyleneimine-coated optical fibers for distributed pH monitoring at high pressures and temperatures”, Proc. SPIE 13044, Optical Waveguide and Laser Sensors III, 130440L (7 June 2024); https://doi.org/10.1117/12.3013421

Calcined polyethyleneimine-coated optical fibers for distributed pH monitoring at high pressures and temperatures2025-05-09T14:54:13+00:00
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