Hydrogen, Journal Year: 2024, Volume and Issue: 5(4), P. 737 - 760

Published: Oct. 17, 2024

Geological hydrogen storage, seen as a viable solution for addressing energy demands and mitigating the intermittency of wind power, is gaining recognition. At present, there are no specific studies that estimate storage capacity potential integration in North Dakota despite state’s enormous resources capabilities. The study’s key innovation lies repurposing region historically associated with oil gas sustainable thereby sources. Moreover, innovative aspect this study involves field selection, site screening, characterization, mathematical modeling to simulate wind–hydrogen production geological system. A 15 MW farm, using real-world data from General Electric turbines, employed assess capacities within Middle Bakken formation. reveals substantial potentials wells W24814, W19693, W26990, 54,000, 33,000, 22,000 tons, respectively. These translate capabilities 1080, 660, 440 GWh, minimum durations 140, 80, 57 days, respectively, under 60% system efficiency. By pioneering traditionally dominated by fossil fuel extraction, research could play crucial role advancing Dakota’s transition, providing blueprint similar initiatives globally.

Language: Английский