Thermodynamic and Transport Properties of Hydrogen Containing Streams
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The use of hydrogen (H) as a substitute for fossil fuel, which accounts for the majority of the world's energy, is environmentally the most benign option for the reduction of CO emissions. This will require gigawatt-scale storage systems and as such, H storage in porous rocks in the subsurface will be required. Accurate estimation of the thermodynamic and transport properties of H mixed with other gases found within the storage system is therefore essential for the efficient design for the processes involved in this system chain. In this study, we used the established and regarded GERG-2008 Equation of State (EoS) and SuperTRAPP model to predict the thermo-physical properties of H mixed with CH, N, CO, and a typical natural gas from the North-Sea. The data covers a wide range of mole fraction of H (10-90 Mole%), pressures (0.01-100 MPa), and temperatures (200-500 K) with high accuracy and precision. Moreover, to increase ease of access to the data, a user-friendly software (H2Themobank) is developed and made publicly available.
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Zhang Q, Masoudi M, Sun L, Zhang L, Yang L, Song Y ACS Appl Mater Interfaces. 2024; 16(40):53994-54006.
PMID: 39324742 PMC: 11472264. DOI: 10.1021/acsami.4c12931.
Thermodynamic and transport properties of hydrogen containing streams.
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PMID: 32647110 PMC: 7347886. DOI: 10.1038/s41597-020-0568-6.