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Burner Technology for Hydrogen Fuel
Published in Debi Prasad Mishra, Advances in Combustion Technology, 2023
Debi Prasad Mishra, Swarup Y. Jejurkar
Among the new developments, the most prominent presence of metal hydrides can be noticed in Figures 3.2 and 3.3. Hydrides are compounds of hydrogen with metals, intermetallic complexes, and alloys. Figures 3.2 and 3.3 also show that the highest volumetric densities are achieved by metal hydrides; for example, ρ = 150 kg/m3 for Mg2FeH6 and Al (BH4)3 [3, 4].
Alternative Fuel Sources
Published in Michael Frank Hordeski, Hydrogen & Fuel Cells: Advances in Transportation and Power, 2020
Metal hydrides may also be used for hydrogen storage where the hydrogen is chemically bonded to one or more metals and released with a catalyzed reaction or heating. The hydrides can be used for storage in a solid form or in a water-based solution. When a hydride has released its hydrogen, a byproduct remains in the fuel tank to be either replenished or disposed of.
The New Fuel Mix
Published in Michael Frank Hordeski, Alternative Fuels—The Future of Hydrogen, 2020
Metal hydrides are hydrogen-containing compounds that could be used for hydrogen storage. The hydrogen is chemically bonded to one or more metals and released with a catalyzed reaction or heating. Hydrides can be stored in solid form or in a water-based solution. After a hydride has released its hydrogen, a byproduct remains in the fuel tank to be either replenished or disposed of.
A chance constraint microgrid energy management with phase balancing using electric vehicle demand aggregation
Published in Energy Sources, Part A: Recovery, Utilization, and Environmental Effects, 2023
Battula Amrutha Raju, Vuddanti Sandeep
Hydrogen storage system (HSS) comprises fuel cells and electrolyzers for charging and discharging, respectively. Metal hydride is used for the storage of hydrogen. The hydrogen to electricity conversion is presented in Aguilar, Bordons, and Arce (2021). The energy operating dynamics of the hydrogen measured using level of hydrogen (LOH) is shown in (6) and (7).