Sequential reactions toward a high-pressure H2 generation from a mixture of sodium borohydride and formic acid

Authors
Safira RamadhaniChan KimJaewon KirkHyuntae SohnSuk Woo NamYongmin KimKwang Ho SongJeong, Hyang soo
Issue Date
2024-01
Publisher
Cell Press
Citation
Cell Reports Physical Science, v.5, no.1
Abstract
Chemical compression enables direct high-pressure hydrogen generation from chemical hydrogen storage materials in a closed system. By utilizing a water-soluble catalyst, this method achieves rapid formic acid (FA)-mediated sodium borohydride (SBH) hydrolysis, followed by FA dehydrogenation at moderate temperatures, using a mixture of SBH and FA. The sequential reactions facilitate simultaneous dehydrogenation of both carriers without mutual inhibition, resulting in impressive hydrogen pressures (650 bar) and storage capacities (4.22 wt % and 48.25 gH2 L?1) with minimal CO content. The exothermic SBH hydrolysis and endothermic FA dehydrogenation effectively enable heat-coupling reactions, enhancing overall process efficiency. Moreover, the study introduces a cost-effective SBH regeneration method, evaluating the closed hydrogen cycle’s feasibility in SBH-FA chemical compression technology. Economic analysis demonstrates reduced compressor size and overall cost benefits at hydrogen fueling stations, making this innovative approach promising for fuel-cell-based electric vehicle refueling at 700 bars, with potential energy and cost savings.
Keywords
HYDROGEN STORAGE; AMMONIA-BORANE; DEHYDROGENATION; ENERGY; FORMATE; DECOMPOSITION; REGENERATION; HYDROLYSIS; CHALLENGES; REDUCTION
URI
https://pubs.kist.re.kr/handle/201004/112920
DOI
10.1016/j.xcrp.2023.101759
Appears in Collections:
KIST Article > 2023
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