Harshit Mittal, Omkar Singh Kushwaha, Mallikarjuna Nadagouda, Gurumurthy Hegde, Stephen Allen, Tejraj M Aminabhavi
Environmental research 2024 Nov 01Due to the imperative global energy transition crisis, hydrogen storage and adsorption technologies are becoming popular with the growing hydrogen economy. Recently, complex hydrides have been one of the most reliable materials for storing and transporting hydrogen gas to various fuel cells to generate clean energy with zero carbon emissions. With the ever-increasing carbon emissions, it is necessary to substitute the current energy sources with green hydrogen-based efficient energy-integrated systems. Herein, we propose an input-output model that comprehends complex hydrides such as lithium and magnesium alanates, amides and borohydrides to predict, estimate, and directly analyse hydrogen storage and adsorption. A critical and thorough comparative analysis of the respective complex hydrides for hydrogen adsorption and storage is discussed, elucidating the storage applications in water bodies. Several industrial scale-up processes, economic analysis, and plant design of hydrogen storage and adsorption approaches are suggested through volumetric and gravimetric calculations. Copyright © 2024 Elsevier Inc. All rights reserved.
Harshit Mittal, Omkar Singh Kushwaha, Mallikarjuna Nadagouda, Gurumurthy Hegde, Stephen Allen, Tejraj M Aminabhavi. Adsorption and storage of hydrogen- A computational model approach. Environmental research. 2024 Nov 01;260:119606
PMID: 39004395
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