This study evaluates and compares physical, chemical, and dual activation methods for preparing activated carbons from spent coffee grounds to optimize their porosity for hydrogen storage. Activation processes, including both one-step and two-step chemical and physical methods, were investigated, incorporating a novel dual activation process that combines chemical and physical activation. The findings indicate that the two-step chemical activation yields superior results, producing activated carbons with a high specific surface area of 1680 m2/g and a micropore volume of 0.616 cm3/g. These characteristics lead to impressive hydrogen uptake capacities of 2.65 wt% and 3.66 wt% at 77 K under pressures of 1 and 70 bar, respectively. The study highlights the potential of spent coffee grounds as a cost-effective precursor for producing high-performance activated carbons.
Optimized activation of coffee-ground carbons for hydrogen storage
Poselle Bonaventura C.Writing – Review & Editing
;Desiderio G.;Policicchio A.Writing – Review & Editing
;Agostino R. G.Project Administration
2025
Abstract
This study evaluates and compares physical, chemical, and dual activation methods for preparing activated carbons from spent coffee grounds to optimize their porosity for hydrogen storage. Activation processes, including both one-step and two-step chemical and physical methods, were investigated, incorporating a novel dual activation process that combines chemical and physical activation. The findings indicate that the two-step chemical activation yields superior results, producing activated carbons with a high specific surface area of 1680 m2/g and a micropore volume of 0.616 cm3/g. These characteristics lead to impressive hydrogen uptake capacities of 2.65 wt% and 3.66 wt% at 77 K under pressures of 1 and 70 bar, respectively. The study highlights the potential of spent coffee grounds as a cost-effective precursor for producing high-performance activated carbons.| File | Dimensione | Formato | |
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