Storage of hydrogen in solid materials has the potential to become a safe and efficient way to store energy, both for stationary and mobile applications. An integrated small scale system, integrating a small hydrogen tank, with a capacity of 18 cm3, and a 25 cm2 PEFC single cell, has been tested to assess the performance of an innovative hydrogen storage material based on manganese oxide anchored to a polymeric matrix having a hydrogen storage capacity of about 1 wt%. A Labview software application has been developed for data logging and control of the test set-up. Sorption process has been achieved by setting the charging time and recording pressure vs. time. The electrochemical tests were per- formed at 80 C (PEFC cell temperature) and several dischargeecharge cycles have been performed at different pressure and two discharge rates (i.e. 100 and 200 ml/min). The nominal power produced by the PEFC cell has been between 6 and 10 W, with an average discharge time of 400e500 s.

Performance assessment of an integrated PEFC and an hydrogen storage device based on innovative material

R Pedicini;F Matera;G Giacoppo;I Gatto;E Passalacqua
2015

Abstract

Storage of hydrogen in solid materials has the potential to become a safe and efficient way to store energy, both for stationary and mobile applications. An integrated small scale system, integrating a small hydrogen tank, with a capacity of 18 cm3, and a 25 cm2 PEFC single cell, has been tested to assess the performance of an innovative hydrogen storage material based on manganese oxide anchored to a polymeric matrix having a hydrogen storage capacity of about 1 wt%. A Labview software application has been developed for data logging and control of the test set-up. Sorption process has been achieved by setting the charging time and recording pressure vs. time. The electrochemical tests were per- formed at 80 C (PEFC cell temperature) and several dischargeecharge cycles have been performed at different pressure and two discharge rates (i.e. 100 and 200 ml/min). The nominal power produced by the PEFC cell has been between 6 and 10 W, with an average discharge time of 400e500 s.
2015
Istituto di Tecnologie Avanzate per l'Energia - ITAE
Hydrogen storage material
H2 tank and fuel cell integration
Electrochemical tests
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.14243/305013
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