In this study, the implementation of a hydrogen microgrid is investigated, considering the integration of H2 production, storage, and energy conversion to feed a typical end-user. A remote control system has been realized through LabVIEW software, allowing to monitor real-time all the devices and analyze their performances. The integrated system is composed of a PEM electrolyzer (325 W), a storage system based on metal hydrides (two tanks, 54 g of hydrogen each, 1.08 wt%) and an energy converter (PEM Fuel Cell stack, 200 W). A programmable electronic load was used to set a power demand throughout the year, simulating an end-user. Data collected from each component of the micro-grid were used to characterize the energetic performance of the devices, focusing on the H2 production via electrolyzer, charging cycles of the H2 storage system, and energy conversion efficiency of the FC stack. Finally, the global efficiency of the microgrid is computed. Even though the system is realized in laboratory scale, this circumstance will not invalidate the significance of the configuration due to modularity of all the technologies that can be easily scaled up to realistic scales.
Design and experimental set-up of hydrogen based microgrid: characterization of components and control system development / Cava, Carmine; Cosentini, Carlotta; Gagliardi, GABRIELE GUGLIELMO; Cedola, Luca; MIGLIARESE CAPUTI, Michele Vincenzo; Aresti, Marco; Borello, Domenico. - 2385:1(2022), pp. 1-13. (Intervento presentato al convegno 2022 ATI Annual congress, ATI 2022 tenutosi a Bari; Italy) [10.1088/1742-6596/2385/1/012042].
Design and experimental set-up of hydrogen based microgrid: characterization of components and control system development
Carmine Cava
;Carlotta Cosentini;Gabriele Guglielmo Gagliardi;Luca Cedola;Michele Vincenzo Migliarese Caputi;Domenico Borello
2022
Abstract
In this study, the implementation of a hydrogen microgrid is investigated, considering the integration of H2 production, storage, and energy conversion to feed a typical end-user. A remote control system has been realized through LabVIEW software, allowing to monitor real-time all the devices and analyze their performances. The integrated system is composed of a PEM electrolyzer (325 W), a storage system based on metal hydrides (two tanks, 54 g of hydrogen each, 1.08 wt%) and an energy converter (PEM Fuel Cell stack, 200 W). A programmable electronic load was used to set a power demand throughout the year, simulating an end-user. Data collected from each component of the micro-grid were used to characterize the energetic performance of the devices, focusing on the H2 production via electrolyzer, charging cycles of the H2 storage system, and energy conversion efficiency of the FC stack. Finally, the global efficiency of the microgrid is computed. Even though the system is realized in laboratory scale, this circumstance will not invalidate the significance of the configuration due to modularity of all the technologies that can be easily scaled up to realistic scales.| File | Dimensione | Formato | |
|---|---|---|---|
|
Cava_Design_2022.pdf
accesso aperto
Tipologia:
Versione editoriale (versione pubblicata con il layout dell'editore)
Licenza:
Creative commons
Dimensione
2.03 MB
Formato
Adobe PDF
|
2.03 MB | Adobe PDF |
I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
