@misc{dreistadt_novel_emergency_2022, 
author={Dreistadt, D.,Puszkiel, J.,Bellosta von Colbe, J.,Capurso, G.,Steinebach, G.,Meilinger, S.,Le, T.,Covarrubias Guarneros, M.,Klassen, T.,Jepsen, J.},
title={Novel emergency gas-to-power mh-storage and fuel cell system: Modeling and experimental validation},
year={2022},
howpublished = {conference paper: null; null},
abstract = {A gas-to-power (GtoP) system for power outages is digitally modeled and experimentally developed in this work. The,design includes a solid-state hydrogen storage system based on TiFeMn as a hydride forming alloy (5 tanks, total,capacity: 110 g H2) and an air-cooled fuel cell (maximum power: 1.6 kW). In an emergency use case of the system,,hydrogen is supplied to the fuel cell, and the waste heat coming from the exhaust air of the fuel cell is used for the,endothermic dehydrogenation reaction of the metal hydride. This GtoP system shows fast, stable, and reliable,responses from 149 W to 596 W under constant and dynamic conditions. The developed model is based on a network,approach, and it is validated under static and dynamic power load scenarios, showing excellent agreement with the,experimental results},
note = {Online available at: \url{} (DOI). Dreistadt, D.; Puszkiel, J.; Bellosta von Colbe, J.; Capurso, G.; Steinebach, G.; Meilinger, S.; Le, T.; Covarrubias Guarneros, M.; Klassen, T.; Jepsen, J.: Novel emergency gas-to-power mh-storage and fuel cell system: Modeling and experimental validation. In: Dincer, I.; Colphan, C.; Ezan, M. (Ed.): 23rd World Hydrogen Energy Conference 2022 (WHEC 2022). Red Hook, NY: Curran Associates, Inc.. 2022. 1121-1123.}}