@misc{wienken_modeling_and_2022, 
author={Wienken, E.,Krause, P.,Warfsmann, J.,Bellosta von Colbe, J.,Jepsen, J.,Klassen, T.,Puszkiel, J.},
title={Modeling and process simulation of a metal hydride tank coupled with a PEM Electrolyzer},
year={2022},
howpublished = {conference paper: null; null},
abstract = {To cope with the tight timeframe of the global transformation from fossil to renewable energy sources, efficient,methods and tools such as process and system simulation are essential for rapid development, cost-efficient design,and scale-up validation of new energy systems. This numerical analysis investigates the coupling of a stationary,metal hydride (MH) hydrogen storage system with a low-temperature 10 kW proton exchange membrane (PEM),electrolyzer as a fast-responding and well-controllable hydrogen source. The heat management of the solid-state,storage tank is improved through additional aluminium fins and an external cooling jacket. For modeling and process,simulation, Aspen Custom Modeler® is used to study the mass and heat transfer phenomena in the hydrogen storage,tank, as well as the interaction with the electrolyzer. The hydrogen tank is designed to store a total capacity of 700 g,of H2 using 62.5 kg commercial room temperature AB2-alloy, Hydralloy C5®. The operating pressure varies from 5 to,38 bar H2, while the coolant temperature varies from 20 to 60°C depending on the exothermic absorption or,endothermic desorption processes.},
note = {Online available at: \url{} (DOI). Wienken, E.; Krause, P.; Warfsmann, J.; Bellosta von Colbe, J.; Jepsen, J.; Klassen, T.; Puszkiel, J.: Modeling and process simulation of a metal hydride tank coupled with a PEM Electrolyzer. In: Dincer, I.; Colphan, C.; Ezan, M. (Ed.): 23rd World Hydrogen Energy Conference 2022 (WHEC 2022). Red Hook, NY: Curran Associates, Inc.. 2022. 452-454.}}