Publication
Modelling of solid oxide electrolizer and hydrogen leak estimation
Conference Article
Conference
Iberian Symposium on Hydrogen, Fuel Cells and Advanced Batteries (HYCELTEC)
Edition
7th
Pages
57-59
Doc link
http://www.ub.edu/hyceltec2019/
File
Authors
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Cifuentes López, Alejandro
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Husar, Attila Peter
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Roda Serrat, Vicente
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Morales Comas, Miguel
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Bernadet, Lucile
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Torrell, Marc
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Serra Prat, Maria
Projects associated
Abstract
Solid Oxide Elecyrolizers (SOEC) are electrochemical devises that produce hydrogen from water using the energy of an electric power source. SOEC operate at high temperatures (around 800ºC) and have efficiencies around 53% [1]. One of the most interesting scenarios of SOEC use is the storage of energy in hydrogen form when renewable power sources do not match the load. Because of this, it is important to study the dynamic behavior of SOEC systems in order to know their ability to adapt to changing power profiles. Different works describe SOEC models in the literature, as reviewed in [2], but time dependent models are scarse [3] and very few of the models are experimentally validated. This work presents a dy-namic model of a SOEC implemented in MATLAB Simulink and its match with experimental data.
One important issue in SOEC stacks is hydrogen leak, which aggravates with ageing and is mostly caused by the high operating temperatures. The analysis of the experimental data of this work suggested hydrogen leak. Based on the SOEC thermal model, a methodology to quantify the flow of hydrogen that is leaked out is proposed and applied to the experimental system.
Categories
control system analysis computing.
Author keywords
Dynamic modelling, Solid Oxide Electrolizer, Hydrogen leak estimation
Scientific reference
A. Cifuentes López, A.P. Husar, V. Roda, M. Morales, L. Bernadet, M. Torrell and M. Serra. Modelling of solid oxide electrolizer and hydrogen leak estimation, 7th Iberian Symposium on Hydrogen, Fuel Cells and Advanced Batteries, 2019, Barcelona, Spain, pp. 57-59.
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